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| Fidonet HAM/PACKET Digest - For up to date HAM/PACKET info |
|===============================================================|
| |
| Published by : Brian Murrey KB9BVN at Indpls, IN |
| |
|===============================================================|
| Send all article submissions to Brian Murrey at 1:231/30 |
| Or via GEnie address MURREY |
|===============================================================|
| SouthSide BBS |
| Mail articles to: PO Box 47453 |
| Indpls., IN 46247 |
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2. BULLETINS
ARRL BULLETIN NR 19 ARLB019 ............................ 2
Texas Packet Radio Society, Inc. - WD5IVD via UUCP ...... 3
HR CRRL BULLETIN NR 12/11 ARLC012 ...................... 5
HR PROPAGATION FORECAST BULLETIN NR 18 ARLP018 ......... 6
Space News - OSCAR info ................................. 7
Results of B.I.S. survey 4-26-89 ....................... 9
3. ARTICLES
PACKET RADIO: An Introduction - by Larry Kenney, WB9LOZ 1 - 8 10
Introduction to Packet Radio 9 to 16 by Larry Kenney WB9LOZ 29
ARRL Committee on Codeless License Report ............... 44
New Videotapes Available from ARRL A/V library .......... 54
Nuggets from Newington - May 1, 1989 - Luck Hurder ...... 55
Fast Packet Systems By: Simon Taylor G1NTX ............ 56
SOVIETS SAY NYET TO DAYTON HAMVENTION ................... 60
Emergency Communications in the Caribbean - Luck Hurder . 61
Georgia Amateurs Lauded ................................. 64
Fidonet HAM/PACKET Digest Page i
Volume 1, Number 2 May 5, 1989
====================================================================
E D I T O R I A L S
====================================================================
This is the second issue of my bi-weekly newsletter/digest.
Again, most of the articles and bulletins contained herein were
collected via the Fidonet HAM and PACKET echomail conferences.
What I hope to provide here is a useful digest of the more
interesting and more important messages that have been relayed
in the previous two weeks. What you can find in this newsletter
will be articles and bulletins ranging in fare from ARRL news,
RAIN news, AMTOR news, OSCAR news, PACKET news, and from time to
time the juicy tidbit that appears in the Fidonet SHORTWAVE
echomail conference.
One big change that I have made, and this is a new newsletter,
is that I have changed the name of the publication to from
"Amateur Radio News" to "Fidonet HAM/PACKET Digest". Many
thanks to Jim Grubs (W8GRT) for making the suggestion. I am
always looking for interesting articles that the ham community
would enjoy reading and sharing, the masthead explains where and
how to submit articles for future publications. I am also going
to start accepting a "Letters to the Editor" area, this will
give some of you a soapbox to voice your opinions on current HAM
and PACKET related events. I hope you find this digest to be
both entertaining as well as informative.
Brian Murrey - Editor KB9BVN
Fidonet HAM/PACKET Digest Page 1
Volume 1, Number 2 May 5, 1989
====================================================================
B U L L E T I N S
====================================================================
ARRL BULLETIN NR 19 ARLB019
FROM ARRL HEADQUARTERS
NEWINGTON CT MAY 1, 1989
TO ALL RADIO AMATEURS
THE 40TH ANNUAL ARMED FORCES DAY WILL BE HELD ON MAY 20 AND 21.
SPECIAL COMMEMORATIVE QSL CARDS WILL 3 ISSUED TO AMATEURS
CONTACTING THE PARTICIPATING MILITARY STATIONS. THOSE WHO
RECEIVE AND ACCURATELY COPY THE ARMED FORCES DAY CW AND/OR RTTY
MESSAGE FROM THE SECRETARY OF DEFENSE WILL RECEIVE A SPECIAL
COMMEMORATIVE CERTIFICATE.
CROSSBAND CONTACTS WITH MILITARY STATIONS WILL BE CONDUCTED FROM
1300Z MAY 20 THROUGH 0245Z MAY 21. THE CW RECEIVING TEST, AT 25
WPM, WILL BEGIN AT 0300Z ON MAY 21, WHILE THE RTTY TEXT, AT 60
WPM WITH 170 HZ SHIFT, WILL BEGIN AT 0345Z ON MAY 21.
SEE MAY 1989 QST, PAGE 106, FOR CALLS AND FREQUENCIES OF
PARTICIPATING MILITARY STATIONS AND COMPLETE DETAILS OF THE
RECEIVING TESTS AR
Fidonet HAM/PACKET Digest Page 2
Volume 1, Number 2 May 5, 1989
TPRS was founded in 1985 as an educational, public service, and
scientific research non-profit corporation. The primary goal of
the Texas Packet Radio Society is to design and research amateur
radio packet networks. In 1987, the Texas VHF-FM Society
commissioned the TPRS to coordinate digital communication
networks within the state of Texas. Both organizations have
recognized the need for reliable network systems to handle large
volumes of packet radio traffic efficiently.
TPRS has organizing state-wide working groups to cover various
networking topics. New groups are planned to form as needed to
provide channels for discussion and to help provide direction
for that area of digital communications. The current working
groups are the Texas Network Group, the Mailbox/BBS Group, and
the TexNet Support Groups (Software and Hardware). TPRS hopes
that these working groups will help promote packet in Texas.
TEXNET
TPRS has been establishing a digital packet network protocol, a
standard hardware package for the network nodes, and conducting
on-the-air tests of the software modules that implement the
TexNet network.
The basic design philosophy of TexNet is of an open,
inexpensive, multi-resource, high speed "backbone" with access
through multi-connect capable local nodes. On the high speed
side, TexNet is a 9600 baud network system. For local access,
compatibility with the typical 2 meter AX.25, 1200 baud, AFSK/FM
station is the operational norm. Other baud rates and
modulation techniques can be supported on the primary user port
or a secondary port. The system is totally compatible with both
versions of the AX.25 protocol specifications for user
connections. With these general specifications, TexNet has been
designed and tested to enable all users to take advantage of
this high speed, full protocol protected packet network system.
Each node offers, in addition to TexNet access, local area
digipeater service, 2 conference bridges for full protocol
protected roundtable or net operation, a full multi-connect,
multi-user mailbox system, a local console for installation and
maintenance setups, a debugger module for long distance and
local software monitoring, and a weather information server for
the regional weather teletype wire loop.
The TexNet network system has been operational since October
1986. Use of the TexNet system is open to all amateur
operators. TPRS has been coordinating the installation of the
Texas TexNet system. Currently the network runs from Dallas to
Rockport on the gluf. TexNet boards have been distributed to
California, Michigan, Oklahoma, OPhio, Indiana, Alaska, Belgium,
and Japan. Network nodes have been built primarily by local
groups.
Fidonet HAM/PACKET Digest Page 3
Volume 1, Number 2 May 5, 1989
Further expansion of the system depends entirely upon the
amateur radio community.
INFORMATION
TPRS is interested in spreading our information and research
efforts as widely as possible. We want other groups involved
with network efforts to get in contact with us. We will provide
information for those amateur packet groups that are interested
in this system for their areas. In addition, TPRS has been
raising its level of general packet information to help support
packet radio operators in general within Texas. If you would
like more information concerning TPRS or TexNet, please drop a
letter to :
Texas Packet Radio Society, Inc.
P.O. Box 831566
Richardson, Texas 75083
TPRS MEMBERSHIP
TPRS membership is widespread with most members located in
Texas, but a few members are located in other states and in DX
locations. Membership is open to any interested person.
If you are interested in becoming a member and receiving the
TPRS Quarterly Report, please send your name, address and call
to the address above and we will send you the necessary
information.
Fidonet HAM/PACKET Digest Page 4
Volume 1, Number 2 May 5, 1989
HR CRRL BULLETIN NR 12/11 ARLC012
FROM CRRL HEADQUARTERS LONDON ONT MARCH 27, 1989
TO ALL RADIO AMATEURS BT
CRRL HAS RESPONDED TO DOCS PROPOSALS ON DEREGULATION. CRRL
INDICATED TH_T THE DEREGULATION WOULD MEET MANY PRESENT AND
FUTURE NEEDS OF THE CANADIAN AMATEUR SERVICE. HOWEVER, CRRL HAD
SOME CONCERNS. 1. THE PROPOSAL SPECIFIED A 6 KHZ MAXIMUM
BANDWIDTH FOR THE 10.1 TO 10.15 MHZ BAND. THIS WOULD ALLOW SSB
OPERATION WHICH COULD INTERFERE WITH FIXED STATIONS. CRRL ASKED
DOC TO SPECIFY A MAXIMUM BANDWIDTH OF 1 KHZ. 2. DOCS PROPOSAL
ALLOWED AN AMATEUR TO ESTABLISH A HOME, PORTABLE AND MOBILE
STATION UNDER ONE CALL, BUT NOT TO OPERATE THESE CONCURRENTLY.
CRRL ASKED DOC TO CONTINUE TO PERMIT CONCURRENT OPERATION. 3.
CRRL ASKED DOC TO CONTINUE VE0 CALLS FOR STATIONS ON SHIPS IN
INTERNATIONAL WATERS. 4. CR___NOTED THAT DEREGULATION,
SPECIFICALLY DEREGULATION OF MODE SUBBANDS, COULD UPSET THE
EQUILIBRIUM BETWEEN THE CANADIAN AND US AMATEUR RADIO
COMMUNITIES.
REQUESTS FOR SPECIAL CALLSIGNS TO COMMEMORATE ANNIVERSARIES OR
PROMOTE SPECIAL EVENTS SHOULD NOW BE SENT TO A DOC DISTRICT
OFFICE. THE DECISION ____RANT A SPECIAL PREFIX WILL BE MADE BY
STAFF AT A DOC REGIONAL OFFICE RATHER THAN BY DOC, OTTAWA.
APRIL 3 IS THE 20TH ANNIVERSARY OF DOC, THE DEPARTMENT OF
COMMUNICATIONS. LOOK FOR SOMETHING SPECIAL ON THE AMATEUR BANDS
ON APRIL 3 AR
Fidonet HAM/PACKET Digest Page 5
Volume 1, Number 2 May 5, 1989
FROM ARRL HEADQUARTERS
NEWINGTON CT MAY 1, 1989
TO ALL RADIO AMATEURS BT
SOLAR FLUX HIGHS IN APRIL WERE NOT IMPRESSIVE, IN THAT THE PEAK
LEVEL WAS ONLY 206, AND THERE WERE ONLY SIX DAYS OF 200 OR
HIGHER. THINGS COULD HAVE BEEN WORSE, HOWEVER. THE LOW OF 172
AND THE AVERAGE, JUST UNDER 190, MADE FOR GENERALLY GOOD
CONDITIONS IN THIS TRANSITIONAL MONTH. THE EARTHS MAGNETIC
FIELD WAS RELATIVELY STABLE IN APRIL, A WELCOME CHANGE FROM THE
WILD EXTREMES OF MARCH.
AT THE END OF APRIL THE SOLAR FLUX HAD NOT BEEN HIGH FOR 10
DAYS, BUT THERE WERE INDICATONS THAT A MORE ACTIVE PERIOD WAS
IMMINENT. IF THE PORTION OF THE SUN JUST NOW COMING ACROSS THE
EAST LIMB REPEATS ITS ACTIVITY OF FOUR WEEKS AGO, WE MAY SEE
SOLAR FLUX FIGURES ABOVE 200 AGAIN BEFORE THE WEEK IS OVER.
CHECK WWV SOLAR BULLETINS AT 18 MINUTES AFTER THE HOUR FOR THE
LATEST INFORMATION. TODAYS SOLAR FLUX BEGINS AT 1818 UTC. THE
GEOMAGNETIC K INDEX IS CHANGED EVERY THREE HOURS.
A RISING K INDEX, ESPECIALLY IF THE FIGURE IS 3 OR HIGHER,
POINTS TO POOR CONDITIONS ON CIRCUITS THAT INVOLVE THE HIGHER
LATITUDES OF THE NORTHERN HEMISPHERE. A TYPICAL PATH IS NEW
ENGLAND TO NORTHERN EUROPE. THIS WILL BE POOR OR USELESS FOR 10
METER WORK IN THE WARM MONTHS AHEAD, WHENEVER THERE IS
APPRECIABLE MAGNETIC ACTIVITY.
THE 50 MHZ BAND HAS BEEN OPEN TO EUROPE, AFRICA, SOUTH AMERICA
AND EVEN TO NEW ZEALAND THIS SPRING. LUS WERE WORKED ON APRIL
29 WHEN THE SOLAR FLUX WAS ONLY 179. A RARE 50 MHZ OPENING TO
NEW ZEALAND CAME ON THE AFTERNOON OF THE 18TH, WITH THE FLUX AT
202.
AMERICAN SUNSPOT NUMBERS FOR APRIL 20 THROUGH 26 WERE BETWEEN
106 AND 161 WITH A MEAN OF 132.3 AR
Fidonet HAM/PACKET Digest Page 6
Volume 1, Number 2 May 5, 1989
SpaceNews
---------
MONDAY MAY 1, 1989
SpaceNews originates at KD2BD in Wall Township, NJ, and is
distributed weekly on packet radio bulletin board systems and
the Unix USENET news network. It is available around the world
on many computer news systems and is available for unlimited
distribution.
* MIR NEWS *
------------
A problem in the electrical power subsystem on the Soviet MIR
space station has made it necessary for the crew of MIR to leave
the station and return to earth. Before their return to earth,
Cosmonauts Alexander Volkov, Serge Krikalev and Valeriy Polyakov
placed MIR in a 500 km circular "parking" orbit that will remain
until a repair crew is sent to MIR in the next few months.
U4MIR/U5MIR Amateur Radio operations from MIR have ceased.
Operations were reported as late as 23Apr89 on 145.550 MHz.
Many stations in Europe reported hearing air-to-ground
communications from MIR on 121.750 MHz shorthly before the
Cosmonauts left MIR on 27Apr89.
* OSCAR-9 NEWS *
----------------
Diary software reloads will take place on Tuesdays and following
this, a CCD image will be transmitted. The time the image is
taken will depend on earth illumination. During the Northern
hemisphere winter months, this will either be Tuesday or
Wednesday mornings, UTC. The CCD image will be transmitted
until 00:00 UTC on Thursday, when the beacon will switch to
Digitalker telemetry.
* OSCAR-10 NEWS *
-----------------
ALL amateurs are requested NOT to use AO-10 for the next two
months.
* OSCAR-11 NEWS *
-----------------
OSCAR-11's Digitalker is back in operation after several weeks
of silence. FAD-1 Forth Applied Diary operating system version
2.0 is currently in operation on OSCAR-11.
Fidonet HAM/PACKET Digest Page 7
Volume 1, Number 2 May 5, 1989
* OSCAR-12 NEWS *
-----------------
The latest operating schedule for Fuji-OSCAR-12 is as follows:
Date Mode Operating Period
------+------+-------------------
29May : JA : 1500 - 0754 30May
03Jun : JA : 0715 - 1526
06Jun : JA : 1446 - 0540
09Jun : JA : 0553 - 1405
Note that only the mode J analog transponder will be in
operation during these times.
* OSCAR-13 NEWS *
-----------------
The following operating schedule for AO-13 is expected to remain
in effect until 03May89:
Mode : Beginning (MA)
------+---------------
B : 100...160
JL : 160...200
B : 200...255
OFF : 000...100
Fidonet HAM/PACKET Digest Page 8
Volume 1, Number 2 May 5, 1989
The results of the Chicago-based BEAR Information Service (BIS)
survey appears on this BBS weekly. The survey is conducted
during check-in periods Wed. evenings starting at 7:30 on the
BEAR (Broadcast Employees Amateur Repeater), 145.15 MHz from
Schaumburg, IL. These surveys are conducted to both provide
information, and to stimulate dialogue among hams, as well as
between users of telephone BBS's. The Apr. 26, 1989 survey
results are as follows:
Some feel "no code" has received excessive coverage. Are you
"fed up" with hearing about "no code" on the B.I.S.?
14-Yes
26-No
13-Don't care
checkin total: 81
If you have an idea for a survey question pertaining to ham
radio, forward it to me on the N3AIA packet BBS on 145.05, or
145.07 MHz in Schaumburg, IL.; in my packet maildrop in Des
Plaines, Il. on 145.03; on the SAMSON telephone BBS in
Arlington Hghts, IL, (312) 394-0071; or on the BEAR hotline,
(312) 827-BEAR. Since these surveys have been taken since mid
1986, your question may have been used already; however, if it
hasn't, you will receive credit here. Credit this week goes to
Gerry, N9HGV.
If YOU have a strong opinion about this week's survey, write
down your thoughts; then phone them in to and record them on the
BEAR hotline, (312) 827-BEAR, for possible airing ON the
biweekly "90-second soundoff," as a guest editorial on the B.I.S
and even on the RAIN Dialup Service nationally, (312) 299-INFO.
73, from Hap, KC9RP, B.I.S. producer.
Fidonet HAM/PACKET Digest Page 9
Volume 1, Number 2 May 5, 1989
====================================================================
A R T I C L E S
====================================================================
Packet Radio: An Introduction - - by Larry Kenney, WB9LOZ
Packet Radio is the latest major development to hit the world of
Amateur Radio. If you haven't already been caught by the
"packet bug", you're probably wondering what it's all about and
why so many people are so excited about it. Well, continue
reading, because you're about to find out.
Packet seems to offer something different from other facets of
Amateur Radio, yet it can be used for everything from a local
QSO to a DX contact 2500 miles away (on 2 meters!), for
electronic mail, message transmission, emergency communications,
or just plain tinkering in the world of digital communications.
It presents a new challenge for those tired of the QRM on the
low bands, a new mode for those already on FM, and a better,
faster means of message handling for those on RTTY. Packet is
for the rag chewer, the traffic handler, the experimenter, and
the casual operator.
A ham can get involved very easily with relatively small out-of-
pocket expenses. All you need is a 2-meter transceiver, a
computer or terminal, and a TNC. You probably already have the
two meter rig and a computer of some kind, so all you need to
buy is the TNC, which costs just over $100. The TNC is the
Terminal Node Controller, the little black box that's wired
between the computer and the radio. It acts very much like a
modem when connecting a computer to the phone lines. It
converts the data from the computer into AFSK tones for
transmission and changes the tones received by the radio into
data for the computer. It's a simple matter of wiring up a plug
and a couple jacks to become fully operational.
Packet is communications between people either direct or
indirect. You can work keyboard to keyboard or use electronic
mailboxes or bulletin board systems to leave messages. Due to
the error checking by the TNC, all of it is error free, too.
(That is, as error free as the person at the keyboard types it.)
As the data is received it's continuously checked for errors,
and it isn't accepted unless it's correct. You don't miss the
information if it has errors, however, because the information
is resent again. I'll go into how this is accomplished in a
later part of this series.
The data that is to be transmitted is collected in the TNC and
sent as bursts, or packets, of information; hence the name.
Each packet has the callsign or address of who it's going to,
who it's coming from and the route between the two stations
included, along with the data and error checking. Since up to
256 characters can be included in each packet, more than three
lines of text can be sent in a matter of a couple seconds.
Fidonet HAM/PACKET Digest Page 10
Volume 1, Number 2 May 5, 1989
There is plenty of time between packets for many stations to be
using the same frequency at the same time, and all using the
same repeater. The repeaters, known as digipeaters, are simplex
operations and occupy a single frequency, as opposed to the
common two-frequency repeaters used for voice communications.
You can link from digipeater to digipeater, too, extending your
range tremendously. I've worked twelve states on 2-meters with
packet, all with a ten watt rig, thanks to this linking
capability.
If all of this sounds confusing, don't let it bother you,
because that little black box, the TNC, does everything for you
automa- tically. Packet might seem very confusing at first, but
in a day or two you're in there with the best of them. In
future parts of this series, I'll be telling you more about
packet--how you get on the air, how to use it to your best
advantage, and ways to improve your operation. We'll even talk
about that little black box, the TNC, and tell you about all its
inner-most secrets.
Packet Radio: An Introduction - - Larry Kenney WB9LOZ Pt. 2
In the first part of this we told you beginners what packet
radio was all about...what it is, its uses, the equipment used
and, generally, how its transmitted. Now we're going to tell
you how to get on the air, make a QSO, and become familiar with
your packet station. Whether you're new to packet, having just
received a new TNC, have been involved for just a short time, or
are one of the "old timers" with three or four years of
experience, this series should help all of you. Even if you
don't yet own a TNC, you should keep this article handy for
future use. I'll bet you'll be joining us soon!
The equipment needed to get on the air is a VHF transceiver, a
computer or terminal, and a TNC - the terminal node controller -
the little black box we talked about in part 1. (There is
packet activity on HF, but VHF is where all the action is. It's
the best place to start out in packet.) The TNC contains a modem
and is equivalent to the modem used to connect your computer to
the phone lines, except that it also contains special software
that's specially designed for ham radio packet use.
When you buy a TNC and take it out of the box, you'll find
cables supplied for connecting it to the radio, but you'll have
to attach the appropriate mic and speaker jack connectors for
the radio you're going to use. You also have to furnish the
cable that connects the TNC to your computer or terminal. In
most cases, the standard RS-232 port is used between the TNC and
computer, however this varies on the type of computer and TNC
used. The operating manuals supplied with the TNC have a good
write up on the various computers and the cabling needed. I
would advise that you read the introduction and set up
procedures for your particular TNC very carefully. Most
companies have supplied excellent manuals, and you usually can
figure out all of your set up problems from the the information
Fidonet HAM/PACKET Digest Page 11
Volume 1, Number 2 May 5, 1989
supplied in the manual.
Once you have everything wired and connected together, turn on
the computer, load a terminal program (anything used for a phone
modem will work well for packet) and get into receive mode. Now
turn on the radio and make sure the volume is turned up about a
quarter turn (about the "10 o'clock" position) and make sure the
squelch is set. It should be at the point where the background
noise disappears, just as it would be set for a voice QSO.
Next, turn on the TNC. You should get a "greeting" or sign on
message showing the manufacturer's name, software version, etc.
If you see a bunch of gibberish, such as &tf$d.#ssan>m, it means
that the data rate of the TNC and computer are not the same.
This data rate is better known as the baud rate. The baud rate
of the TNC has to match the baud rate used by your com- puter
terminal program and is easily adjusted. Check you TNC manual
for this procedure, as it varies from TNC to TNC. If you don't
see a "greeting" or the gibberish, check your cables and
connections. Make sure that you have everything connected
properly, that the right wires are on the right pins, etc.
Now we need to explain the three levels of communicating you can
do from the keyboard. First, you can communicate with your
computer for setting up the terminal program; second, you can
communicate with the TNC; and third, you can communicate with
the radio. It's very impor- tant that you know which level
you're in when working packet. I can't help you much with the
computer level, since that varies with manufacturer, model and
type, but once you get the terminal program ready to receive
data, you're ready to talk to the TNC.
First, do a "control C" (press the CNTL and the letter C
simultan- eously); this puts the TNC in COMMAND mode, the level
where you communicate directly with the TNC from the keyboard.
You should see "cmd:" on your screen. Enter "MYCALL - - - -"
with your callsign in place of the dashed lines, such as "MYCALL
WB9LOZ", followed by a carriage return (CR). All commands are
followed by a (CR). This sets into the TNC memory the call that
you're going to use on the air. If you type "MYCALL" (CR) now,
it should respond with your call. If it does, you've proven
that the computer to TNC linkup is working fine. If you do not
see anything on the screen when you type, blindly enter the
following: ECHO ON (CR). If you see two of everything that you
type, such as MMYYCCAALLLL, enter ECHO OFF (CR).
You're now ready to go on the air! Tune the receiver to any odd
numbered frequency between 144.91 and 145.09 that has some
activity on it and set the rig up for simplex operation. Enter
"MONITOR ON" (CR), then watch the screen. You should soon be
seeing the packets that are being sent over the air by other
stations. If you don't see anything in a minute or two, try
tuning to another frequency. Watch for callsigns with a * next
to it, such as W6PW-1*, WA6RDH-1*, or WB6SDS-2*. Callsigns with
an asterisk indicate that you're copying the packet from that
station, as it's being repeated, or digipeated. Jot down the
Fidonet HAM/PACKET Digest Page 12
Volume 1, Number 2 May 5, 1989
call.
In packet, you can have up to 16 different stations on the air
at the same time using the same callsign. That's where the
numbers come into play. The calls W6PW, W6PW-1, W6PW-2, W6PW-3,
W6PW-4 and W6PW-5 are all individual stations operating under
the same station license. The numbers are used to differentiate
between the various stations.
Now, before you try to make your first QSO with someone else,
you should check out your equipment to make sure it's set up
properly. To do that, you can CONNECT to yourself. Note one of
the callsigns you jotted down a minute ago. Make sure your
radio is still tuned to the frequency where you heard that call,
then enter the following: "C - - - - V - - - -" (CR) where the
first dashed lines are YOUR callsign and the second dashed lines
are the call of the station you jotted down. The C means
CONNECT and the V means VIA. "C WB9LOZ V W6PW-1" means connect
to WB9LOZ via W6PW-1. You should soon see "*** CONNECTED TO
(your call)" on the screen. You have now entered the third
level of communications, called CONVERSE mode, and this is where
you communicate from the keyboard to the radio. Anything you
type on the keyboard will be transmitted over the air as a
packet every time you hit a (CR). If you enter "Test" (CR) you
should see "Test" a second time on the screen, as it's
transmitted, then digi- peated and sent back to you. In this
case you'll only be talking to yourself via another station, but
it's a good way to check to make sure your system is working
properly. If that works, hit a CONTROL C. This puts you back
into COMMAND mode where you talk to the TNC again. Enter "D"
(CR). This will disconnect you from the other station, and
you'll see "DISCONNECTED" on the screen.
Now you're ready to talk to someone else! Watch for a familiar
call on the screen while monitoring or note calls you see
frequently. Be sure to note whether or not a digipeater is
being used by watching for the *. If you see WB9LOZ > WA6DDM,
W6PW-1*, for example, you're receiving the packets from W6PW-1.
If you do not see an asterisk, you are copying the station
direct. When the station you want to contact is finished with
his QSO, enter "C - - - -" or "C - - - - V - - - -" (depending
on whether or not a digipeater is needed) followed by (CR). You
should get a "*** CONNECTED TO ..." on the screen, which means
you're in converse mode, and your first QSO with someone else is
underway! Anything you type now will be sent to the other
station, and anything he types will be sent to you. When you're
finished, be sure to do a CONTROL C to get back into command
mode, then enter "D" to disconnect from the other station.
Introduction to Packet radio - Part 3 by Larry Kenney WB9LOZ
Introduction to Packet Radio - PART 3 by Larry Kenney WB9LOZ
In our last column I talked about how to get on the air and make
your first QSO. This time I'll be explaining the special calls
Fidonet HAM/PACKET Digest Page 13
Volume 1, Number 2 May 5, 1989
used in packet radio, the use of digital repeaters (called
digipeaters), and how to use some of the commands in your TNC.
THE SSID: Each licensed amateur is allowed to have up to 16
different stations in operation at the same time on packet
radio. You could have your home station, several digipeaters
and a bulletin board system all operating with your callsign.
To differentiate between the various operations you use an SSID,
a "Secondary Station ID", attached to the end of the callsign.
The SSID is shown as a dash followed by a number, 0 through 15.
An SSID of -0 is usually not shown, and is not needed.
DIGIPEATERS: Digipeater is the term we use to describe a packet
radio digital repeater. Unlike voice repeaters, most
digipeaters operate on simplex and do not receive and transmit
simultaneously. They receive the digital information,
temporarily store it and then turn around and retransmit it.
Your TNC will allow you to enter up to eight digipeaters in your
connect sequence, but using more than 3 usually means long
waits, lots of repeated packets, and frequent disconnects, due
to noise and other signals encountered on the frequency.
When entering the list of digipeaters in your connect sequence,
you must make sure that you enter them in the exact order that
your signal will use them. You must separate the calls by
commas, without any spaces, and the EXACT callsigns must be
used, including the SSID, if any. That means you need to know
what digipeaters are out there before randomly trying to
connect. Turn MONITOR ON and watch for the paths that other
stations are using or check the digipeater listings. Here are
some examples of proper entries:
C W6PW-3 v W6PW-5
C N6ZYX v WA6FSP-1,WB6LPZ-1
C W6ABY-4 v K6MYX,N2WLP-2,AB6XO
Something to remember when using digipeaters is the difference
between making a connection and sending information packets. If
the path isn't all that good, you might be able to get a connect
request through, but will have a difficult time with packets
after that. The connect request is short so it has much less of
a chance of being destroyed by noise or collisions than a packet
containing informa- tion. Keeping information packets short can
help keep retries down when the path is less than ideal.
NODES: Net/Rom and TheNet nodes are another means of connecting
to other packet stations. A complete review of their operation
will be covered in a later part of this series.
TNC PARAMETERS: The Terminal Node Controller, that "little black
box" we've talked about in the past, has more than 90 different
commands available. You're able to customize your packet
operating with these commands and turn on and off various
features as you wish. Not all TNCs are exactly alike, but all
Fidonet HAM/PACKET Digest Page 14
Volume 1, Number 2 May 5, 1989
have pretty much the same functions. I'll be using the commands
used by the TNC2 and clones in my examples.
We covered a few of the commands in a previous article: CONTROL
C for entering command mode, MYCALL, MONITOR, CONNECT, and
DISCONNECT. Now let's discuss a few that can change the way
your station functions.
ECHO: This command tells the TNC whether or not it should send
what you type back to the monitor screen. If you don't see
anything when you type, set ECHO to ON. IIff yyoouu sseeee
ddoouubbllee, like that, set ECHO to OFF. This setting will
depend on how your partic- ular computer system functions.
CONV (converse mode): Your TNC will automatically switch to this
mode when you connect with someone, but you can also do it by
entering CONV (CR) at the Cmd: prompt. When in converse mode,
anything you type will be transmitted via the path you set with
UNPROTO. (See the next paragraph.) Anyone in monitor mode will
be able to read what you transmit. Packets in converse mode are
sent only once and are not acknowledged, so there is no
guarantee that they'll get through. This mode is used
frequently for sending CQ's.
UNPROTO: This command designates the path used when in converse
mode. The default is CQ, but you can enter a series of
digipeaters if you wish, or a specific group or club name. Some
examples:
CQ v WB6SDS-2,W6SG-1,AJ7L SFARC v W6PW-1,W6PW-4 Remember, you
have to change UNPROTO for use on different frequencies, unless
you leave it set simply to "CQ".
FRACK: This determines how long your TNC will wait for an
acknowl- edgement before resending a packet. It shouldn't be
set too short, or you simply clutter up the frequency, yet it
shouldn't be too long, or you'll spend too much time waiting. I
use FRACK set to 7, and have found that to be an overall good
value.
DWAIT: Used to avoid collisions, DWAIT is the number of time
units the TNC will wait after last hearing data on the channel
before it transmits. I have DWAIT set to 16, and have found
that to work well.
PACLEN: Determines the number of characters in your packets,
ranging from 1 to 256. The more characters you send per packet,
the longer it takes to transmit the information and the greater
your chances are of noise, interference or another station
wiping it out. I've found a PACLEN of 80, which is the length
of one line, to be a good value. When working a station nearby,
PACLEN can be increased. When working a distant station, it
should be decreased.
RETRY: Your TNC will retransmit a packet if it doesn't receive
Fidonet HAM/PACKET Digest Page 15
Volume 1, Number 2 May 5, 1989
an acknowledgement from the station you're working. RETRY
indicates the number of times the TNC will try to get the packet
through before giving up and disconnecting. This can be set
from 1 to 15, but I've found 8 to 10 to work well. Less than
that causes an unnecessary disconnect if the channel happens to
be busy, but more than that clutters up the channel.
Try working with those commands. In the next article I'll cover
a few more, plus take a look at how to use a packet bulletin
board system.
Introduction to Packet Radio - Part 4 by Larry Kenney WB9LOZ
The TNC commands that affect the monitoring mode and what you
see on the screen while monitoring will be discussed in this
part, then we'll take a look at the basics of packet bulletin
board operation.
TNC COMMANDS:
MONITOR - This must be ON for you to monitor anything. When ON,
you see packets from other stations on the frequency you're
tuned to. What packets you see is determined by other commands
from the list below. If MONITOR is OFF, you see only packets
sent to you while you're connected to another station.
MALL - If MALL is ON, you receive packets from stations that are
connected to other stations, as well as packets sent in unproto
(unconnected) mode. This should be ON for "reading the mail".
If MALL is OFF, you receive only packets sent in unproto mode by
other stations.
MCOM - If ON, you see connect <C>, disconnect <D>, acknowledge
<UA> and busy <DM> frames in addition to information packets.
If OFF, only information packets are seen.
MCON - If ON, you see packets from other stations while you're
connected to someone else. This can get very confusing, but is
useful when your path is bad and you want to see if your packets
are being digipeated okay. If OFF, the monitoring of other
stations is stopped when you're connected to another station.
MRPT - If ON, you see a display of all the stations used as
digipeaters along with the station originating the packet and
the destination station. If OFF, you see only the originating
and destination stations. For example, if you have MRPT ON, you
might see a transmission such as this:
K9AT>WB6QVU,W6PW-5*: I'll be leaving for the meeting at about
7:30. If MRPT was OFF, the same transmission would look like
this: K9AT>WB6QVU: I'll be leaving for the meeting at about
7:30. In the first case, you can see that the W6PW-5 digipeater
was being used. The asterisk indicates which station you were
hearing the packet from. In the second case you have no idea if
Fidonet HAM/PACKET Digest Page 16
Volume 1, Number 2 May 5, 1989
digipeaters are being used or what station you were receiving.
HEADERLN - If you have this turned ON, the header of each packet
is printed on a separate line from the text. If OFF, both the
header and packet text are printed on the same line.
MSTAMP - Monitored packets have the date and the time the packet
was received if MSTAMP is ON. If it's OFF, the date/time stamp
is not shown.
I run my station with all of these commands, except MCON, turned
ON so that I can really see what's happening on the frequency
I'm monitoring. Try various combinations of these commands and
then decide on the combination you like best for your station.
USING A PACKET BULLETIN BOARD SYSTEM:
You connect to a bulletin board system (BBS) exactly the same
way as you connect any other station. Once connected, you'll
see a welcoming message, some basic instructions and other
information. This informa- tion will vary from system to
system. The first time you connect you'll receive a request to
enter your name, home BBS, QTH and zip code for the system user
file. You enter your name using the letter N followed by a
space and then your first name, such as: N Larry. Your "home
BBS" is the system you plan to use regularly and want all of
your personal messages delivered to. You enter that by typing
NH followed by a space and then the call of the BBS, such as NH
W6PW. (Note: SSIDs are not used with BBS operation except for
when making the connection. The BBS software ignores all
SSIDs.) Your QTH is entered with the NQ command, such as NQ San
Francisco, CA. Enter the full city name and the two letter
state abbre- viation. You enter your zip code with NZ followed
by a space and your five-digit zip. The home BBS, QTH and zip
code information is sent to a central data bank at the WD6CMU
BBS known as the "White Pages", and can be used by anyone.
System operators (sysops) use it for determining the correct
system when forward messages, and you can use it to find out the
"home BBS" of your friends. How to use the "White Pages" will
be discussed later on in this series.
When checking in to a BBS for the first time, you should become
familiar with the commands available to you. Each BBS or
mailbox is a little different from the next, so read the
introduction carefully and follow the directions. If you don't
know what to do next, enter H for the HELP instructions. Make
note of the command letters, enter only one command at a time,
and make sure you enter them correctly. Computers are not very
forgiving and expect things to be entered in proper form. Take
your time, check out the features that the particular BBS or
mailbox offers and enjoy yourself. There's no need to feel
rushed or intimidated. If you get to a point where you don't
know what to do next, don't give up and disconnect, enter H
again for HELP. That's what it's there for! I suggest making a
printer copy of the complete help file so that you have it
Fidonet HAM/PACKET Digest Page 17
Volume 1, Number 2 May 5, 1989
available as a reference when using a BBS.
Now let's go through the basic procedures you should follow when
checking into a BBS. When you receive the welcoming message,
you'll note that the last line ends with a >. This is known as
the prompt, and is where you enter the command you want
performed next. If there are personal messages addressed to
your call, the BBS will list them for you following the wel-
come message. Note the message numbers.
At the prompt, the first thing you should always do is list the
new messages, by entering L. The BBS program updates the user
file each time you check in, logging the latest message number.
The next time you check in, only new messages that have been
received by the system will be included in your list. The first
time you'll receive all of them, since they're all new to you.
This list can be very long, as many systems have more than 200
active messages on line. When you receive the list, note the
numbers of the messages you're interested in reading.
Next, read the messages you're interested in. You do this by
entering R XXXX, where the Xs represent the message number, such
as R 4521. Note that there is a space between the command and
the number. It's best to have your buffer or printer turned on
when reading messages, because they're apt to come in faster
than you're able to read them. You should have a means of
saving them for reading later after you've disconnected. If
there were messages addressed to you, you should erase or "kill"
them once you've read them. You can do this with the "KM"
command, which means "Kill Mine". This command will erase all
messages that are addressed to you that have been marked as
having been read. You can also kill each message individually
by entering K XXXX, where the X's are the message number.
Once you've read all the messages you're interested in, you have
several options. You can look back at old messages, send
messages to other stations, see what's available in the files
section, download a file, upload a file, check the list of
stations that have recently checked in to the BBS or stations
that have been heard on frequency, monitor other frequencies
used by the BBS, use the gateway feature (if available), check
the status of the BBS tasks, or a variety of other things. In
part 5 we'll cover some of the other BBS commands. In the mean
time, the help file of the BBS should give you all the
information you need to try any of the functions mentioned
above. Enjoy!
Introduction to Packet Radio - PART 5 By Larry Kenney WB9LOZ
In this part of the series, I'll explain how to use the various
BBS commands that you have available to you. This information
is based on W0RLI software, so it might vary slightly for users
of AA4RE, WA7MBL, or other type systems. Use the H - HELP
command on your BBS if some of these commands do not work as
described.
Fidonet HAM/PACKET Digest Page 18
Volume 1, Number 2 May 5, 1989
LIST COMMAND: The first thing you should do when logging on to a
BBS is to use the LIST command. There are many variations
available, but L, by itself, is the one used most often.
L (List) - Lists all new messages, except other user's personal
messages, that have been entered since you last logged in. If
you want to list specific messages, you can use one of the
follow- ing variations of the L command:
Lx - Lists all messages of the type designated by 'x'. Example:
LB will list all bulletins.
L # - Lists messages back to and including number #. Example: L
4050 will list all messages, except personal messages to others,
from the latest one back to #4050.
LL #- Lists the last # messages. Example: LL 15 lists the last
15 messages received at the BBS, excluding other's personal
messages.
L 1 - Lists ALL non-personal messages.
L> callsign - Lists all messages TO callsign indicated.
Example: L> N6XYZ
L< callsign - Lists all messages FROM callsign indicated.
Example: L< N6XYZ
L@ designator - Lists all messages that have that "designator"
in the @ BBS column of the message header. Example: L@ ALLCAN
will list all messages with ALLCAN in the @ BBS column.
READ COMMAND: To read a message, you enter R followed by a space
then the message number. Example: To read message 5723, you'd
enter: R 5723. You also have the option of using the RH
command, which will give you all of the forwarding headers in
detail, rather than just giving you the path. Example: To read
message 5723 with the full headers, you'd enter RH 5723.
There is one other version of the READ command, and that's RM.
Entering RM by itself will give you all of the messages
addressed to you that have not yet been read.
ERASING MESSAGES: Once you have read a personal message, please
erase it. The sysop will appreciate your help in clearing up
"dead" messages. You use the K - KILL command to do this. You
can enter K #, such as K 5723, which will erase that particular
message, or you can enter KM, which will erase all of the
personal messages you have read. If you use the KM command, the
BBS will list the message numbers for you as they're killed.
THE DUAL PURPOSE "S" COMMAND: S (Status) and (Send) - The letter
S by itself will give you a reading of the BBS status, showing
the callsigns of stations using the system, the time they
Fidonet HAM/PACKET Digest Page 19
Volume 1, Number 2 May 5, 1989
connected, the port used, etc. It also shows information on the
message and user files.
The "S" command is also used for sending a message, but it must
be further defined. There are three types of messages found on
a packet bulletin board system: Personal, Bulletin, and Traffic.
"SP" is used for sending a personal message to one other
station, "SB" for sending a bulletin, and "ST" for sending a
message that's going to be handled by the National Traffic
System.
You're able to send a message to one particular person, to
everyone on the local BBS, to everyone at every BBS and mailbox
in Northern California, in Southern California, in the entire
state, or all across the entire country. It all depends on your
addressing.
At the BBS prompt you enter the appropriate command (SP, SB, or
ST) followed by a space and then the addressee. The addressee
can be a callsign or it can be something of a general nature,
such as ALL, QST, ARES. Examples: SP WB9LOZ SB ALL. All
commands, of course, must be followed by a <CR>.
If you wish to send the message to someone at another BBS, you
have to indicate the call of the other BBS following the call of
the addressee. For example, to send a message to N5PQ, who uses
the W5XYZ BBS, you would enter: SP N5PQ @ W5XYZ.
To send a general message to more than just the local BBS, you
need to use a designator in place of the BBS call. The
designator indicates the area where you want the message
distributed. ALLCAN indicates that you want the message sent to
all Northern California BBSs, which includes all of them from
Santa Cruz, Hollister, Gilroy, and Fresno northward. ALLCAS
will send the message to all BBSs in the southern part of the
state. A message that's sent @ ALLCA will go to EVERY BBS in
the state, and a message sent @ ALLUS will be sent to EVERY BBS
IN THE USA. Extreme care should be used when using the ALLUS
designator. Please make sure that the subject matter is of
interest to EVERY packet user and please keep the message SHORT.
The National HF Packet Network is somewhat fragile, due to band
condi- tions, so unnecessary traffic can keep more important
traffic from getting through. Here are a few examples of
addressing bulletin-type messages for general distribution: SB
ALL @ ALLCAN SB ALL @ ALLCA SB QST @ ALLCAS SB ALL @ ALLUS
If you have traffic for the National Traffic System, you must
use a special format. NTS messages are entered as ST ZIPCODE @
NTSXX, where XX is the two-letter state abbreviation. Examples:
ST 03452 @ NTSNH ST 60626 @ NTSIL
NTS traffic for California locations do not need the NTSCA.
Simply enter ST 90028 or ST 94101, for example. (You'll find
more details on NTS traffic handling in a later part of this
series.)
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Volume 1, Number 2 May 5, 1989
When you have the address line complete, you enter a carriage
return. You'll then receive a prompt asking for the SUBJECT or
TITLE of the message. Enter a brief description of what the
message will be about, followed by a carriage return. Next,
you'll be prompted to enter the TEXT of the message. When
entering the text, you should insert carriage returns at the end
of each line, as if you were typing a letter. A normal line has
a maximum of 80 characters, so when you have 70 to 75 characters
typed, enter a carriage return and continue on the next line.
This will prevent words from wrapping around to the next line
and the program inserting an unnecessary blank line in the text.
When you have your message complete, you end it with a CONTROL
Z. (You send a CONTROL Z by holding down both the CONTROL key
and the Z key simultaneously.) You should follow the CONTROL Z
with a carriage return. When you receive the BBS prompt back,
you'll know that the message has been accepted by the system.
FILE DIRECTORY COMMANDS:
W (What) - Entering W, by itself, gives you a list of the direc-
tories available on the BBS.
Wd - Gives a list of the files in the directory indicated by d.
The list you obtain with the W command will indicate what letter
to use for "d" to list the files of specific topics.
D (Download) - Used for reading files from a directory. Must be
used with a directory ID and filename using the following form:
Dx filename. x is the directory ID and the filename must be
entered exactly as listed in the directory. Again, the
directory ID is obtained from the list you receive with the
W command. Example: DG FCCEXAMS.88
U (Upload) - Used for uploading (sending) a file to the BBS.
The command must be used with a directory ID, followed by the
filename you're assigning to the file, using the form: Ud
filename. The d indicates the ID of the directory where you
want to enter the file. Filenames can have up to 8 characters
preceding the dot and 3 char- acters following the dot.
Example: UM FLEAMKT.INF would upload a file named FLEAMKT.INF
into the directory with the M ID. The BBS program will not
allow you to upload a file with a filename that already exists,
and some directories are set by your local sysop for downloading
only.
GENERAL MISCELLANEOUS COMMANDS:
I (Info) - Gives you details on the hardware, software and RF
facilities of the BBS you're using.
J - Displays a listing of stations that were heard by the BBS or
that connected to the BBS. Must be used with a port identifier,
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Volume 1, Number 2 May 5, 1989
such as JA, JB, etc. J by itself will list the port IDs for
you.
M (Monitor) - Used for monitoring the activity on another port
of the BBS. Must be used with a port identifier, such as MA,
MB, etc. M by itself will list he port IDs.
B (Bye) - When you're finished using the BBS, you enter a B to
disconnect.
Packet Radio: An Introduction - - by Larry Kenney WB9LOZ Pt. 6
In this part of the series we're going to take a look at how to
use NET/ROM and THENET for making contacts. It's a way of
making your operating time on packet more enjoyable due to the
increased relia- bility of the network and the greatly expanded
area that you can reach.
When a digipeater adds NET/ROM or THENET it becomes a
digipeater/node. This means that you can still use it as a
regular digipeater, but you can also use it to access a far
reaching network of nodes. When using a string of digipeaters,
your packets have to reach their destination parity correct, and
the receiving TNC has to return an acknowledgement (ack) to your
TNC for each packet cycle to be completed. As you add more
digipeaters to the string, the chances of this happening become
less and less. Other stations on the frequency and noise can be
the cause of many retries. When using a node, your packets no
longer have to reach their destination before acknowledgements
are returned to your TNC. Now, each node acknowledges your
packet as its sent along the way toward its destination.
Here's how you use the nodes network: No matter what station you
want to work, you connect to the closest node. When you
connect, your TNC automatically switches to converse mode, so
anything you now type is sent to the node as a packet, and the
node acknowledges each packet back to your TNC. For the
remainder of your connection your TNC works only with this node.
Once you're connected to the node, enter "NODES" <return> and
you'll receive a list of the other nodes available to you. It's
sometimes difficult to determine the location of the nodes from
this list, since the IDs and callsigns you receive aren't always
very descriptive. You might find the node maps and listings
that are available on most packet bulletin boards to be useful
tools. With these maps and listings, you can easily determine
where the nodes are located. Make sure you have a recent copy,
as new nodes are being added quite frequently.
Let's say you want to have a QSO with N6XYZ. You first must
determine what node is closest to that station. Let's say it's
W6AMT-3. Once you know the call of that node, you connect to it
WHILE STILL CONNECTED TO YOUR LOCAL NODE. You use standard
protocol, C W6AMT-3. Your TNC will send this as a packet to
your local node, and your local node will ack it. Your TNC is
Fidonet HAM/PACKET Digest Page 22
Volume 1, Number 2 May 5, 1989
happy because the cycle is completed as far as it's concerned.
The network will then go to work for you and find the best path
between your local node and the one you're trying to reach.
You'll then see one of two responses: "Connected to W6AMT-3" OR
"Failure with W6AMT-3". If it can't connect for some reason,
try again later. It could be that W6AMT-3 is temporarily off
the air or the path has decayed and is no longer available.
We're going to be positive here and say we received the first
option.
Now that you're connected to W6AMT-3, enter "C N6XYZ". Again,
your TNC will send this as a packet to your local node and the
node will acknowl- edge it and send it down the path to W6AMT-3.
W6AMT-3 will then attempt to connect to N6XYZ. Here again
you'll get one of the two responses: "Connected to N6XYZ" OR
"Failure with N6XYZ". If you get connected, you hold your QSO
just as you normally would, but there's one BIG diff- erence --
your TNC is receiving acknowledgements from your local node, and
N6XYZ is receiving acknowledgements from W6AMT-3. That long
path is eliminated for both TNCs, retries are greatly reduced,
and your packets get through much faster. When you're finished
with the QSO, you discon- nect in the normal manner -- go to
Command Mode using Control C and enter "D" <CR>. The entire
path will then disconnect automatically for you.
If you've been monitoring lately, you might have seen the nodes
in action and wondered why they were sending all of those weird
symbols like @fx/<~|. What you're seeing is the nodes
communicating with each other, updating their node lists. You
also might have noted callsigns with high numbered SSIDs, such
as WB9LOZ-15, WA6DDM-14, W6PW-12, etc. The nodes change the
SSID of all stations so that the packets sent via the network
are not the same as those sent directly. If you were to use a
node to connect to another station in the local area, there's
the possibility of your packets being received at this station
both from you directly and from the node. If the call through
the node wasn't changed, the TNCs involved would be totally
confused as it would appear that two stations were connecting
using the same callsign. The node automatically changes the
SSID using the formula 15-N, where N is your usual SSID. A call
with -0 becomes -15, a -1 becomes -14, -2 becomes -13, etc.
Introduction to Packet Radio - Part 7 - by Larry Kenney, WB9LOZ
The network of NET/ROM, THENET and KAM nodes is expanding very
quickly and now covers most of the country. New nodes are
showing up almost daily. Thanks to all of these new stations
and the interconnecting links, you can now connect to stations
in many far distant places using your low powered 2 meter rig.
Some nodes are set up for cross-banding, and with the
introduction of nodes on 10 meter FM, there's the possi- bility
of working a station just about anywhere.
A complete listing of NET/ROM NODES is available on most BBSs,
as well as maps showing how everything is tied together. The
Fidonet HAM/PACKET Digest Page 23
Volume 1, Number 2 May 5, 1989
lists are updated frequently by Scott, N7FSP, in San Jose.
NET/ROM is very simple to use, and I understand that THENET and
KAM nodes are very similar. As explained in part 6 of this
series, to use NET/ROM, you first connect to a local node. You
then have several options -- connect to another station within
range of the node, connect to another node, obtain a list of the
nodes that are available, check user status, or answer or call
CQ.
There are only FOUR commands to remember to use the system:
CONNECT, NODES, USERS and CQ. The CONNECT command (which can be
abbreviated as C) works just like the CONNECT command in normal
usage, except that you can connect from one node to another.
For example, you can CONNECT to W6AMT, and then do another
CONNECT to WA6RDH-1, another node. Let's go through a simple
connection via NET/ROM. Say I want to connect to a friend in
Reno, within reach of WA7DIA-1, a node in the Sierras. I would
first connect to my local node, say W6AMT, then connect to
WA7DIA-1, then connect to my friend. Here's what it would look
like:
C W6AMT
Connected to W6AMT
C WA7DIA-1
SFO:W6AMT Connected to RNO:WA7DIA-1
C K7ZYX
RNO:WA7DIA-1 Connected to K7ZYX
You then conduct your QSO, and disconnect in the normal manner.
(Go to command mode on your TNC and enter a D.) One disconnect
command will disconnect you from the entire network.
You'll note that many of the nodes have aliases, such as SFO for
W6AMT, VACA for WA6RDH-1, SSF1 for KA6EYH-1, etc. With NET/ROM,
you can connect to the alias identifier, so "C SFO" would work
as well as "C W6AMT".
Once connected to a node, the other commands come into play.
The NODES command (which can be abbreviated as N) will give you
a listing of other nodes available from the node you're
connected to. The USERS command (which can be abbreviated as U)
will show you the calls of all the stations using the node
you're connected to. The CQ command (which cannot be
abbreviated) is, of course, used for calling CQ, but also can be
used for replying to the CQ of another station. The CQ command
is available only in NET/ROM version 1.3.
There are two other commands, but they're used for status
information only. IDENT will simply give you the identification
of the node you're on, and PARMS (Parameters) is for the owner's
use in determining how his station is working.
Using the NET/ROM CQ Command: The CQ command is used to transmit
a short text message from a node, and is also used to enable
Fidonet HAM/PACKET Digest Page 24
Volume 1, Number 2 May 5, 1989
stations that receive the transmission to connect to the station
that originated it. The command is:
CQ [textmessage]
The "textmessage" is optional and can be any string up to 77
characters long (blanks and punctuation are allowed). In
response to a CQ command, the node transmits the specified
textmessage in "unproto" mode, using the callsign of the
originating user with a translated SSID as the source and "CQ"
as the destination. For example, if user station W6XYZ connects
to a node and issues the command: "CQ Anybody around tonight?",
the node would then transmit "W6XYZ-15>CQ: Anybody around
tonight?"
After making the transmission in response to the CQ command, the
node "arms" a mechanism to permit other stations to reply to the
CQ. A station wishing to reply may do so simply by connecting
to the originating call- sign shown in the CQ transmission
(W6XYZ-15 in the example above). A CQ command remains "armed"
to accept replies for 15 minutes, or until the originating user
issues another command or disconnects from the node.
Any station connected to a node may determine if there are any
other stations awaiting a reply to a CQ by issuing a USERS
command. An "armed" CQ channel appears in the USERS display as:
(Circuit, Host, or Uplink) <~~> CQ(usercall).
The station may reply to such a pending CQ by issuing a CONNECT
to the user callsign specified in the CQ(...) portion of the
USERS display--it is not necessary for the station to disconnect
from the node and reconnect. Here's what a typical transmission
would look like:
cmd: C KA6YZS-1
cmd: *** Connected to KA6YZS-1
USERS
501SJC:KA6YZS-1 NET/ROM 1.3 (669)
Uplink(WB9LOZ)
Uplink(K1HTV-1) <~~> CQ(K1HTV-14)
Circuit(LAS:K7WS-1 W1XYZ) <~~> CQ(W1XYZ-15)
Uplink(N4HY)
CONNECT W1XYZ-15
501SJC:KA6YZS-1 Connected to W1XYZ
Hi! Thanks for answering my CQ.
Users of the CQ command are cautioned to be patient in waiting
for a response. Your CQ will remain "armed" for 15 minutes, and
will be visible to any user who issues a USERS command at the
node during that time. Wait at least five minutes before
issuing another CQ--give other stations a chance to reply to
your first one!
NOTE: As mentioned above, the CQ command was introduced in
Fidonet HAM/PACKET Digest Page 25
Volume 1, Number 2 May 5, 1989
NET/ROM version 1.3. On a node using an earlier version, you
will get the message "Invalid command". The USERS command can
be used to determine which version a node is using as shown in
the example above. If you cannot initially connect to a node
using version 1.3, that doesn't stop you from using the CQ
command. Once you're connected to a node you can reach, simply
connect to one that has version 1.3.
Give the new CQ feature a try. You might work someone locally,
in Phoenix, Seattle, or on the East Coast. You never know where
you'll get connected to next! Enjoy!
Introduction to Packet Radio - PART 8 by Larry Kenney, WB9LOZ
The National Traffic System, known as NTS, is the ARRL sponsored
Amateur Radio message handling network. Packet radio is now
playing a very important part in the network, so we're going to
look at the system and give you some tips on handling NTS
traffic by packet.
Handling third party traffic is the oldest tradition in amateur
radio. This is most valuable during disasters. Nationwide, the
National Traffic System has hundreds of local and section nets
meeting daily in order to facilitate the delivery and
origination of such messages. More and more of this traffic is
being originated, relayed, and delivered on packet. If you
enjoy traffic handling, you can easily get involved in NTS via
packet. If you're on packet but know nothing about NTS, this
part of the series can get you off to a good start. At the end
of this part, you'll find some references for further
information.
Local packet BBSs have to be checked daily for traffic that
needs to be delivered or relayed. When you check into your
local BBS, enter the LT command, meaning "List Traffic". The
BBS will sort and display a list of all NTS traffic awaiting
delivery. It'll look similar to this example:
MSG# STAT SIZE TO FROM @BBS DATE/TIME SUBJECT
7893 T 486 60625 KB6ZYZ NTSIL 1227/0712 QTC1 CHI, IL 312-267
7802 T 320 06234 K6TP NTSCT 1227/0655 QTC1 NEW HAVEN, CT
7854 T 588 93432 KA4YEA 1227/0625 QTC1 CREST, CA 93432
7839 T 412 94114 KK3K 1227/0311 QTC1 SAN FRA 415-821
You might see traffic that is being relayed by your local BBS to
some other part of the country as well as traffic for your local
area. The "Subject" or "Title" column of the listing will show
the destination of the traffic. If you see a message that is
within your local area, help out and deliver it.
RECEIVING A MESSAGE: To take a message off of the Bulletin Board
for telephone delivery, or for relay to a local NTS net, enter R
followed by the message number. Using the list above, R 7839
would send you the message from KK3K for San Francisco. You'll
find the message in a special NTS RADIOGRAM format, with a
Fidonet HAM/PACKET Digest Page 26
Volume 1, Number 2 May 5, 1989
preamble, address, telephone number, text and signature, ready
for delivery. After the message has been saved to your printer
or disk, the message should be erased from the BBS. You use the
KT command, which means "Kill Traffic", followed by the message
number. In this case you would enter KT 7839 to erase the
message you took from the BBS. This prevents the message from
being delivered again by someone else.
DELIVERING OR RELAYING A MESSAGE: Once you have received the NTS
Radio- gram, it should, of course, be handled expeditiously. If
it's for your immediate area, you should deliver the message by
telephone. If you took the message for delivery to the local
traffic net, you should make an effort to see that it gets
relayed as quickly as possible.
SENDING MESSAGES: Any amateur can originate a message on behalf
of another individual, whether the person is a licensed amateur
or not. It is the responsibility of the originating amateur,
however, to see that the message is in proper form before it's
transmitted. A special format is used for NTS traffic, so that
the messages are compatible across the entire network. Each
message originated and handled should contain the following
components in the order given: number, precedence, handling
instructions (optional), the station of origin, check, place of
origin, time filed, date, address, telephone number, text and
signature. You should check the ARRL publications or your local
BBS for details on message preparation.
When the message is ready to be entered into your local BBS, you
must use the ST command, which means "Send Traffic", followed by
the zip code of the destination city, and "NTS" followed by the
two letter state abbreviation. The form used is ST Zipcode @
NTSxx. A message being sent to Boston, MA 02109 would be
entered as follows: ST 02109 @ NTSMA and a message for Iowa
City, IA 52245 would be entered as ST 52245 @ NTSIA. The
message SUBJECT or TITLE should contain "QTC 1" followed by the
destination city and state and the telephone area code and
exchange, if available. See the examples in the listing above.
Only one NTS message should be included in each packet message.
The actual radiogram should be included entirely within the TEXT
of the packet message, including all of the components listed
above. End the message with the usual Control-Z.
IN TIME OF EMERGENCY: The National Traffic System functions on a
daily basis as a positive public service for both your fellow
hams and the general public. It serves another function as
well. The NTS provides a well oiled and trained national system
of experienced traffic handlers able to handle large volumes of
third party traffic accurately and efficiently during disasters.
At least that is the goal. The ARRL booklet "An Introduction to
Operating an Amateur Radio Station" offers detailed information
on handling and preparing NTS Radiograms and the files section
of your BBS should have instructional files on NTS. You should
find files such as "Delivery.NTS", "Howto.NTS", "Whatis.NTS", as
well as several other helpful files. Check them out if you want
Fidonet HAM/PACKET Digest Page 27
Volume 1, Number 2 May 5, 1989
to get involved. Your help will be welcome!
Fidonet HAM/PACKET Digest Page 28
Volume 1, Number 2 May 5, 1989
Introduction to Packet Radio - PART 9 - by Larry Kenney WB9LOZ
In this part of the series I'll explain, in detail, the various
parts of the packet message. The following is an example of
what you see when listing or reading messages on a BBS. On some
systems, the information is displayed in a different order.
MSG# STAT SIZE TO FROM @ BBS DATE/TIME SUBJECT
4723 P 1084 WD5TLQ WA6XYZ N5SLE 0604/1240 Software working!
The message number is assigned by the BBS program when the
message is entered and cannot be changed. The numbers are
assigned sequentially.
Next you find the STATUS of the message which includes several
different bits of information about the message.
The first letter of the STATUS indicates the TYPE of message: B
for Bulletin, P for Personal, or T for Traffic for the National
Traffic System. Bulletins are messages of general interest to
all users, and are available to be read by everyone using the
system. Personal messages are not listed for anyone except the
sender and the addressee, and only they can read them. (Of
course, anyone in monitor mode can see a message of this type as
it's being sent, because nothing on packet is absolutely
private.) Traffic messages, type T, are messages used for
handling traffic on the National Traffic System. (Refer to part
8 of this series for information on NTS.)
STATUS also shows if the message has been read, has already been
forwarded to all designated stations, is in the process of being
for- warded, or is an "old" message. You might see one of these
letters: Y - yes, it has been read, F - it has been forwarded, I
- it's in the process of being forwarded right now on another
port, or O - the message has been on the BBS long enough to
become an "old" message. "Old" can be anywhere from 2 days for
an NTS message to 3 weeks for bulletins. The time frame for
each message type is specified by the local sysop. The "O" is
mainly used to catch the attention of the sysop.
The SIZE indicates the combined total of characters, including
punctuation in the message.
TO, normally, is the callsign of the addressee, but it is also
used to categorize messages on particular topics. You might
find a message addressed TO AMSAT, TO PACKET or TO ARRL, when it
is actually a message about AMSAT, about PACKET or having to do
with the ARRL.
FROM shows the callsign of the station originating the message.
@ BBS is used if you want a message to be forwarded to someone
at another BBS or to a specific designator. In the example, the
message would be automatically forwarded to WD5TLQ at the N5SLE
Fidonet HAM/PACKET Digest Page 29
Volume 1, Number 2 May 5, 1989
BBS. You can enter special designators, such as ALLCAN, in the
"@ BBS" column for multiple forwarding to specific areas. (See
Part 5 of this series for details on using forwarding
designators.)
Next is the DATE and TIME when the message was received at the
BBS. Keep in mind that the date and time are shown in the time
used by the BBS, and can be either local time or Zulu.
The SUBJECT (or TITLE) is a short line telling what the message
is all about. It should be brief, but informative. For
bulletin type messages, this is the information that determines
whether or not a person is going to read your message when he
sees it in the message list.
The parts of the message mentioned so far are all included in
the header of the message, and are seen when listing messages.
The remaining parts are in the body of the message, and are seen
only when the message is read.
If a message has been forwarded from another BBS, you'll see
forwarding headers at the top of the actual message. This is
information added by each BBS that was used to get the message
from its origination point to the destination. Each BBS adds
one line showing the time the message was received by that
particular BBS, its call sign, and usually the QTH, zip code,
and message number. Other information is often added, at the
discretion of the sysop there. If you use the RH command,
rather than just R, when reading a message, such as RH 7823,
you'll receive complete headers. With just the R, headers are
reduced to a list of the BBS callsigns. Complete headers are
useful if you want to determine how long it took a message to be
forwarded from the source to destination, and they can be used
to determine the path the message took to reach you.
The TEXT of the message contains the information you want to
convey to the reader. It can be of any length. When entering a
message into a BBS, use carriage returns at the ends of your
lines, as if you were using a typewriter. Do not allow the
automatic wrapping of lines to occur. A message entered without
carriage returns is very difficult to read, as words are cut at
improper points, lines vary drastically in length, and blank
lines are often inserted.
You complete the text with either a Control-Z or these three
characters: the "slash" (/) plus the letters "EX". On some BBSs
this must be on a line by itself. This tells the system that
you've finished entering the message.
Messages that are going to be forwarded to several BBSs or
across a long distance should be limited in size. Extremely
long messages can tie up the forwarding system unnecessarily, so
users are advised to break up long messages into parts, keeping
them to a length of 2 - 3 K each.
Fidonet HAM/PACKET Digest Page 30
Volume 1, Number 2 May 5, 1989
Introduction to Packet Radio - Part 10 - by Larry Kenney, WB9LOZ
Here are some tips to help make your packet operating a little
more enjoyable. Whether it's while making local QSOs, checking
into a BBS or mailbox, or working DX, there are a few things you
should take into consideration that will help eliminate waiting
time and increase your throughput.
When connecting to another station, don't use a digipeater
unless you have to. Each digipeater you add to the chain
increases the time required to get your signal to its
destination and to get an acknowl- edgement returned. It also
increases the chance for interference and for collisions with
other packets. You'll be amazed at the difference in throughput
when comparing a direct connect to one with just one digipeater
in the path.
Also, if you have a choice, use a frequency that doesn't have a
lot of other traffic on it. It makes sense that the more
stations there are on frequency, the more chances there are for
collisions and retries. A path that will work perfectly without
a lot of traffic, can become totally useless under heavy traffic
conditions.
Dr. Tom Clark, W3IWI, has determined that for EACH HOP, the
loss of packets can vary anywhere from 5% to 50% depending on
the amount of traffic. Remember, each digipeater and node adds
a hop, so multiply those percentages by the number of hops, then
multiply by 2 to account for the acknowledgement, and you can
see how quickly the path deteriorates as traffic increases and
digipeaters and nodes are added to it.
Another consideration, especially if working over a long
distance, is atmospheric conditions. You might not have
experienced this before on VHF, but with packet's high
sensitivity to noise, a slight change in signal strength can
mean the difference between getting your packets through or not
getting them through. An example of one path that is very
vulnerable to conditions due to its distance is from W6AK-1 on
Mt. Vaca to WB6AIE-1 on Bald Mountain in Yosemite National Park
on 145.05 MHz. Most of the time, packets go between these two
digipeaters without any problem, but there are times, especially
when it's a hot summer day in the Sacramento Valley, when it's
impos- sible to get a packet from one to the other. In the Bay
Area, the fog has a drastic affect on VHF signals. When a fog
bank is moving in off the Pacific, it can act as an excellent
reflector. Signals that are not normally heard can reach signal
strengths of 40 over S9.
NET/ROM, TheNet, and KA-Nodes, as discussed in previous articles
in this series, do a great deal to help you get your packets
through, but you must remember that they, too, are affected by
the number of hops, the traffic load and the atmospheric
conditions between you and the destination station. The big
advantage to NET/ROM is that the acknowledgements do not have to
Fidonet HAM/PACKET Digest Page 31
Volume 1, Number 2 May 5, 1989
return all the way from the desti- nation station. Packets are
acknowledged from node to node, so that eliminates a large part
of the problems encountered. Getting the original packet
through, however, remains to be as much of a problem for the
nodes as it is for you when using digipeaters.
Introduction to Packet Radio - Part 11 - by Larry Kenney, WB9LOZ
In this part of the series we'll take a look at many of the TNC
commands available to you that we haven't covered in previous
articles. We will be discussing the commands used in the TAPR
TNC2 and TNC2 clones. You might find that some of the commands
are not available in your particular TNC or that they're used in
a slightly different manner than the one explained here. Please
refer to your owner's operating manual for specific details on
how to use these commands in your TNC.
8BITCONV: This command enables the transmission of 8-bit data in
converse mode. Used with AWLEN - see below.
For normal packet operation, such as keyboard to keyboard trans-
missions, use of bulletin boards, and transmission of ASCII
files, 8BITCONV should be OFF. If you need to transmit 8-bit
data, set 8BITCONV ON and set AWLEN to 8. Make sure that the
TNC at the receiving end is also set up this way. This
procedure is normally used for transmission of executable files
or a special non-ASCII data set.
AWLEN: This parameter defines the word length used by the serial
input/output port of your TNC.
For normal packet operation, as described above, AWLEN should be
set to 7. Set to 8 only if you're going to send 8-bit data.
AX25L2V2: This command determines which level of AX.25 protocol
you're going to use.
If OFF, the TNC will use AX.25 Level 2, Version 1.0.
If ON, the TNC will use AX.25 Level 2, Version 2.0.
Version 2.0 has added features. See the CHECK command below.
Many operators have suggested that Version 2.0 NOT be used on
the HF bands as it tends to clutter the frequency.
BEACON:Used with EVERY or AFTER to enable beacon transmissions.
BEACON EVERY n- send a beacon at regular intervals specified by
n.
BEACON AFTER n- send a beacon once after a time interval
specified by n having no packet activity.
n = 0 to 250 specifies beacon timing in ten second intervals.
1 = 10 seconds, 2 = 20 seconds, 30 = 300 seconds or
5 minutes, 180 = 1800 seconds or 30 minutes, etc.
Fidonet HAM/PACKET Digest Page 32
Volume 1, Number 2 May 5, 1989
For example, if you set BEACON EVERY 180 (B E 180), the TNC will
transmit a beacon every 30 minutes. If you set BEACON AFTER 180
(B A 180), the TNC will transmit a beacon after it hears no
activity on the frequency for 30 minutes. B E 0 will turn the
beacon off. The text of the beacon is specified by BTEXT and
can contain up to 120 characters. The path used for the beacon
transmission is specified by the UNPROTO command. YOU SHOULD
USE BEACONS INTELLIGENTLY! Beacons are often a point of
controversy in the packet community because they tend to clutter
the frequency if used too frequently. You should keep your
beacons short and infrequent, and they should only be used for
meaningful data. Bulletin boards use the beacon for advising
the community of who has mail waiting for them, clubs use
beacons for meeting announcements, beacons are used for weather
warnings, etc.
CHECK n
Sets a timeout value for a packet connection. Operation depends
on the setting of AX25L2V2. The value of CHECK (n) determines
the timing. Value may be 0 to 250. Check set to 0 disables the
command.
If a connection between your station and another exists and the
other station seems to "disappear" due to changing propagation
or loss of an intermediate digipeater, your TNC could remain in
the connected state indefinitely. If the CHECK command is set
to a value other than 0, the TNC will attempt to recover. The
setting of AX25L2V2 will determine what action is taken.
If AX25L2V2 is ON, the TNC will send a "check packet" to verify
the presence of the other station if no packets have been heard
for n * 10 seconds. (n = 1 = 10 seconds, n = 5 = 50 seconds, n
= 30 = 5 minutes, etc.) If a response is received, the
connection will remain. If no response is received, the TNC
will begin the dis- connect sequence, just as if the DISCONNECT
command had been sent. If AX25L2V2 is OFF, after no packets are
heard for n * 10 seconds, the TNC will not send a check packet,
but will begin the disconnect sequence.
CMSG Enables the automatic sending of a connect message when-
ever a station connects to your TNC. If CMSG is ON, the TNC
will send the message contained in CTEXT as the first packet of
the connection. CTEXT can contain up to 120 characters. This
feature is often used when the station is on but the operator is
not present. The connect message is used to advise the other
station of that fact, and often says to leave a message in the
TNC buffer. If CMSG is off, the text message is not
transmitted.
MAXFRAME Sets the upper limit on the number of unacknowledged
packets the TNC can have outstanding at any time. (The
outstanding packets are those that have been sent but have not
been acknowledged.) It also determines the maximum number of
Fidonet HAM/PACKET Digest Page 33
Volume 1, Number 2 May 5, 1989
contiguous packets that can be sent during one transmission.
Value can be set from 1 to 7. The best value of MAXFRAME
depends on the frequency conditions. The better the conditions
are, the higher the value you can use. If conditions are poor
due to the amount of traffic on the frequency, noise, or other
variables, (shown by lots of retries) MAXFRAME should be reduced
to improve throughput. The best value of MAXFRAME can be
determined through experimentation. MAXFRAME of 1 should be
used for best results on HF packet.
MHEARD An immediate command that causes the TNC to display a
list of stations that have been heard since the command MHCLEAR
was given or the TNC was powered on.
This command is useful for determining what stations can be
worked from your QTH. Stations that are heard through
digipeaters are marked with an * on most TNCs. On the AEA
PK-232, the stations heard direct are marked with the *. (Check
your TNC manual.) The maximum number of stations in the list is
18. If more stations are heard, earlier entries are discarded.
Logging of stations heard is disabled when the PASSALL command
is ON. If the DAYTIME command has been used to set the date and
time, entries in the MHEARD list will show the date and time the
stations were heard.
PASSALL Causes the TNC to display packets that have invalid
checksums. The error-checking is disabled.
If PASSALL is ON, packets are accepted for display, despite
checksum errors, if they consist of an even multiple of eight
bits and are up to 330 bytes. The TNC attempts to decode the
address field and display the callsigns in standard format,
followed by the text of the packet. PASSALL can be useful for
testing marginal paths or for operation under unusual
conditions. PASSALL is normally turned OFF.
SCREENLN n This parameter determines the length of a line of
text on the terminal screen or platen. Value may be 0 to 255.
A (CR-LF) carriage return and line feed are sent to the terminal
in Command and Converse modes when n characters have been
printed. A value of zero inhibits this action. If your
computer automatically formats output lines, this feature should
be disabled.
TXDELAY n This parameter tells the TNC how long to wait before
sending data after it has keyed the transmitter.
All transmitters need some start up time to put a signal on the
air. Some need more, some need less. Synthesized radios and
radios with mechanical relays need more time, while crystal
controlled radios and radios with diode switching require less
time. External amplifiers usually require additional delay.
Experiment to determine the best value for your particular
radio. TXDELAY can also be useful to compensate for slow AGC
Fidonet HAM/PACKET Digest Page 34
Volume 1, Number 2 May 5, 1989
recovery or squelch release times at the distant station.
There are many additional commands available to you. I've only
covered the ones that I thought would be the most useful to you.
Spend some time reading the owner's operating manual that came
with your TNC to discover some of the surprises the other
commands offer. New versions of the TNC software have added
several commands that you might find useful in your packet
operating.
Introduction to Packet Radio -- Part 12 by Larry Kenney, WB9LOZ
In this article we're going to look at the White Pages. Not
your local telephone directory, but the packet radio directory
known as "White Pages". You help supply the information for
"WP", and you can also use it to find the home BBS, QTH and zip
code of your friends on packet.
"White Pages" was initially designed by Eric Williams, WD6CMU,
of Richmond, California. It's a database of packet users
showing their name, home BBS, QTH and zip code. It's updated
and queried by packet message, allowing stations from all over
the world to take advantage of it. Hank Oredson, W0RLI, later
added a WP feature to his packet bulletin board software. As
users enter their name, home BBS, QTH and zip code into the BBS
user file, the software automatically assembles a message once a
day containing all of the latest user information and sends it
to the WD6CMU White Pages. Hank has now expanded the WP
feature, and each BBS running the W0RLI software can now elect
to operate its own White Pages database. Each BBS, however,
continues to send a daily "WP" update of new or changed
information to the WD6CMU White Pages. You can easily make use
of the packet White Pages information, both at your local BBS
and at WD6CMU.
If your BBS is operating with its own WP database, you may make
inquiries of it using the "P" command. Simply enter P followed
by the callsign you'd like information about. If you wanted
information on WB9LOZ, for example, you would enter: P WB9LOZ.
Information from the WD6CMU White Pages is obtained by sending a
message to "WP @ WD6CMU". You can also update the database with
new information. One message can contain several lines,
including a combination of queries and updates. Since the
messages are read and answered by the WP software, not a person,
each line must have the correct format. One of the following
formats must be used: <callsign> QTH? <callsign> @ <BBS> <zip
code> <name> <QTH> DE <callsign> @ <BBS> The first form is a
query. It will cause a message to be returned to you giving the
home BBS, QTH and zip code of the person with the given
callsign. If the information is not available from the WP
database, the return message will tell you so. The second form
adds or changes the entry for the given callsign, and the third
form provides a return address for the requested information.
Replies will be sent to the originating station at the BBS
Fidonet HAM/PACKET Digest Page 35
Volume 1, Number 2 May 5, 1989
specified. If the return address line is not given, the WP
program will attempt to determine the originating station and
BBS from the message headers.
Here are some examples of messages to the WD6CMU White Pages
database: Suppose you wanted to know the home BBS of K9AT. You
would send a message to WP like this:
(Your BBS) W6BBS>
SP WP @ WD6CMU
Enter title of message:
Query
Enter text:
K9AT QTH?
DE N6XYZ @ W6BBS
(Control Z)
Capital & lower case letters may be used within the message.
If you wanted to update or add information to the White Pages,
you would send a message like this:
(Your BBS) W6BBS>
SP WP @ WD6CMU
Enter title of message:
Update
Enter text:
N6XYZ @ W6BBS 94199 John San Francisco, CA
AD6ZZ @ WB6ABC 94015 Anne Daly City, CA
DE N6ZYX @ W6BBS
(Control Z)
When updating or adding an entry to WP, you should make sure
that the information is accurate.
Here's an example of a message that has both queries and
updates:
(Your BBS)
SP WP @ WD6CMU
Enter title of message:
Update/Query
Enter text:
K9AT QTH?
WA6DDM QTH?
N6XYZ @ W6BBS 94199 John San Francisco, CA
AD6ZZ @ WB6ABC 94015 Anne Daly City, CA
DE N6ZYX @ W6BBS
(Control Z)
Just like all other packet messages, messages addressed to WP @
WD6CMU are forwarded from BBS to BBS toward their destination.
When a message containing new or updated information passes
through a BBS operating the W0RLI WP program, the software
recognizes the WP format and extracts the information from the
message for its database. The W0RLI WP program also collects
Fidonet HAM/PACKET Digest Page 36
Volume 1, Number 2 May 5, 1989
data from any WP responses it sees and from the message headers
of every message that passes through. In addition, if a BBS
operating with the W0RLI WP sees a query, it will respond with
any pertinent information that it has available. As a result,
you might receive more than one response to your WP query.
The information on each call in a W0RLI WP database is usually
deleted in 60 to 90 days if it's not updated. This keeps each
local database current and at a manageable size. The WD6CMU
White Pages directory retains the data for a longer period of
time.
It is important to note here that when you check into a new BBS,
you should always enter the same information that you have at
previous times. Choose ONE BBS as your home BBS, the one where
you want all of your messages delivered, and enter that callsign
every time you're asked. If you enter two or more different BBS
calls at various times, your mail could end up being sent from
BBS to BBS.
When a message arrives at the destination given in the "@ BBS"
column, the latest software now checks the White Pages
information to make sure the message was delivered to the right
place. If it finds that you have a different BBS listed as your
home BBS, it will insert the new BBS callsign and send the
message on its way. You may never get it.
If you move or change your home BBS, you should then make sure
that you update the information for your call in the White Pages
database. If you use a BBS with W0RLI software, the BBS will
send a WP message for you if you use the NH, NQ and NZ commands
to update the infor- mation. If these commands aren't available
on your BBS to make the changes, you'll have to send a message
update yourself to WP @ WD6CMU. Making sure that the
information in the White Pages is correct will help to get your
messages delivered to the correct BBS.
Introduction to Packet Radio - PART 13 by Larry Kenney, WB9LOZ
In this article, let's do some reviewing. I'm going to present
a short quiz on packet, covering the basics that I've presented
in the past 12 columns. Let's see how well you can answer the
following questions without looking back at the past articles.
In Part 14, I'll discuss each question and give you the correct
answers.
1. What are the three TNC modes of communication?
a. Connect, Converse, Terminal
b. Command, Converse, Terminal
c. Command, Converse, Transparent
d. Command, Connect, Transparent
2. What TNC command is used to set the transmit path for
beacons and CQs?
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Volume 1, Number 2 May 5, 1989
3. What is the TNC command CHECK used for?
4. While you're connected to another station, what command is
used to monitor other traffic on the frequency?
5. If you saw one of the following lines on your screen when in
monitor mode, what would the asterisk indicate?
W6ABC-3>N6XYZ,W6PW-1*: Hi Bob
W6ABC-3>W6PW-1*>N6XYZ: Hi Bob
(Displays vary with various TNCs, both common types are shown)
6. Why do the NET/ROM and TheNet nodes improve communications?
7. If you're connected to a station in New Mex using NET/ROM or
TheNet, how do you disconnect?
8. If N6ZYX-2 connected to you via a NET ROM or TheNet node,
what would the SSID of the station become at your end of the
connection?
9. When you're connected to another station, what are the two
most probable causes for packets not to be received by the other
station?
10. There are several basic commands used on a packet bulletin
board system. Indicate what you would enter to perform the
following:
a. Receive a list of messages.
b. Download a file in the General (ID G) directory called
FCCEXAMS.89.
c. Enter a private message to Jim, WA6DDM, who uses the W6PW BBS.
d. Read message 7134 with complete headers.
e. Find out what stations have been heard on port B.
11. To send an NTS message via packet addressed to Tom Smith,
123 Main Street, Keene, NH 03431, telephone (603) 555-4321, what
would you enter at the BBS prompt?
12. If a message has a STATUS of BF, what does that indicate?
13. If you received a message from a friend in Chicago that had
been forwarded to your home BBS through four other BBSs and the
message had a Date/Time of 0316/2245 when you listed it, which
of the following is a TRUE statement?
a. The message was written at 2:45 pm on March 16.
b. The message was entered into the BBS by your friend at 2245
on March 16.
c. The message was forwarded by your friend's BBS in Chicago at
2245 on March 16.
d. The message was received at your home BBS at 2245 on March 16.
14. If you wanted to send a message to your friend John, W4IP,
but you didn't know what the call of his home BBS was, what
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Volume 1, Number 2 May 5, 1989
could you do to try and find out what the call is?
15. BONUS: What is the maximum value for MAXFRAME? If you're
working a station on 30 meters and are sending a lot of retries,
should you increase or decrease MAXFRAME?
Introduction to Packet Radio - PART 14 by Larry Kenney, WB9LOZ
How did you do on the review quiz in the previous part of this
series? If you haven't taken it, you might want to read part 13
and take the quiz before reading any further.
Here are the correct answers and the series part number where
you can read more about the subject:
1 - Answer C is correct. The three TNC modes of communication
are Command, Converse and Transparent. Command mode is for
communicating with the TNC. The Converse mode is for normal
QSOs, connects to a BBS or mailbox, etc. and Transparent mode
is used for binary file transfer. (Part 2)
2 - The UNPROTO command is used for setting the transmit path
for both beacons and CQs. (Parts 3 and 11)
3 - The CHECK command is used for setting a timeout value in
your TNC. If set to a value other than zero, the TNC will
attempt to recover a connection after a certain specified time
if nothing is received from the other station. This command is
used in combination with the AX25L2V2 command. (Part 11)
4 - The MCON command (Monitor while CONnected) is used to
monitor other traffic on the frequency while you're connected to
another station. (Part 4)
5 - When monitoring, the asterisk indicates the station that you
actually hear the packet from. The MRPT command must be ON for
the monitor display to show digipeaters. (Part 4)
6 - NET/ROM and TheNet nodes improve communications because
packets are acknowledged from your station to the first node,
and then node to node to the destination. A packet doesn't have
to reach the destination before an ack is returned. (Parts 6
and 7)
7 - When using NET/ROM or TheNet (no matter who you're connected
to) you disconnect by going to command mode on your TNC and
sending a D, just like at other times. The fact that you're
using several nodes or are connected to a distant station makes
no difference. The network will take care of disconnecting all
stations and links. (Parts 6 and 7)
8 - N6ZYX-2 would appear as N6ZYX-13 if he connects to you using
a node. The nodes change the SSID using the formula 15-N.
(Part 6)
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Volume 1, Number 2 May 5, 1989
9 - The two most probable causes for a packet not to get through
are collisions with other packets on the frequency and noise due
to weak signals. (Part 10)
10 - BBS commands:
a. To receive a list of messages: L
b. To download a file in the General (G) directory called
FCCEXAMS.89, you'd enter DG FCCEXAMS.89
c. To enter a private message to Jim, WA6DDM: SP WA6DDM @ W6PW
(The "@ W6PW" is not needed if you're using the W6PW BBS.)
d. To read message 7134 with headers: RH 7134
e. To find out what stations were heard on port B of the BBS,
you'd enter JB (Part 5)
11 - If you wanted to send a message to Tom Smith, 123 Main
Street, in Keene, NH 03431, you would enter the following at the
BBS prompt > ST 03431 @ NTSNH (Part 8)
12 - A message with a STATUS of BF means that the message is a
bulletin and that it has been forwarded to all stations that are
supposed to receive it from the BBS you're using. (Part 9)
13 - Answer D is correct. The date/time of a message is the
time the message was received at the BBS you're using. Please
note that the date/time of a message does not indicate local
time, zulu time, UTC, GMT, or whatever. It indicates the time
that that BBS is set to. Most BBSs are now set to zulu time
(UTC, GMT), but many still use local time. When you read a
message, you should be able to get the date and time the message
was written from the message header. (Part 9)
14-To find the call of the HOME BBS of your friends, use the
White Pages Directory. If the BBS you're using has the WP
feature enabled, you will find the P command to be useful,
otherwise send an inquiry to WP. (Part 12)
15-BONUS: The maximum value for MAXFRAME is 7. MAXFRAME is the
number of packets transmitted by your TNC contiguously, and the
number of unack- nowledged packets the TNC can have outstanding.
You decrease MAXFRAME when conditions are poor. Your TNC will
send fewer packets at one time, so there will be less
information to collide with other packets on the frequency and
less chance of information being wiped out by noise. (Part 11)
There is no passing grade on the quiz. It was designed for you
to check your general packet knowledge, and you'll have to be
your own judge of that.
Introduction to Packet - Part 15 by Larry Kenney, WB9LOZ
W0RLI, N6VV, and VE3GYQ have devised a scheme called
HIERARCHICAL ADDRESSING. With hierarchical routing designators
we have an opportunity to improve traffic routing. No longer
will a missing call in a BBS for- warding file cause a message
Fidonet HAM/PACKET Digest Page 40
Volume 1, Number 2 May 5, 1989
to remain unforwarded, sysops will no longer have to burn the
midnight oil trying to keep their forward files up to date, and
messages will move much more directly toward their destination.
The format for hierarchical routing is: addressee @
BBScall.#local area.state-province.country.continent.
It might look complicated, but it's not. First, note that each
section of the format is separated by a period. Codes used for
the continents and countries are standards, now accepted
throughout the world. You should be able to find a list of them
in the file section of your BBS. State and province codes are
the recognized two-character codes established by the American
and Canadian Post Offices. These may be found in the Callbook,
your phone directory, or any zip code listing. The code for
local area or county is optional, since most of you have no idea
what code is being used back in upper New York state or in Iowa
City, IA. If you know it, use it, since it will help get the
message closer to where it's going. The code for Northern
California is #NOCAL, and the code for Southern California is
#SOCAL. You should use the appropriate one in your signature
line. For messages going outside of the US or Canada, the local
area is optional and the state is eliminated.
Using the hierarchical format, here are some routing examples:
You'll note that the local area code is preceded by the
octothorpe #. (Now, how's that for a $5 word?) The reason is
that the Japanese network, and possibly other areas, want to use
routing numbers for the local area/county code, which could get
confused with zip and postal codes. Using the # on all local
area codes will eliminate forwarding problems.
We need to emphasize two very important points: hierarchical
addressing DOES NOT indicate a forwarding PATH, and ONLY ONE BBS
call should be included in the address. A list of BBS calls
separated by dots will not get your message to its destination.
The addressing scheme is said to be one area inside another
area. Using my hierarchical address as an example, WB9LOZ @
W6PW.#NOCAL.CA.USA.NA, here's how you would describe the
address: "WB9LOZ at W6PW which is in Northern California which
is in California which is in the USA which is in North America".
There are several BBS programs that implement hierarchical
addressing now, including the W0RLI, AA4RE and WD6CMU software.
Check the ID block you receive when you log into your BBS. If
it has an H in it, such as [RLI-9.07-CH$] or [4RE-02.4-HM$],
your system supports it.
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Volume 1, Number 2 May 5, 1989
This next section explains how the BBS software uses the
hierarchical addressing scheme. We first have to understand how
the software goes about matching items in the "@ BBS" address
with items in the forward file. For an example, let's say that
we send a message to Tom, W3IWI, who operates his own BBS and is
located near Baltimore, Maryland. We would enter: SP W3IWI @
W3IWI.MD.USA.NA If the only entries in the forward file are
California BBSs plus a list of state abbreviations, let's see
how the message would be forwarded. The first thing the
software does is attempt to find a match between the items in
the forward file and the left-most item in the address field.
In our case, it would not find W3IWI. If there isn't a match,
it then moves to the next section to the right. It would find
MD and that match would allow the message to be forwarded. If
it had found the call W3IWI, that entry would take precedence
(because it is more left in the field than MD) and would of
course also ensure delivery.
Here are some comments from the ones who devised the
hierarchical addressing:
"There is another added benefit to this scheme. It involves
Gatewaying between the BBS world and other networks, such as
TCP/IP via SMTP. Much of the pioneer work in setting up the
gatewaying protocols has been done by NN2Z, N3EUA, and PA0GRI,
amongst others. The W0RLI BBS package allows for the forwarding
of mail between the BBS world and the SMTP world. Of note is
the fact that the WA7MBL package has allowed such message
exporting and importing for some time now. This means that we
can take advantage of the TCP/IP host-names and their domain or
hierarchal format for forwarding. Thus it is possible to send
mail from the BBS to VE3BTZ as [email protected] or from
SMTP to [email protected] and not have any ambiguity.
"We expect that WA7MBL will also be implementing hierarchal
routing in the near future. This system is still compatible
with older style systems, as a system that handles hierarchal
forwarding identifies with the H feature letter: [RLI-8.00-CH$].
If it does not get an appropriate response, it uses the
left-most item in the "@ BBS" string as the "@ BBS" for the
message.
"The authors hope that this paper will serve as a starting place
for improved message routing by means of implicit routing.
Low-level (VHF) BBSs need only maintain state or province or
country codes for distant BBSs, and route such traffic to their
nearest HF Gateway. In turn, the HF station routes it to the
desired state, where the receiving Gateway station would have a
detailed list of the BBSs it serves."
Comments from W0RLI, N6VV and VE3GYQ.
73, Larry, WB9LOZ @ W6PW.#NOCAL.CA.USA.NA
Fidonet HAM/PACKET Digest Page 42
Volume 1, Number 2 May 5, 1989
Introduction to Packet Radio - PART 16 By Larry Kenney, WB9LOZ
In the previous 15 parts of this series, this column has covered
all of the basics of packet radio - from setting up your TNC and
making your first QSO, to using digipeaters and Net/Rom. Many
of the TNC commands have been explained, including the best
settings for normal packet use. I have discussed the procedures
used for logging into a packet Bulletin Board System or Mailbox,
and have given you informa- tion on how to list, read and send
messages, download and upload files, and use other features
available. I've talked about the general message format, the
reasons for limiting the number of digipeaters you use, calling
CQ on Net/Rom and a variety of other topics.
More articles will be written as new developments are made and
old features are updated. There are several programs available
for making special use of packet, such as TCP-IP, Tex-Net and
Conference Bridging, and high speed modems are just around the
corner. Perhaps we'll take a look at those topics in the months
ahead. Right now I'm not familiar enough with them to write
about them. I'm interes- ted in getting on the air with TCP-IP,
so I might get into that next.
If you have any comments on this series, have any questions on
the topics discussed, or want to suggest new topics for
discussion in future articles, please leave a message for me. I
hope that you've found this series to be informative and helpful
in making packet more enjoyable.
73, Larry Kenney, WB9LOZ @ W6PW
Fidonet HAM/PACKET Digest Page 43
Volume 1, Number 2 May 5, 1989
April 5, 1989 For more information contact:
David Sumner, K1ZZ
FOR IMMEDIATE RELEASE Tel: 203-666-1541
FAX: 203-665-7531
ARRL COMMITTEE ON CODELESS LICENSE RELEASES REPORT
Newington, Connecticut -- A special committee appointed by
American Radio Relay League (ARRL) President Larry E. Price,
W4RA, has submitted a report recommending the creation of a
class of Amateur Radio license not requiring a knowledge of
Morse code. The report was presented to the ARRL Executive
Committee, which met on April 1; the Executive Committee did not
take a position on the substance of the report, but authorized
its publication in full in the May issue of QST and referred it
to the full Board of Directors for consideration during its July
21-22, 1989 meeting. ARRL members, other licensed radio
amateurs, and others interested in Amateur Radio are invited to
review the report and to make their views known to ARRL Division
Directors, whose names appear on page 8 of QST magazine.
The mission of the committee was "to explore the implications of
a no-code amateur license." To carry out this mission, President
Price appointed a distinguished committee consisting of members
from the ARRL Board of Directors, Amateur Radio industry and
radio amateurs at large, as follows:
ARRL Vice President George S. Wilson III, W4OYI, Chairman
John Crovelli, W2GD, At Large
Y. E. (Ed) Juge, W5TOO, Industry Representative
Kenneth D. Kopp, K0PP, At Large
C. Mike Lamb, N7ML, Industry Representative
Rod Stafford, KB6ZV, ARRL Director, Pacific Division
In addition, the following consultants were designated: Thomas
B. J. Atkins, VE3CDM, Canadian Radio Relay League President
Larry E. Price, W4RA, ARRL President Leland Smith, W5KL,
Quarter Century Wireless Association President David Sumner,
K1ZZ, ARRL Executive Vice President
The committee stressed that its proposal, if adopted, would not
cause any licensee to lose any present privileges. It proposes
a new class of Amateur Radio license, with a written examination
somewhat more comprehensive than the present Technician exam but
with no requirement for a Morse code examination. Holders would
be permitted to operate on all frequencies and with all
privileges now available to Technicians above 30 MHz, except
that 2-meter operation would be limited to frequencies between
144.9 and 145.1 MHz and to digital modes only. Examinations
would be given only by accredited Volunteer Examiners, and
distinctive call signs would be assigned.
The committee carefully reviewed a wealth of input from
Fidonet HAM/PACKET Digest Page 44
Volume 1, Number 2 May 5, 1989
interested individuals and Amateur Radio clubs, as well as
information it had requested from International Amateur Radio
Union (IARU) member societies in other countries which already
have a code-free class of amateur license. A large number of
alternatives were considered by the committee in developing its
recommendations.
ARRL Executive Vice President Sumner stressed that the
committee's report does not represent League policy at this
time. The Board of Directors is the policy-making body of the
organization, and as such will determine whether the report,
with or without modifications, will become League policy. He
pointed out that the League is a representative democracy, with
Directors elected to represent the members of their Divisions.
Accordingly, anyone reading this report and wishing to have his
or her views considered is urged to write the Director of their
Division sometime prior to the July Board Meeting.
The full text of the committee's report is attached.
Report of the Committee to Examine a Possible Codefree License
in the Amateur Radio Service
This Committee was appointed by the President pursuant to
direction of the Executive Committee at its meeting of December
10, 1988 (Minute 2.6.1), "to explore the implications of a
no-code amateur license and make a report to the ARRL Second
Board meeting of 1989." The extent of the Committee's
investigation and exploration, and its recommendations, are
contained in the body of this report, which is herewith
respectfully submitted.
Conclusions
1. No licensee should lose any present privileges.
2. The present Technician (3A) pool is already being revised to
correct shortcomings in its syllabus. The Committee feels this
action is needed, and its completion is a foundation of our
recommendations. The examination length for this element should
be increased to 30 questions to accommodate the slightly
expanded syllabus.
3. The present Technician class will be renamed "Technician
Plus". Each holder of the present Technician class license on
the date of implementation of this proposal by the FCC will
become a "Technician Plus."
4. A new class of license, called the "Technician", will be
created. To obtain this license, an applicant will be required
to pass the present Novice (Element 2) and the revised
Technician (Element 3A) written examinations. Both of these
examinations must be administered through the Volunteer Examiner
Program and credit will not be given for having passed Element 2
before Novice Examiners.
Fidonet HAM/PACKET Digest Page 45
Volume 1, Number 2 May 5, 1989
5. For a Technician to become a Technician plus, he or she need
only pass the Novice Code (Element 1A) examination at five words
per minute. This must also be done through the Volunteer
Examiner Program.
6. The licensees of the new class should have distinctive
callsigns. These would be 2$X3s beginning with NA#AAA. Upon
obtaining a Technician Plus license, the first letter would
change to "K" (or the appropriate 1$X3 if the licensee
requests). In practice, these licenses would probably begin
with NE#AAA to avoid duplications with suffixes already issued
in the KA-KC series.
7. The new Technicians should have all privileges now allowed
present Technicians above 30 MHz except in the two meter band.
On two meters, the new Technicians should have only digital
privileges from 144.9 to 145.1 MHz.
Committee Composition
The Committee consisted of:
John M. Crovelli, W2GD, At Large
Y. E. (Ed) Juge, W5TOO, Industry Representative
Kenneth G. Kopp, K0PP, At Large
C. Mike Lamb, N7ML, Industry Representative
Rod Stafford, KB6ZV, ARRL Director, Pacific Division
George S. Wilson III, W4OYI, ARRL VP, Chairman
Consultants to the Committee who provided helpful participation
at all stages were:
Thomas B. J. Atkins, VE3CDM, CRRL President
Larry E. Price, W4RA, ARRL President
Leland Smith, W5KL, QCWA President
David Sumner, K1ZZ, ARRL Executive Vice President
The Committee thoughtfully considered all material received
directly from the amateur community at large or forwarded to it
by various Directors and by recipients at ARRL headquarters. As
Chairman, I must note that the time between appointment of the
Committee and its March 11, 1989 meeting allowed each member to
do his homework well. Each member demonstrated thorough
familiarity with the file. Rationale
National and international pressures on our spectrum, the
continuing increase in the average age of amateurs, the expected
decrease in the number of young people coming of "ham age," a
desire to help improve the human technological resources of the
United States, and fundamental fairness have led the Committee
to recommend a code-free license class be established which
requires unmistakable technical competence.
Domestic pressures on our spectrum are so clear that they need
not be documented here; and it appeared to the Committee that
serious international pressures, including the possibility of a
Fidonet HAM/PACKET Digest Page 46
Volume 1, Number 2 May 5, 1989
WARC, exist as well. An increased number of amateurs may aid in
our defense of those frequencies. The proposals made by this
Committee should increase the number of persons joining the
Amateur Service without introducing uncontained or unrestrained
growth. Population studies indicate that there will be a
dramatic decrease in the number of young people reaching "ham
age" in the next few years. To hold our own in the number of
licensees, we must recruit an ever-higher percentage of the
total pool of young people as they reach an appropriate age.
Indeed, to attain growth figures which would be of significant
assistance in frequency defense, the Committee feels an
aggressive recruiting campaign, far beyond anything previously
attempted, must be considered. International experience with
codeless license classes confirms this view.
The Committee did not opt for a codeless license class with an
idea that it would, by itself, guarantee the successful defense
of our frequencies. We were well aware of this Nation's loss of
its technological edge. This is seen in the transfer of
technology overseas and in the decline of technological skills
here at home. Anything we, as amateurs, can do to help reverse
this trend is important to our Nation. We are aware that many
of today's leaders in technology began their careers in ham
radio, and are painfully aware that many rising technologists
today do not see the code as relevant. The Committee feels that
this proposal, in its own way, can help restore the
technological viability of the United States.
In analyzing how to reach the goals of technological improvement
and controlled growth the Committee kept before it these
concerns most commonly raised by the amateur community:
1. Will existing amateurs lose any privileges? The answer is
an unqualified, "No."
2. Will we create another CB debacle with uncontrolled growth
and irresponsible behavior? Again, "No!" The anticipated growth
will not be overwhelming, and it will be carefully controlled
through t he examination system. Frequency and mode selections
are common, in all cases, with existing activity and will not
place newcomers to the service in a ghetto in which they can
develop unacceptable operating techniques. Further, the effort
required should ensure respect for the license and for good
operating practices.
3. Would existing amateurs be overcrowded? Again, "No." The
privileges recommended by the Committee will be those portions
of the spectrum where additional activity can be accommodated,
yet newcomers can be assimilated with an anticipated growth rate
on the order of that experienced in the middle 1970s.
While a new "doorway" is recommended for ham radio, the license
structure we propose is not one of easy access. Rather, one
must demonstrate technical knowledge and knowledge of the rules
that equals and surpasses that now required by present
Fidonet HAM/PACKET Digest Page 47
Volume 1, Number 2 May 5, 1989
Technicians.
The Committee strongly believes that Morse Code does not work
well as a filter to weed out undesirables. It is quite clear
that code does act as a "filter"; but there are hundreds of
cases indicating that technically qualified persons of good
character did not become hams, not because they did not wish to
spend the necessary study time, but because they saw no
relevance in the code requirement. Illustrative is this excerpt
from a letter to the Committee from William L. Call, KJ4W, as
Assistant Professor in Engineering Technology at Murray State
University in Kentucky. The school has a long and proud history
as the location of a college radio club; but the club is now in
a serious decline:
"The Department has allowed me to give extra class credit to
students who attend my free license course and get their
novice ham license. College credit for getting a free ham
license! You know what: very few students will take me up on
it. The stopper, of course, is the Code. These kids are
bright, polite, disciplined, and would make good hams, but
won't do it because of the Code. Their extracurricular
interests in electronics are in computers, audio, music,
video, satellite TV, etc. Some of them would easily get
involved in ham radio if it weren't for the Code."
Thus, code is believed to be an undiscriminating, and thus
unfair, filter that rejects the good as well as the bad.
On the other hand, the dedication required to learn the code has
not worked well to keep undesirables out of the Service. One
would have to listen but a short time on some of our more
popular HF phone bands to hear any number of persons we would
all just as soon not be among us.
Having concluded that the code was not acting as a proper
filter, the Committee sought to determine what sort of filter
should be used. Considered were: mandatory study requirements
(which was rejected as being unfair to brighter, or more
experienced, applicants), a mentor program (rejected as being
too difficult to standardize and fairly administer), and a
written test. This last is the only one that seems fair and
capable of consistent administration.
The Committee caused a questionnaire to be mailed to each IARU
Society which is known or believed to have a codeless license in
compliance with the ITU Regulations. Information was requested
on the date the license was instituted, the licensing figures
before and after its institution, and the extent to which
licensees later converted to the more traditional licenses. In
every case the license structure could be distinguished from one
that might be instituted here. For instance, in Japan, often
pointed to as some sort of a model, codeless licensees remain on
the books; but there is strong evidence from which it must be
concluded that there is little or no expectation that an
Fidonet HAM/PACKET Digest Page 48
Volume 1, Number 2 May 5, 1989
individual so licensed will be more than a transitory member of
the Amateur Community.
Some countries have shown little or even negative growth despite
such a license being available. Great Britain is an example of
a country in which there is believed to be little growth in real
or percentage terms, while New Zealand reportedly has had a
recent loss of hams. Except for the Japanese example, which is
believed by the Committee to be an anomaly and an undesirable
format for the United States, New Zealand has the highest ratio
of hams to population--closely followed by us. Both statistical
and anecdotal evidence indicates little tendency anywhere for
codeless licensees to mainstream without genuine incentives
being deliberately included in the structure. This Committee
believes that the structure of the system in the United States
should encourage such licensees to do so. Our proposal,
especially the integration of new licensees into the overall
licensing structure, has some kinship with the Australian,
Belgian and West German programs, each of which has a very high
percentage of their codeless licensees joining the more
traditional ranks. Indeed, Australia reports 95% of those who
initially take a codeless license eventually move to a full
privilege license. These countries indicate the presence of
active, on the air, code activities among their codeless
licensees who are working on joining the mainstream. Such
activity can and should be encouraged by sponsored on- the-air
events.
In addition to being required by the ITU, there are many good
reasons to retain Morse Code as a requirement for operation
below 30 MHz. These include, but are not limited to, its unique
function as a universal language crossing all cultural and
language barriers, thereby fostering international friendship.
This, alone, is adequate reason to retain Morse Code as a
requirement on the HF bands. Few amateurs in the United States,
however, will need to use this universal language beyond our own
borders on VHF/UHF. Therefore, this reason for learning Morse
Code is not valid above 30 MHz.
There are other good reasons to retain the Code as a requirement
below 30 MHz. For instance, the recent Region III IARU
conference in Seoul reaffirmed its insistence on a world-wide
code requirement below 30 MHz. The policy of our Region II is
even stronger. This Committee, even if it were within its
scope, would not recommend either the elimination or any easing
of present code requirements for operation below 30 MHz.
The committee had a long discussion about permitting newly
licensed Technicians on six meters. Six meters, with its unique
propagation and widespread ham population, is the ideal training
ground for the new codeless licensees and presents the best
opportunity for their assimilation into the general ham
population. Its characteristics can pique their interest in
moving to the HF bands; and the distances attained, even without
exceptional propagation, can expose them to enough diversity of
Fidonet HAM/PACKET Digest Page 49
Volume 1, Number 2 May 5, 1989
operators to properly educate them in the operating techniques
needed when they mainstream to a full privilege license. The
Committee feels that of all the available bands, six meter
operation may do the newcomer and the Amateur Service the most
good. The Committee is aware that this band has a reputation
for causing TVI problems in some parts of the country. Amateurs
have been able to cope with TVI in the past. There is no reason
to believe the newcomers cannot do so as well, or that knowledge
of the Code would help them to do so. As in all Amateur
activities, the assistance of peers will help newcomers overcome
the problem. This subject should be touched upon in the study
materials and in the question pool.
The Committee debated long on two meter privileges for the
newcomers. This band is full (even over-occupied) in many
areas, and has been fully developed by existing amateurs. The
prohibition of voice operation on this band to Technicians will
give them a strong reason to learn the Code and join the
mainstream and will present a minimal deterrent to entry. The
Committee did feel that the newcomers should not be denied the
opportunity of using digital communications in this band and the
privilege of joining other amateurs while contributing to
improvement of the digital system. For that reason, the
Committee recommends that 144.9 to 145.1 MHz be permitted to
Technicians using digital modes only. The distinctive call sign
will help prevent abuse of this privilege. Testing
In theory, the present General written test is no more difficult
than the present Technician test. Indeed, they were one test
until rather recently when the question pool was simply divided.
The two tests cover different subjects, with the Technician
being more strongly oriented to VHF/UHF techniques and theory,
while the General is directed more toward HF. The present
Technician question pool does need some modification to more
accurately include subjects with which Technicians need to cope.
This should (and will) be done regardless of the outcome of the
codeless license proposal. The new Technicians should pass both
the Novice (Element 2) and the newly modified Technician
(Element 3A) written examinations to achieve the license.
The Committee believes that the codeless Technician test should
be administered only through the VE program. The privileges to
be granted the new licensees are sufficiently broad to mandate
the most carefully controlled testing. Likewise, the five words
per minute Code test required to mainstream to "Technician Plus"
should also be administered through the VE Program.
Incentives to mainstream to the Technician Plus are adequate
under the Committee proposal. The primary differences between
the two grades of Technicians are that the Technician Plus is
permitted HF CW, and existing ten meter phone privileges, and
all-mode operation on two meters.
Other Considerations
Fidonet HAM/PACKET Digest Page 50
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The Committee also considered the following concepts:
1. The Committee does not believe that every ham needs to know
Morse Code for possible emergency work. While there may be some
validity to this argument on the HF bands, the rarity of the use
of CW for such an occurrence on VHF/UHF does not justify
excluding prospective hams from the Amateur Service.
2. The Committee does not believe that every ham must know the
code because it gets through in adverse propagation conditions.
Digital modes have the same advantage. That the code does so is
certainly true, but this is no reason to require it. There will
be no prohibition against anyone using the code, but if the
amateur can't get through, so be it. It happens to each of us
almost every day. There is no absolute NEED to communicate
through marginal conditions.
3. The Committee does not feel it necessary that every new ham
be required to know the code because it is most simple
technically and least expensive mode. Relatively few hams who
operate VHF/UHF even have rigs capable of receiving CW or
transmitting MCW on those bands. The days of building a junk
box CW rig for these frequencies are long gone-- if, indeed,
they were ever really here. For those who might wish to use
code, they certainly may.
4. That CW enhances ability to listen, discriminate and react
cannot be denied, of course; but other activities serve the same
purpose, and it is not vital that every operator use the code as
a means to enhance those admirable qualities. Again, use of the
code is not forbidden to anyone, nor is it discouraged. It is
just "not required" for the privileges we propose.
5. The Committee agrees that the code provides an end in itself
and a sense of accomplishment. However, we need not all share
the same sense of accomplishment nor the same goals for our
Amateur careers.
6. The Committee is well aware that 432 MHz is overcrowded in a
few areas, and also that it is not available in others.
However, this band is not at full capacity in many areas and is
the most practical band from which the Technicians may enjoy
satellite communications. AMSAT has specifically requested that
the new licensees be able to operate via the new satellites now
in the planning stages. It is illogical to allow satellite
communications while not allowing terrestrial communications on
the same band.
7. Many of those who will become Technicians are likely to be
technically trained persons of the highest order, will pass an
examination at least as demanding as that now required of
Technicians, and will have been adequately tested to permit
full-power operation. We should not stifle their ability to
contribute.
Fidonet HAM/PACKET Digest Page 51
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8. The Committee rejects limitation to commercially
manufactured rigs for the same reasons that caused it to reject
power limits.
9. New Technicians should not be limited to voice subbands
tighter than those permitted present Technicians. This would so
isolate the newcomers that a new and perhaps undesirable culture
could arise unchecked. The newcomers should not be confined to
a ghetto of their own kind, but given needed exposure to the
existing Amateurs to expedite their assimilation.
10. The Committee recommends against a limited license term for
the new Technicians. These new hams will have passed an
examination more rigorous than present Novices and at least as
rigorous as that passed by present Technicians. They will have
demonstrated their "seriousness" by taking the test. There is
no valid reason to limit their terms. They will be in a
position to contribute to the radio art and the Amateur Service
from their first contact.
11. The Committee considered a two-level codeless structure
with an entry level test similar to the present Novice. Were
the new Technicians to have more privileges than those
recommended, the Committee felt that insufficient additional
privileges would remain to encourage their upgrade to Technician
Plus; and the Committee also felt that no additional privileges
should be given the Technicians Plus for this would discourage
their upgrade to General. Likewise, were the newcomers to be
granted privileges less than we suggest the license would be
unattractive. The balance of privileges among these classes of
license is delicate. The effect of each privilege must be
weighed for its attractiveness and its impact on the other
classes of license. Therefore, the Committee believed that the
privileges for each class are appropriate and will encourage
both prospective hams to enter the Service and to work to obtain
the further privileges. Further, an entry- level license would
unnecessarily, and unwisely, complicate the structure.
12. The Committee considered restricting Technician Plus
operation either in, or from, the portions of the bands
recognized as utilized in "weak signal" operations. It would
perhaps be desirable to forbid FM operation entirely from these
portions of the spectrum. To so recommend would be to recommend
removal of present privileges from existing licensees. That is
beyond the scope of this study of a codeless license. While a
total FM restriction might be a good thing with respect to these
subbands, it must be done outside of these proceedings. This
leaves the question of forbidding FM by new Technicians in, or
forbidding them from, the weak signal spectrum. The Committee
feared that to do so would aggravate, not ameliorate, the
problem. That Technicians Plus could operate FM in those
subbands would be seen as an additional "privilege" or
"incentive" of that class, and they would be encouraged to use
it. Thus, restriction of new Technicians could easily have the
adverse effect of encouraging even more encroachments by
Fidonet HAM/PACKET Digest Page 52
Volume 1, Number 2 May 5, 1989
Technicians Plus. At present, occasional encroachment can
usually be handled by peer pressure. Repeated encroachment
might even be considered as a violation of "good amateur
practice." Summary
For several years, it has been the goal of the League to
increase the number of hams. This position is well-advised.
The Committee does not for one moment accept that the code is
antiquated or obsolete. Neither does the Committee encourage
the slightest easing of code requirements below 30 MHz.
However, as a filter against undesirable operators, Morse Code
has demonstrated its own lack of validity. Many undesirables
have, at one time or another, demonstrated skill in the subject.
On the other hand, there is much evidence that the code is
filtering out far too many desirable and technically qualified
operators. These individuals COULD learn the code, but they see
no relevance in doing so and spurn participation in a hobby
guarded by what they erroneously believe to be an antiquated
requirement. No matter how hard we might try, we cannot
demonstrate to them the folly of their thinking. They must
learn this for themselves. Thus, to expose them to the benefits
of Amateur Radio while at the same time exposing them to the
opportunity to see the benefits of Morse Code, we permit them to
enter and allow them to find the value of the Code as a means of
practical communication. The proposed structure encourages them
to fit into the mainstream of Amateur Radio. We can also take
advantage of the skills and knowledge they will bring to the
Service. We believe only a proper written examination will
provide an appropriate filter. The privileges we suggest for
the new Technicians both demonstrate a proper level of
competence and expose them to more mature operators and their
techniques while permitting these newcomers to join the
mainstream with an appropriate level of effort. Likewise, we
believe the privileges we recommend be reserved to traditional
licensees present adequate incentive to the new Technicians to
join the mainstream.
Further, the Committee believes the claims that vast hordes of
newcomers will join ham radio as a result of the creation of the
codeless license are purest folly. Rather, we propose a fairer
system with a more realistic examination for those, especially
young people, who might join our ranks--and one that will permit
and invite qualified prospects into the Amateur Service.
73 Respectfully Submitted,
George S. Wilson III, W4OYI
Chairman
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Volume 1, Number 2 May 5, 1989
New Videotapes Available from ARRL A/V library
Several new audiovisual selections are available from the
League's library. The selections are on videotape, in 1/2- inch
VHS format. For more information and request forms, contact
ARRL Educational Activities Branch, 225 Main St, Newington, CT
06111. New selections include:
DISASTER DRILL: THE BIG ONE
This tape from Portland, Oregon, portrays the motions that
Amateur Radio operators go through once a disaster occurs. It
shows the orderliness that takes place when prepared amateurs
work with government and public safety officials.
HAMMING IT UP WITH CARS
The Coastal Area Repeater Society, Inc, Savannah, GA, prepared
this videotape to showcase their club activities. Produced by
Debbie Jensen, N4MBU, the tape shows the fun and serious sides
of a healthy Amateur Radio club.
WHAT ARE THOSE CRAZY SOUNDING SIGNALS SAYING
A good tutorial on digital modes, shown at the 1988 ARRL
National Convention in Portland, Oregon. Ernie Austin, W7AXJ
has received many compliments on this selection.
THIS IS AMATEUR TELEVISION
The Western Washington Amateur Television Society, Bothell, WA,
produced this videotape to promote the use of amateur
television. The tape is for non-profit use only and is
copyrighted. Any club wanting their own copy can contact Chuck
Zappala, KE7SA.
Fidonet HAM/PACKET Digest Page 54
Volume 1, Number 2 May 5, 1989
Nuggets from Newington - May 1, 1989
Field Services Department Book Club Announces New Selections.
Copies of KR7L's new ARRL Net Manager's Guide and the new 1989
edition of the ARRL Net Directory have been sent to all Section
Managers, Section Traffic Managers, Section Emergency
Coordinators, Net Managers and NTS Officials. Free copies are
available to other Field appointees upon request.
The ARRL Volunteer Resources Committee meets in New Orleans this
month to address several major issues of importance to the Field
Organization. On tap for consideration: Local Government
Liaison appointment proposal, NTS/ARES restructuring, SET
enhancement, Section Manager election cycles, Maxim and
Humanitarian Award nominations, "Adopt-a- school" program
update, and recognition of SSCs. We've received a lot of good
input from the field on several of these issues, which will be
cranked into the decision-making process. Watch for news of VRC
actions in July Field Forum.
Private Call Sign Assignment? ARRL Executive Vice President
David Sumner, K1ZZ, told the ARRL Executive Committee at its
April 1, Kansas City meeting that no FCC action had been taken
on the possible privatization of amateur call sign assignments,
PRB-3, and that the likelihood of positive Commission action is
waning with the passage of time. ARRL has reaffirmed its
interest in, at minimum, finding a way to resume issuance of
club and special-event station call signs.
With the recent election to affiliation of 15 Category 1 (Local
club) societies, and nine Category 3 (school club) societies,
the League has 1,702 active clubs in Category 1, 24 in Category
2 (regional clubs), 128 in Category 3, and 4 in Category 4 (club
councils).
Recently, HQ sent address labels of inactive school clubs by
section to the nation's Affiliated Club Coordinators. We have
asked ACCs to contact each club and request that they send HQ a
club annual report form to reactivate their files. The
reactivation effort is an early phase of the new "Adopt-
a-school" program. Our goal is to double the number of the
nation's actively affiliated school clubs by 1992.
ARRL President Larry Price, W4RA, has named Assistant Public
Service Manager Steve Ewald, WA4CMS, HQ staff liaison to the
ARRL National Emergency Response Committee (ANERCOM). Steve
attended an ANERCOM meeting in Washington last month.
Fidonet HAM/PACKET Digest Page 55
Volume 1, Number 2 May 5, 1989
==============================================================
| Relayed from packet radio via |
| N8EMR's Ham BBS, 614-457-4227 (1200/2400/19.2 telebit,8N1) |
==============================================================
Fast Packet Systems
By: Simon Taylor G1NTX
From CONNECT INTERNATIONAL - April, 1989. Copyright 1989 by
Radio Society of Great Britain. Reprinted by permission
For some time now I have been interested in the discussions
going on regarding fast packet and data links using RF modems,
specifically 9600 bits per second (bps) modems. There seem to
be two schools of thought:
1) To use modems connected directly into transceiver IF strips
and modulate the carrier directly with data.
2) To connect the data modem via the audio connections of the
rig, and operate in a similar way to the technique use on 3KHz
bandwidth telephone lines. A colleague of mind (G8DXZ) and
myself have proved that this technique works up to 9600bps and
we plan to try 14,400bps modems soon.
The purpose of this article is to disscuss the latter technique
and (hopefully) stimulate some interest and maybe even some more
experiments with these modems.
THE PRINCIPLES
Telephone modems, because of the transmission medium must
operate within a 3KHz bandwidth. The frequency response of the
telephone line is normally quoted as being between 400Hz and
3400Hz. Most people are familiar with normal frequency shift
keying (FSK) using two different tones as used in existing
packet radio, but to go much faster than 1200bps within a 3KHz
bandwidth requires some further thought.
The first principle used is Phase shift keying (PSK) which uses
one audio tone (the carrier) with phase changes introduced into
this carrier which can be detected at the receiver. The
advantage here is that one phase change can theoretically be
introduced every cycle of the carrier and if four types of phase
changes are used, then two bits can be encoded per sampling
time.
Secondly, amplitude changes can be added so giving more
combinations and more bits encoded per sample time. At this
Fidonet HAM/PACKET Digest Page 56
Volume 1, Number 2 May 5, 1989
stage, we should introduce another iece of jargon - the Baud.
Baud defines the sampling time, i.e. the rate of Phase and
Amplitude changes, so for example if four bits are encoded
during every baude, and the 'Baud rate" is 1200, then the
effective bit rate will be 4800 bps.
Given below is a table showing some half-duplex modulation
techniques and their data rates.
Tech Bit Baud Bits per Phase Amplitude Carrier
rate rate Baud Changes Changes Frequency
Another aspect of these modems is that of 'training'. When data
are sent, they are scrambled to made sure that all of the data
points are sent even with no data being sent. This makes most
efficient use of the transmitted spectrum. The receiving modem
will synchronise to the transmitting modem, keeping track of the
phase changes as transmission goes on. This traning does take
some time however, and will cause time overheads if the channel
is turned around frequently. The main reason for training using
these patterns is to determine the phase and amplitude
restrictions of the path, and to set up an equaliser that is
used to give a flat response during data transmission. The
modems we have tried also employ 'adaptive equalisation' which
will adjust equaliser values during data transmission for small
changes in the quality of the received signal.
The time taken to train may make transmission using this faster
data mode an overhead rather than an advantage if only small
packets of data are sent. V.29 for example, needs 270
milliseconds to train before any data are sent, which is
equivalennt to about 40 characters of information at 1200 bits
per second. Therefore, we should send at least this amount of
data and preferably more to take advantage of the higher data
rate after training.
Below are some packet sizes and the times to transmit using
existing 1200 bps packet versus V.29 at 9600bps.
Packet Time @ Time @
Size (chars) 1200bps V.29/9600bps
Fidonet HAM/PACKET Digest Page 57
Volume 1, Number 2 May 5, 1989
Times given is seconds.
From the table it can be seen that the larger the packet, the
greater the advantage. It may be that this mode of transmission
is not suitable for use with the existing AX.25 standard, but
some sort of alternative protocol could be used (or developed)
which will not transmit until it has a certain amount of data to
send. Further discussion about protocols is beyond the scope of
this article, I shall leave it to the national packet network...
Remember that these modems are designed to operate within the
3KHz available on telephone lines and a larger audio bandwidth
is normally used on VHF/UHF FM, so the quality on a good path is
usually found to be better than that obtained via our national
telephone system.
THE PRACTICE
There are a number of modem devices which can be used for the
audio modulation part of a fast RF modem. Connection to a rig
can be simply via Audio in, Audio ouut and PTT and these modem
should be simple to connect to existing TNC's such as the
G0BSX-2 or similar, but I have not tried this yet. So far I
have tried communications using an IBM-PC directly controlling
the modem and PTT without any rigid packet structure as such,
but this has proved that the principle at least works on VHF and
UHF FM.
All of the modems I have tried have been similar in that they
require CPU control via a bus which is 8080 compatible and have
simple audio in and out connections. All that has been needed
is a D>C> blocking capacitor between the modem output and the
microphone input (some rigs may also need some reduction of the
signal), and a capacitor from the earphone output of a typical
rig. A relay should then be driven to control the PTT.
Suitable modems I have tried include:
The R96MD, this is a V.29 and V.27 modem primarily intended for
FAX machines, but makes an ideal half-duplex data modem. This
device is supplied on a small pCB with two rows of pins allowing
it to be assembled like a large DIP device. It will opeate from
9600bps down to 2400bps, as well as at V.21 at 300bps FSK. DTMF
is also provided which may be of use to some amateurs. This
modem, because of it's application in FAX products benefits from
a reduced cost due to it's use in massive volumes.
The R96MFX and R96EFX, these are CMOS single-chip modems with
similar features too the R96MD. The R96EFX is especially
interesting because it has a V.27 short train feature, training
in 50 milliseconds instead of the 270 milliseconds standard, and
HDLC packetising and error detection built-in, so avoiding the
Fidonet HAM/PACKET Digest Page 58
Volume 1, Number 2 May 5, 1989
need for external HDLC controllers.
We soon plan to try toe R144HD which is a V.33 modem which
operates at 14,400bps. Again the modem is designed to operate
in a 3KHz telephone bandwidth, so VHF/UHF operation should not
be a problem.
If you would like data sheets or data books on these modems,
then I can be contacted QTHR. Sending out information will not
prove a problem.
Also you can leave messages for me at GB3UP (G1NTS @
GB3UP.GBR.EU)
Reference reading:
"Quality of Received Data for Signal Processor Based Modems"
application note (Rockwell 1987 Modem data book), this data book
also includes data sheets on all of the modems discussed.
"Rockwell Interface Guide", This gives detailed information as
to the connection, use and monitoring techniques used forr these
modems, (but is a cost item.)
Simon Taylor G1NTX - 21st March 1989
Fidonet HAM/PACKET Digest Page 59
Volume 1, Number 2 May 5, 1989
Belgrade Lakes, Maine, U.S.A., April 25, 1989.
Just two days before their planned arrival in New York, an
obviously dejected Victor Goncharsky, I.A.R.N. Soviet Director,
reported that Moscow has called off the two-week visit of his
radio amateur delegation to the United States. The delegation
was scheduled to visit the Dayton Hamvention and appear on the
panel of the Sunday Forum "International Amateur Emergency
Communications" put on by the International Amateur Radio
Network. In a last ditch effort to save the mission of
international good will, Goncharsky, whose amateur call is
UB5WE, made a special trip to Moscow from his home in Lvov,
Ukraine to confer with high government officials there, but this
time his personal influence in the Soviet capitol had no effect.
Young Communist League First Secretary, Victor Mironenko, gave
"Lack of funds" as the reason, when in fact transportation to
New York was to be provided by Soviet-owned Aeroflot, and all
expenses in the United States were being covered by I.A.R.N.
and the Dayton Amateur Radio Association. Strangely enough,
this move, signaling problems with Glasnost and Perestroika in
Moscow, is strengthening solidarity among radio amateurs within
the Soviet Union and I.A.R.N. Discussing their plans on the
net, Goncharsky, Ulyanovsk and I.A.R.N. Chapter President Yuri
Katyutin, UA4LCQ, are working with local officials on another
planned visit to the U.S. in July to attend the World Emergency
Communications Conference in Belgrade Lakes. This time Moscow
bureaucrats will be bypassed as the Soviet amateurs attempt to
demonstrate additional ways to skin the Soviet cat.
In an interview with Glenn Baxter, K1MAN, I.A.R.N. Network
Manager, he reported that "This kind of disappointment is almost
routine for I.A.R.N., which is accustomed to wild swings of ups
and downs as our network grows internationally. We have a deep
commitment to Soviet I.A.R.N., both personal and equipment wise,
and I can assure you that nothing can stop the spirit of
cooperation that Chuck Sheffer, KJ4TY, and Al Vayhinger, W9ELR,
unleashed during their trips to the U.S.S.R." Baxter reported
that I.A.R.N. continues to grow with newest chapters in
Bulgaria and England.
"Radio amateurs have demonstrated time and time again their
unique ability to foster international good will regardless of
the politics involved. This time is no different. We are going
to bounce back stronger than ever," Baxter said.
Fidonet HAM/PACKET Digest Page 60
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Emergency Communications in the Caribbean
At the invitation of the United Nations Disaster Relief
Organization's Pan Caribbean Disaster Preparedness and
Prevention Project Director, and sponsorship of the Agency For
International Development's Office of U.S. Foreign Disaster
Assistance, ARRL Field Services Manager Richard Palm, K1CE,
traveled to Trinidad in March to attend a PCDPPP conference on
emergency telecommunications. The PCDPPP organized the meeting
of telecommunications officials in conjunction with CARICOM, the
Caribbean Community and Common Market.
The conference objectives were to review recent disaster
experiences, improve operational procedures, review emergency
telecommunications facilities and mechanisms, strengthen network
services against disasters, and develop proposals for a regional
response mechanism.
PCDPPP Director Franklin MacDonald opened the conference Monday
morning by reporting that since Hurricanes Frederick and David,
there have been some structured attempts at disaster planning
and management. He said telecommunications plays an important
role in mitigation of disaster effects by allowing effective
monitoring, warnings, mobilization of disaster relief agents,
and public information. More needs to be done, however, as
evidenced by certain failures following recent disasters such as
the March 1988 earthquake, Hurricane Gilbert and others.
Warnings to residents of target zones have not been adequate,
and poor or non-exisistent communications systems broke down.
McDonald called for integration of radio services, system
redundancy and hardening of equipment against the elements of
disasters. Conferees discussed a proposal for a CARICOM
emergency response and relief mechanism. Goals would be to
ensure a coordinated response to disasters in the community by
member-states, and maximize the impact of resources and
institutional capacity available in the event of a disaster.
Amateur Radio would be written into the plan to facilitate
warnings, and mobilization/planning in the pre-event period, and
resource mobilization in the post- event period.
Hurricane Gilbert Review
A highlight of the conference was Dr. Eric Munroe's review of
the Amateur Radio role in the Hurricane Gilbert disaster relief
effort. Dr. Munroe, 6Y5EE, is the Jamaica Amateur Radio
Association's Disaster Communications Coordinator.
Despite a good, flexible disaster communications plans, the
island's telecommunications system was overwhelmed by the sheer
magnitude of the hurricane: 700 miles wide and carrying winds of
150 mph. The entire island was devastated; little was spared
its wrath.
The amateur support operation was maintained for eight days, and
Fidonet HAM/PACKET Digest Page 61
Volume 1, Number 2 May 5, 1989
concluded when emergency telephone and telex channels were 70%
restored at the key served agencies. During the eight day
period, approximately 1400 pieces of emergency and/or priority
traffic were handled by the thirty seven participating amateurs.
Health And Welfare Traffic Problems
It became clear very early in the event that the available
facilities were not capable of servicing incoming health and
welfare inquiries given the priorities of internal damage
assessment and relief tasks. Incoming H&W inquiries were not
accepted, but health and welfare reports were compiled on a
lower priority basis and transmitted accordingly.
Munroe suggests that in the future, health and welfare reports
be sent to a recognized, central agency outside of the disaster
area, such as the American Red Cross or Salvation Army. All H&W
inquiries could then be routed there for action. The disaster
area agencies and amateurs would then be free to concentrate on
their priorities of immediate relief.
Munroe makes an excellent point. Additionally, when U.S. nets
accept H&W inquiries for relay into a disaster area as was the
case in Jamaica, it gives false hopes to the families
originating the messages, and produces undue anxiety when their
inquiries are not answered in a timely manner. A net does a
disservice to the families in their time of great need, and U.S.
Amateur Radio gets a black eye when foreign amateurs witness the
net's efforts to force inquiries into the troubled area.
Art Feller, KB4ZJ, an Office of U.S. Foreign Disaster
Assistance engineer offered a U.S. perspective. Art reported
that the first indication of real trouble was his inability to
get through on normal telephone circuits. Hap Arnold, W3HAP, in
charge of the U.S. Air Force MARS station K3AF at Andrews Air
Force Base, provided Art and OFDA with first word on the
Jamaican situation. Unfortunately, U.S. stations were already
trying to force health and welfare inquiries into the island,
Art reported. K3AF established communications with 6Y5RA at the
island's Red Cross center and ultimately had to move out of the
amateur band into the priority functions.
Art reported on other problems including amateurs relaying
inaccurate information from unofficial sources to CNN and other
domestic and international public media. Amateurs should relay
only attributable statements from official sources. Art made a
major contribution to the conference as an expert advisor.
Later, the conferees held a general discussion of the use of
Amateur Radio in their disaster communications plans. Mr.
Johannes Leonce, Permanent Secretary in St. Lucia's Ministry of
Communications, Works and Transport proposed that seminars be
held for government officials on the role of Amateur Radio in
telecommunications systems. He felt that governments needed to
Fidonet HAM/PACKET Digest Page 62
Volume 1, Number 2 May 5, 1989
be sensitized to the value of Amateur Radio services in disaster
communications arrangements. Although Amateur Radio is accepted
by many administrations, in many cases it was not written into
official plans. PCDPPP Director Franklin McDonald recommended
that an official statement be sent to his organization to
facilitate the inclusion of Amateur Radio into national plans.
Finally, conferees suggested that a common Amateur Radio license
be developed for all CARICOM countries, thereby eliminating
reciprocal operating red tape. This would enhance Amateur
Radio's capabilities of responding quickly in emergency
situations.
One working group developed specific recommendations for the
future role of Amateur Radio in national telecommunications
plans. Other working groups developed other recommendations.
The conference afforded ARRL an excellent opportunity to make
contacts with the region's telecommunications and Amateur Radio
leaders, and develop an appreciation for their needs in disaster
communications planning. The amount of attention the conferees
devoted to discussions of the role of Amateur Radio in their
plans was most impressive. Many of them requested copies of the
League's Emergency Coordinator's Manual, Public Service
Communications Manual and information on packet radio.
For a comprehensive, 9-page report of the meeting,
contact Luck Hurder, KY1T, at ARRL HQ.
Fidonet HAM/PACKET Digest Page 63
Volume 1, Number 2 May 5, 1989
Georgia Amateurs Lauded for Saving Lives in Severe Weather
"This was truly a public service job well done," proclaimed Max
Blood, a Warnings and Preparedness Meteorologist in the Atlanta
National Weather Service Forecast Office. In a March 21, 1989,
letter to ARRL President Larry Price, Blood thanked amateurs for
providing critical information used in warning the public of
very dangerous weather events on the night of March 5.
"Especially noteworthy were the efforts of members of the Bill
Gremillion Radio Club of Newnan, Coweta County, Georgia," Blood
said. "Of most importance was the initial report from Steve
Hill, KB4THW, of damage and injuries from the tornado that
struck the western part of Coweta County." Blood said he
believed these and other reports were partly, if not greatly,
responsible for the relatively low number of deaths and injuries
from the storms. He commented that it was truly remarkable that
only one person was killed and 23 hospitalized from the
strongest tornadoes to strike Georgia since 1977.
Blood concluded by thanking all amateurs who helped by providing
emergency information and by keeping frequencies clear for
emergency traffic during this event.
Fidonet HAM/PACKET Digest Page 64
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