Local Email with Winlink Express and VHF FM

              In the after action reports coming out of Puerto Rico after it was devastated by Hurricane Maria, there was discussion on how issues arose trying to moving tactical email between local station in Puerto Rico.  Through a lack of training, the operators were using WinMor links to the Mainland first to send the message, and then back again.  The operators also complained that the issued equipment was HF/50 Mhz only, which inhibited using the radios for local email.  Unfortunately,  the issued equipment was up to the task, but the operators were not.

              Winlink Express offers the ability to use all of their radio modes over FM channels, and 50 MHz and 29 MHz FM offers point to point communications that were required.  Antennas are small enough on both bands that they can easily be made with any locally sourced wire.

              These issues lead to some experimentation in Luzerne County, PA ARES using Winlink Express and FM modes on 2 meters.  While 2 meters was used, 6 or 10 meters would have been equally effective.  At first attempts were made to establish AX.25 1200 baud packet.  Winlink Express allows hardware and software modems to be used.  I was able to establish links using a Kantronics 9612, SCS Tracker, and SCS DR-7800.  The most difficult issue was discovering the COM port as well as the proper baud rate.  The 9612 used a 4-way FTDI chipped Serial to USB adapter.  Finding which input (it was #2) was the first challenge, and then setting the comms baud to 9600 on the COM port listed in device manager.  This modem worked at both 1200 and 9600 baud as it is a dual port modem.  The SCS Tracker is a natural USB connection and used 38400 Baud at the listed COM port and was relatively easy to install.  The 7800 used 57400 Baud and was also easy to set up in Winlink Express.  Both of these modems are capable of high speed links, but setting the deviation of the radio at these speed as well as the very high signal quality required makes working these speeds difficult.

              To send local email in Winlink Express, open up the Packet P2P session and go to the settings option.  There is a drop down menu for they type of modem.  You can just enter the modem type, add the COM port and Baud rate, and then hit “update.”  This should enable the modem without changing any other settings. Type in the target station, even through a digipeater, and the monitored frequency and hit the connect button.  This should start the exchange process which will work without further intervention from either user.

              The cheaper TNC option is the use a soundcard modem for packet.  I use the SoundModem by UZ7HO.  In this program you set the radio to AFSK AX.25 1200 Baud and a center frequency of 1700.  In the Settings Devices menu, first you select your input and output devices.  The settings for an external soundcard device such as a Signalink or built in soundcards in a radio will be the USB codec setting.  If you are using the computer’s soundcard, you will probably will keep them at the default.  You have to uncheck the AGWPE Server Port and check the KISS Server Port of 8100.  Also you should check TX Rotation, Single Channel output, Color Waterfall.  The PTT settings depend highly on your controller.  Using the Signalink controller, you keep the PTT port to NONE.  If you are using a COM port keyed PTT as many Rigblasters do, you need to set the COM Port properly.  In the settings Modem, you keep the default modem filters for Channel A, check the ALL filter, and check KISS optimization and non-AX25 filter.  Keep the program running, either in a window or minimized.  I prefer the window open to monitor the packets and waterfall.

  In Winlink Express, open up Packet P2P window and go to the settings.  Use the modem drop down menu and select KISS.  For COM port you need to set it to TCP which will open up boxes for the IP address and Port.  Keep the default IP address of 127.0.0.1 and select port 8100.  Switch the TNC mode from NORMAL to ACKMODE.  Keep the TNC parameters at the default but check Enable IPoll.  Hit update and it should give you the ready command in the main box.

The trouble we had in the Luzerne County experiments was using Packet in general.  The signals were strong, but 30-50 watts was required to make links.  Due to our location, RF was bouncing off the hillsides like a pinball and there was significant multipath.  AX.25 fails completely in the presence of multipath and we had link establishment failures no matter what modems were being used.  Also, high power isn’t conducive to field operations.  A better solution is required.

The first option we explored was Winmor 1600.  This is designed as a HF protocol, but can easily fed into an FM circuit via a soundcard.  A 3 KB email was exchanged at 1574 Bytes/minute using the fastest mode.  Unfortunately, the overhead packets are sent at much slower speeds.  The big advantage in using Winmor is that there is really no set up required, the default settings in the Winmor P2P window worked flawlessly.  This makes it very field deployable with little training required.  Using this mode on 10M FM in Puerto Rico would have been the way to go.  One caution is when using Icom HF/VHF radios, the 2M FM side of the radio uses a dedicated VHF PTT pin, so the cable will need to altered or replaced.  This is not an issue with Yaesu.  I do not know about other brands.

LCARES makes extensive use of the FLDigi suite of programs.  FLARQ offers an email function through FLARQ, but the email program is very primitive and not as intuitive as Winlink Express.  The next stage of this experiment is use the high speed modems in FLDigi to move email from Winlink Express.  Fortunately you can set up FLDigi to accept KISS inputs, so after adjusting settings, you can set the data packets over FLDigi modems. 

In FL Digi go to Configure, Miscellaneous, IO.  Uncheck “Lock” then check Enable KISS (NOTE: THIS WILL DISABLE FLARQ as it can only work as a server for ARQ or KISS.)  Check TCP/IP, Listen/Bind AX25 Decode, Auto Connect/Retry, and Inhibit 7bit modem.  I set the IP address to 127.0.0.1 Addr to 8100 I/O and 8101 O.  Next hit save, and restart FLDigi (the port settings will only take effect when you restart FL Digi.)  Select the modem you wish to use.  Since it’s an FM circuit, you should use modes like 8PSK1000F or 8PSK1200F.  The key is that you cannot use 5 or 7-bit modems as it is 8-bit data being moved.  Due to the turn around times required for KISS packet exchange, most of the FLDigi modes can’t be used, as their preambles are too long.  For best results use 8PSK1000F.  I turn off TXID as the header will be sent with every TX and greatly slows the exchange.  Have a pre-determined mode and center frequency (1500 is good for the fast modes) monitored on both sides of the link  I also turn off AFC and SQL in FL Digi.  RXID can be on or off.  Leave FLDigi running.

In Winlink Express, open Packet P2P Go to Settings.  The settings need to be changed due to the nature of the modems.  For TNC settings on 1200 baud the following were used:

RFBaud 1200

Max Packet length 64 (standard 128 bytes takes too long and the Rx station attempts to send the ACK before the packet has been transmitted.  This was a major stumbling block for us)

Max Frames: 2 (same issue as above 4 frames only work with AFSK packet)

Frack 2

Persistance 160

Slot time 30

Max Retries: 5 (this is up to the user, but for FM, it shouldn’t need to be any more)

Enable IPoll 

You can now establish the link with the FLDigi modems.  Just like Winmor, this should fight multipath far better and require much less power.  During our testing, when we needed 30 watts for packet, we could reduce power to 5 watts for Winmor link with no loss of speed.

During testing we actually found 8PSK1000F a bit faster than the 1200 baud variety, even with no packet repeats.  Throughput for data on 1000F was 2277 Bytes per minute, while 1200F was around 2100 B/Min.  I am at a bit of a loss as to why this is, unless the 1200F uses more check bits and therefore fewer data bits per packet.  Both of these modes were significantly faster  than Winmor 1600.

Testing was done on 2 meter FM simplex at a LOS distance of about 10 miles.  Antennas were base models, but not directional and full scale signals were received at 5-10 Watts.

In conclusion, the proof of concept works, and there are several ways to move P2P mail between stations on VHF simplex.  The choice of modes will depend on the link scenario and equipment available, as well as the skill of the operators.  Cost for the basic setup is minimal, requiring only a radio with antenna and soundcard interface, but it will take some dedication to set up and use the equipment.  This system will not replace the excellent multi-point broadcast capabilities of FLDigi (especially in conjunction with FLMsg and FLAMP).  This is another tool in the box, but probably will be on a lower shelf.

EComm in Luzerne County, PA

Emergency
Communications in Luzerne County, PA
By Capt. Jeremy
Allen, N1ZZZ

The
most critical question that needs to be addressed when considering the role of amateur
radio in emergency response in Luzerne county is who the served agencies are,
and what communications services they may require during a civil
emergency. Once these questions are
answered, a program to provide the equipment, operators, and services can be
developed.
In some
cases, the served agencies are not quite sure what amateur radio is, or what
services they can provide. In such
cases, the EC must be able to suggest services, explain how they can be
delivered, and reinforce these offerings with either a demonstration or at
least a presentation.
The
rapidly changing communications offerings by commercial providers have greatly
raised the bar of expectations. In years
past the demonstration of an auto-patch through a local repeater was a source
of wonder. Since cellular telephones are
carried by nearly everyone, the ability to make a telephone call from an H-t
will likely leave them unimpressed. In fact, since smart telephones and 4G
networks are all the rage these days, the average served agency will want
something approaching this capability from the amateur radio community. The days of providing voice nets on FM
simplex or CW NTS nets are long over.
These services, especially provided by ill-trained amateurs, will be
counter- productive. The goal should be
inter connection of the served agency’s remote locations with relatively fast
data as well as voice connection. Adding
television or image transfer is also desirable.
Rome
was not built in a day and neither can the Ecomm capabilities for the
county. The first goal must be a core
group of willing and able amateurs to help provide communications to the served
agencies in the county using the existing, or easily built infrastructure. Emergency coordinators need to operate across
jurisdictional boundaries to include local, state, and even federal
agencies. Getting all of these people to
operate in concert, the DHS and FEMA have developed the Incident Command System
(ICS). This is the standard modus
operandi of all Ecomm services, and if the amateur community wishes to take
part in an emergency response, then they must be trained in ICS. All active amateurs in ARES must have minimum
training in ICS (ICS-100), while the leadership must have more in-depth
training (ICS-100, 200, 700).
Fortunately most of this training is provided online or can be taught
relatively quickly in small classes. In
addition to the ICS training classes, the ARES membership, and especially the
leadership should consider enrolling in the ARRL Ecomm classes; level 1 for
most members and up to level 3 for the leadership. This training will make for informed
operators who can intelligently assist emergency service providers in the
high-stress situations that we will be operating in.
Once
the general training is completed, then practical training can begin. Practical training can be as simple as drills
where a specific skill set is practiced, to more comprehensive exercises are
undertaken to test the whole system.
Simple drills include voice nets to test equipment pre-staged at sights,
as well as assembling simple FM voice and/or packet stations. Another good test is to operate a packet
station to be able to pass simple packet traffic if that is an option offered
the served agency. Drills should be
scheduled at least monthly and exercises annually, preferably as part of the
served agency’s training exercise, if it occurs.
A
careful review of the current ARES capabilities must be undertaken so that the
group can make an honest presentation of the group’s current capabilities. I would suggest that FM simplex and/or
repeater capabilities be tested so that all major facilities (EOC, Hospitals,
FD HQ, PD HQ, shelters) are able to be contacted. If there is any pre-staged equipment, this
must be cataloged and tested as well. If
there is no pre-staged equipment, then people assigned to the location must be
able to provide a station that can operate effectively on emergency power from
that location. If repeaters are to be
used, is emergency power available, and if so, for how long? If there is a loss of repeaters, can they be
replaced by temporary repeaters, or will simplex be required?
The
first improvement that should be implemented is a simple 1200 baud packet
system that can pass digital text traffic from shelters and hospitals to the
EOC. This should be fairly simple and
inexpensive. All that would be required
is cheap 2 meter radios and inexpensive TNC’s and simple desktop
computers. Training of operators on how
to send and receive packet messages is imperative. Modern emergency systems want email, and it
is something that must be provided for even at the simple level of 1200 baud
packet.
Once we
can demonstrate that we are a valuable asset for communications in an emergency
situation, we can start to press for grants and funding to increase the
capabilities of the group to better serve the county. To this end, I would suggest that the D-Star System
and Winlink 2000 capabilities be implemented.
Winlink
2000 is a VHF/HF/Telnet email system what works on a variety of platforms to
get email to commercial email addresses.
The end user connects to a node station which then opens a telnet link
to the email server and passes the traffic fairly automatically. Only the initial connection is made
manually. The software can utilize
direct telnet if internet connections are available, packet for point to point
connections (1200 or 9600 baud are the most common speeds). On HF the two options are a soundcard mode
called WinMor which is the most economical and offers relatively fast speed. The other mode for WL2K is Pactor. Pactor 3 is the fastest HF with speeds up to
3600 bps connections, but the cost of these controllers is relatively high at
$1200 or more.
For
this area, a pair of physically separated nodes a running RMS Packet station
attached to a permanent internet connection would be a great first step. This would allow for a redundant and
relatively robust connection to the internet that can be accessed by end users using
standard TNC’s or soundcard packet stations and running the free client
software to access the WL2K system.
In addition
to the local packet system, the EOC can be outfitted with an HF station that
can be used to access WL2K via HF on either WinMor or Pactor. (As an aside, while I am in town, I can offer
this station in a fixed, mobile, or portable operation using Pactor 3 and my
personal WL2K account). A simple
muli-band antenna can be used at the EOC as there are many WL2K HF stations in
the US within range during most propagation conditions.
The
ultimate goal of this operation should be a fully-functional 2-node D-Star
system. This would require grant money
of upwards of $20,000 to implement, as well as the willingness of local hams to
acquire D-star capable radios. Ideally a
pair of Digital Data (DD) nodes linked with a 10 GHz RF link with full-time
internet access would be utilized to provide a pair of 128 kps connections at
the EOC and major locations such as shelters and hospitals. Augment this with digital Voice (DV) and its
slower digital capability to offer cell-phone quality, and intelligently linked
voice capabilities. The DV system can be
either 2 meter and/or 440 MHz systems (or a mixture of both). This would offer the biggest “wow” factor to
the served agency. Of course setting up this system would also require capital
investment, monthly maintenance of the internet connection, repeater sites, and
frequency coordination. To this end, I
will start researching and asking other Ecomm groups who have implemented
D-star systems and look for hints and kinks.
This is
just an introduction to the vision that I have and is of course subject to
change as we learn what the county needs and wants as well as the ability and wiliness
of the local groups to assist in this public service. I welcome you input and thoughts on these
ideas.