hal-03675543
https://imt-atlantique.hal.science/hal-03675543
https://imt-atlantique.hal.science/hal-03675543/document
https://imt-atlantique.hal.science/hal-03675543/file/Rate_Distortion_and_Outage_Probability_Analyses_of_Wyner_Ziv_Systems_over_Multiple_Access_Channels-5.pdf
doi:10.1109/TCOMM.2021.3087128
[INSTITUT-TELECOM] Institut Télécom
[INSMI] CNRS-INSMI - INstitut des Sciences Mathématiques et de leurs Interactions
[IMT-ATLANTIQUE] IMT-ATLANTIQUE
[INSTITUTS-TELECOM] composantes instituts telecom
[IMTA_MEE] IMT Atlantique - Département mathematical and electrical engineering
Rate-Distortion and Outage Probability Analyses of Wyner-Ziv Systems over Multiple Access Channels
Song, Shulin
He, Jiguang
Matsumoto, Tad
[MATH.MATH-IT] Mathematics [math]/Information Theory [math.IT]
ART
Wyner-Ziv problem
multiple access channel
outage probability
helper-selection
rate distortion analysis
In this paper, we conduct rate-distortion and outage probability analyses for Wyner-Ziv (WZ) systems, where the information sequences from a source and a helper are transmitted to the destination over block Rayleigh fading multiple access channels (MACs). This work has been motivated by decisionmaking systems, where the aim is to make right decisions based on the observations. Hence, the most critical performance metric is the accuracy of decisions, even allowing distortion in wireless transmission. A sufficient condition for the successful transmissions is that the WZ and MAC regions intersect. For the ease of calculating the outage probability, we propose an approximated, yet accurate, WZ rate region. The outage probabilities of the WZ systems are then evaluated both in orthogonal and MAC transmissions. It is shown that the transmission efficiency of the system with MAC is significantly improved compared to orthogonal transmission. Furthermore, a helper-selection scheme is introduced to further reduce the outage probability of the WZ-MAC systems. The results show that the outage probability decreases, of which decay corresponds to the (L + 1)-order diversity with L helpers in small value range of the average signal-to-noise ratio (SNR), while it converges into L as the average SNR becomes large.
2021-09
2022-05-23
en
IEEE Transactions on Communications
Institute of Electrical and Electronics Engineers