Joint State Sensing and Communication: Optimal Tradeoff for a Memoryless Case
May 15, 2018 Β· Declared Dead Β· π International Symposium on Information Theory
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Authors
Mari Kobayashi, Giuseppe Caire, Gerhard Kramer
arXiv ID
1805.05713
Category
cs.IT: Information Theory
Citations
126
Venue
International Symposium on Information Theory
Last Checked
4 months ago
Abstract
A communication setup is considered where a transmitter wishes to simultaneously sense its channel state and convey a message to a receiver. The state is estimated at the transmitter by means of generalized feedback, i.e. a strictly causal channel output that is observed at the transmitter. The scenario is motivated by a joint radar and communication system where the radar and data applications share the same frequency band. For the case of a memoryless channel with i.i.d. state sequences, we characterize the capacity-distortion tradeoff, defined as the best achievable rate below which a message can be conveyed reliably while satisfying some distortion constraint on state sensing. An iterative algorithm is proposed to optimize the input probability distribution. Examples demonstrate the benefits of joint sensing and communication as compared to a separation-based approach.
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