Hierarchical Sparse Recovery from Hierarchically Structured Measurements with Application to Massive Random Access
Paper in proceeding, 2021
A new family of operators, dubbed hierarchical measurement operators, is introduced and discussed within the framework of hierarchically sparse recovery. A hierarchical measurement operator is a composition of block and mixing operations. It notably contains Kronecker products as a special case. Results on their hierarchical restricted isometry property (HiRIP) are derived, generalizing prior work on the recovery of hierarchically sparse signals from Kronecker-structured linear measurements. Specifically, these results show that recovery properties of the block and mixing part can be traded against each other. The measurement structure is motivated by a massive random access channel design in communication engineering. Numerical evaluation of user detection rates demonstrate benefits of the theoretical framework.
MIMO
Block detection
Hierarchically sparse signals
Internet of Things (IoT)
HiHTP
Structured compressed sensing
Author
Benedikt Groß
Freie Universität Berlin
Axel Flinth
Computer vision and medical image analysis
Ingo Roth
Freie Universität Berlin
Jens Eisert
Freie Universität Berlin
Gerhard Wunder
Freie Universität Berlin
2021 IEEE Statistical Signal Processing Workshop (SSP)
2693-3551 (ISSN)
531-535
2021 IEEE Statistical Signal Processing Workshop (SSP)
Rio de Janeiro/Virtual, Brazil,
Rio de Janeiro/Virtual, Brazil,
Subject Categories
Telecommunications
Other Engineering and Technologies not elsewhere specified
Signal Processing
DOI
10.1109/SSP49050.2021.9513765