# AMRAD Project Ideas
>“In theory, theory and practice are the same. In practice, they are not.”
Microcontroller ApplicationsMicrocontroller Applications References,resources, project ideas, and progress reports for AMRAD member projects using the Arduino, Rasperberry Pi, BASIC Stamp and others.
Low Frequency OperationLF: Low Frequency Operation LF stands for Low Frequency, that portion of the RF spectrum extending from 30 through 300 kHz. In Europe, where there are numerous broadcast transmitters between 150 and 250 kHz, it is often called ``Long Wave''. Under ideal conditions in mid-winter the high power European broadcast transmitters can be heard on the U.S. East coast.
spectrum. In 1998, ARRL petitioned the
FCC to liberalize the code sequences and include automatic power
control for powers above 1 watt. This petition may prove to be
controversial, as TAPR and other groups want to lower the SS
operating frequencies below 420 MHz--some as low as HF--yet
others feel SS should be banned. Bob Buaas and his group on the West
Coast continue to with their STA, which allows SS at 50 MHz and
higher. AMRAD members could join the STA and put some systems
on the air.
Higher speed digital systems. This is one of
Terry's favorite saws. Where are the high speed packet modems and
radios? Dave Sumner questions why US hams are not doing more with
higher speeds; he cites S53MV's article in CQ ZRS on his 1.2288
Mbit/s 13-cm system.
Utilization of microwave
bands. Because of
line-of-sight propagation in these bands, their popularization
requires an infrastructure or backbone. Otherwise, microwave and
millimetric frequencies will be used only for isolated short-range
links. There was a remark that AMRAD may not be in a good
position to develop microwaves. That may be true and there are
several microwave clubs that may be better able to do
it. Nevertheless, there may be a role for AMRAD. We could lose
these bands unless we come up with 24-hour uses over wide
geographic areas occupying large portions of the bandwidth
Developing an amateur beacon system capable of
contributing propagation data to the ITU. Amateurs have
an extensive array of beacons from HF through
microwaves. Unfortunately,their transmissions are received only on
a real-time basis and there is no attempt to automatically
receive, reduce and report the data to any scientific group such
as ITU-R Study Group 3 or URSI. IARU President Dick Baldwin has
recently reinstructed the IARU beacon working group to reorient
the beacon network into one that includes automatic reception and
reporting. The ITU has a transmit format that permits machine
reception. AMRAD could study that and recommend its adoption by
amateur beacons or come up with one that might be more suitable
for amateur use. We could also design any hardware and software
hams would need. Dick Barth showed interest in this project and
has asked me to supply him with the ITU documents so he can
prepare an article on the subject.
radios. The time is right
to do this. There are several guys at COMSAT Labs who are
interested in this project and should be willing to cooperate with
Application of wireless chip sets to amateur
systems. There are three generations of chip sets (5, 3
and now 1-volt) developed for cellular and other so-called
wireless applications. It could be a worthwhile project to gather
the specs, study them and decide how we could apply them to
Amateur Radio designs.
Experimenting with digital voice such as APCO
Project 25. TIA did a lot of work picking the most effective
digital voice technique for new public safety radios. The one they
selected may or may not be best for Amateur Radio. The FCC rules
already permit digital voice, even on the HF bands.
Experiment with automatic link establishment
(ALE). There is now a Federal Standard. QST and QEX have
carried articles on this subject. We could either push for
adoption of this standard or develop our own.
Design some tech toys. This could be a project
having no other goal than having fun.