Collaboration in distributed hypothesis testing with quantized prior probabilities

Joong Bum Rhim; Lav R. Varshney; Vivek K. Goyal

doi:10.1109/DCC.2011.37

Collaboration in distributed hypothesis testing with quantized prior probabilities

Joong Bum Rhim
, Lav R. Varshney
, Vivek K. Goyal

Office of the Provost

Massachusetts Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

7 Scopus citations

Abstract

The effect of quantization of prior probabilities in a collection of distributed Bayesian binary hypothesis testing problems over which the priors themselves vary is studied. In a setting with fusion of local binary decisions by majority rule, optimal local decision rules are discussed. Quantization is first considered under the constraint that agents employ identical quantizers. A method for design is presented that exploits an equivalence to a single-agent problem with a different likelihood function, the optimal quantizers are thus different than in the single-agent case. Removing the constraint of identical quantizers is demonstrated to improve performance. A method for design is presented that exploits an equivalence between agents having diverse K-level quantizers and agents having identical (3K-2)-level quantizers.

Original language	English
Title of host publication	Proceedings - DCC 2011
Subtitle of host publication	2011 Data Compression Conference
Pages	303-312
Number of pages	10
DOIs	https://doi.org/10.1109/DCC.2011.37
State	Published - 2011
Event	2011 Data Compression Conference, DCC 2011 - Snowbird, UT, United States Duration: Mar 29 2011 → Mar 31 2011

Publication series

Name	Data Compression Conference Proceedings
ISSN (Print)	1068-0314

Conference

Conference	2011 Data Compression Conference, DCC 2011
Country/Territory	United States
City	Snowbird, UT
Period	03/29/11 → 03/31/11

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10.1109/DCC.2011.37

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title = "Collaboration in distributed hypothesis testing with quantized prior probabilities",

abstract = "The effect of quantization of prior probabilities in a collection of distributed Bayesian binary hypothesis testing problems over which the priors themselves vary is studied. In a setting with fusion of local binary decisions by majority rule, optimal local decision rules are discussed. Quantization is first considered under the constraint that agents employ identical quantizers. A method for design is presented that exploits an equivalence to a single-agent problem with a different likelihood function, the optimal quantizers are thus different than in the single-agent case. Removing the constraint of identical quantizers is demonstrated to improve performance. A method for design is presented that exploits an equivalence between agents having diverse K-level quantizers and agents having identical (3K-2)-level quantizers.",

author = "Rhim, \{Joong Bum\} and Varshney, \{Lav R.\} and Goyal, \{Vivek K.\}",

year = "2011",

doi = "10.1109/DCC.2011.37",

language = "English",

isbn = "9780769543529",

series = "Data Compression Conference Proceedings",

pages = "303--312",

booktitle = "Proceedings - DCC 2011",

note = "2011 Data Compression Conference, DCC 2011 ; Conference date: 29-03-2011 Through 31-03-2011",

}

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T1 - Collaboration in distributed hypothesis testing with quantized prior probabilities

AU - Rhim, Joong Bum

AU - Varshney, Lav R.

AU - Goyal, Vivek K.

PY - 2011

Y1 - 2011

N2 - The effect of quantization of prior probabilities in a collection of distributed Bayesian binary hypothesis testing problems over which the priors themselves vary is studied. In a setting with fusion of local binary decisions by majority rule, optimal local decision rules are discussed. Quantization is first considered under the constraint that agents employ identical quantizers. A method for design is presented that exploits an equivalence to a single-agent problem with a different likelihood function, the optimal quantizers are thus different than in the single-agent case. Removing the constraint of identical quantizers is demonstrated to improve performance. A method for design is presented that exploits an equivalence between agents having diverse K-level quantizers and agents having identical (3K-2)-level quantizers.

AB - The effect of quantization of prior probabilities in a collection of distributed Bayesian binary hypothesis testing problems over which the priors themselves vary is studied. In a setting with fusion of local binary decisions by majority rule, optimal local decision rules are discussed. Quantization is first considered under the constraint that agents employ identical quantizers. A method for design is presented that exploits an equivalence to a single-agent problem with a different likelihood function, the optimal quantizers are thus different than in the single-agent case. Removing the constraint of identical quantizers is demonstrated to improve performance. A method for design is presented that exploits an equivalence between agents having diverse K-level quantizers and agents having identical (3K-2)-level quantizers.

UR - https://www.scopus.com/pages/publications/79955707787

U2 - 10.1109/DCC.2011.37

DO - 10.1109/DCC.2011.37

M3 - Conference contribution

AN - SCOPUS:79955707787

SN - 9780769543529

T3 - Data Compression Conference Proceedings

SP - 303

EP - 312

BT - Proceedings - DCC 2011

T2 - 2011 Data Compression Conference, DCC 2011

Y2 - 29 March 2011 through 31 March 2011

ER -

Collaboration in distributed hypothesis testing with quantized prior probabilities

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