Title :
Interference avoidance for wireless systems
Author :
Rose, Christopher ; Ulukus, Sennur ; Yates, Roy D.
Author_Institution :
WINLAB, Rutgers Univ., NJ, USA
Abstract :
Motivated by the emergence of programmable radios, we seek to understand a new class of communication system where pairs of transmitters and receivers can adapt their modulation/demodulation method in the presence of interference to achieve better performance. Using the signal to interference ratio as a metric and a general signal space approach, we present a class of iterative distributed algorithms for synchronous systems which results in an ensemble of optimal waveforms for multiple users connected to a common receiver (or co-located independent receivers). That is, the waveform ensemble meets the Welch (1974) bound with equality and therefore achieves minimum average interference over the ensemble of signature waveforms. We describe fixed points for a number of scenarios
Keywords :
demodulation; distributed algorithms; filtering theory; interference suppression; iterative methods; matched filters; modulation; radio receivers; radio transmitters; radiofrequency interference; Welch bound; co-located independent receivers; communication system; general signal space approach; interference avoidance; interference avoidance algorithms; iterative distributed algorithms; matched filter receivers; modulation/demodulation method; optimal waveforms; performance; programmable radios; receivers; signal to interference ratio; signature waveform ensemble; synchronous systems; transmitters; wireless systems; Adaptive equalizers; Amplitude shift keying; Extraterrestrial measurements; Interference; Iterative methods; Modulation coding; Multiaccess communication; Radio transmitters; Signal design; Signal processing;
Conference_Titel :
Vehicular Technology Conference Proceedings, 2000. VTC 2000-Spring Tokyo. 2000 IEEE 51st
Conference_Location :
Tokyo
Print_ISBN :
0-7803-5718-3
DOI :
10.1109/VETECS.2000.851255
