TY - GEN
T1 - Testing Against Independence with an Eavesdropper
AU - Faour, Sara
AU - Hamad, Mustapha
AU - Sarkiss, Mireille
AU - Wigger, Michele
N1 - Publisher Copyright:
© 2023 IEEE.
PY - 2023/1/1
Y1 - 2023/1/1
N2 - We study a distributed binary hypothesis testing (HT) problem with communication and security constraints, involving three parties: a remote sensor called Alice, a legitimate decision center called Bob, and an eavesdropper called Eve, all having their own source observations. In this system, Alice conveys a rate-R description of her observations to Bob, and Bob performs a binary hypothesis test on the joint distribution underlying his and Alice's observations. The goal of Alice and Bob is to maximize the exponential decay of Bob's miss-detection (type-II error) probability under two constraints: Bob's false-alarm (type-I error) probability has to stay below a given threshold and Eve's uncertainty (equivocation) about Alice's observations should stay above a given security threshold even when Eve learns Alice's message. For the special case of testing against independence, we characterize the largest possible type-II error exponent under the described type-I error probability and security constraints.
AB - We study a distributed binary hypothesis testing (HT) problem with communication and security constraints, involving three parties: a remote sensor called Alice, a legitimate decision center called Bob, and an eavesdropper called Eve, all having their own source observations. In this system, Alice conveys a rate-R description of her observations to Bob, and Bob performs a binary hypothesis test on the joint distribution underlying his and Alice's observations. The goal of Alice and Bob is to maximize the exponential decay of Bob's miss-detection (type-II error) probability under two constraints: Bob's false-alarm (type-I error) probability has to stay below a given threshold and Eve's uncertainty (equivocation) about Alice's observations should stay above a given security threshold even when Eve learns Alice's message. For the special case of testing against independence, we characterize the largest possible type-II error exponent under the described type-I error probability and security constraints.
KW - Distributed hypothesis testing
KW - error exponents
KW - security constraints
KW - side information
UR - https://www.scopus.com/pages/publications/85165075789
U2 - 10.1109/ITW55543.2023.10161630
DO - 10.1109/ITW55543.2023.10161630
M3 - Conference contribution
AN - SCOPUS:85165075789
T3 - 2023 IEEE Information Theory Workshop, ITW 2023
SP - 277
EP - 282
BT - 2023 IEEE Information Theory Workshop, ITW 2023
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2023 IEEE Information Theory Workshop, ITW 2023
Y2 - 23 April 2023 through 28 April 2023
ER -