We have done recent work on modeling of the air-ground wireless channel in multiple
ground site environments, and will be looking at the aeronautical-satellite channel
as well. Past work has been on measurement/modeling for vehicle-to-vehicle (V2V) channels,
airport surface area channels, atypical indoor channels such as within stairwells
and elevator shafts for public safety communications, and the wireless “microchannel”
for wireless links withIN integrated circuits.
Waveform Design and Analysis
This involves modulation (sometimes error control coding), spectrum spreading, multicarrier
signaling, equalization, diversity combining, and all the processing required at transmitter
and receiver for effective signaling in a variety of channels. An example of recent
work is filterbank multicarrier (FBMC) signaling for aeronautical applications.
This area includes duplexing, multiplexing, and multiple access scheme analysis and
design for multiple network topologies (relay, mesh, and ad hoc). Our recent work
has addressed comparison of Mux/Duplexing/MA techniques across multiple domains for
these networks, and MA/Duplexing designs for wireless networks on chips (WiNoCs).
We are investigating communication techniques for UAVs. This includes work for NASA,
and also work with small UAVs, where we are exploring the use of compact software
defined radios. With several other faculty (Wang from our group, and Xu and Nelakuditi
from CSE) we will be expanding this to include UAV networking
We are just launching work on millimeter wave (mmWave) wireless, with potential applications
being indoors, at airports, and on UAVs.
Other Laboratory Projects
A senior design group is working at installing a direct-broadcast TV antenna on the
roof of our building. We plan to downconvert the signal, sample, and store samples
for analysis, with the goal to record K-band signal strength over time to quantify
attenuation due to precipitation. A future project may install a receiver for monitoring
VLF transmissions due to lightning, as part of the World Wide Lightning Location Network.
Challenge the conventional. Create the exceptional. No Limits.