Privacy Amplification via Shuffling for Linear Contextual Bandits

Evrard Garcelon; Kamalika Chaudhuri; Vianney Perchet; Matteo Pirotta

Privacy Amplification via Shuffling for Linear Contextual Bandits

Evrard Garcelon
, Kamalika Chaudhuri
, Vianney Perchet
, Matteo Pirotta

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Résumé

Contextual bandit algorithms are widely used in domains where it is desirable to provide a personalized service by leveraging contextual information, that may contain sensitive information that needs to be protected. Inspired by this scenario, we study the contextual linear bandit problem with differential privacy (DP) constraints. While the literature has focused on either centralized (joint DP) or local (local DP) privacy, we consider the shuffle model of privacy and we show that it is possible to achieve a privacy/utility trade-off between JDP and LDP. By leveraging shuffling from privacy and batching from bandits, we present an algorithm with regret bound O^e(T^2/3/ε^1/3), while guaranteeing both central (joint) and local privacy. Our result shows that it is possible to obtain a trade-off between JDP and LDP by leveraging the shuffle model while preserving local privacy.

langue originale	Anglais
Pages (de - à)	381-407
Nombre de pages	27
journal	Proceedings of Machine Learning Research
Volume	167
état	Publié - 1 janv. 2022
Modification externe	Oui
Evénement	33rd International Conference on Algorithmic Learning Theory, ALT 2022 - Virtual, Online, France Durée: 29 mars 2022 → 1 avr. 2022

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title = "Privacy Amplification via Shuffling for Linear Contextual Bandits",

abstract = "Contextual bandit algorithms are widely used in domains where it is desirable to provide a personalized service by leveraging contextual information, that may contain sensitive information that needs to be protected. Inspired by this scenario, we study the contextual linear bandit problem with differential privacy (DP) constraints. While the literature has focused on either centralized (joint DP) or local (local DP) privacy, we consider the shuffle model of privacy and we show that it is possible to achieve a privacy/utility trade-off between JDP and LDP. By leveraging shuffling from privacy and batching from bandits, we present an algorithm with regret bound Oe(T2/3/ε1/3), while guaranteeing both central (joint) and local privacy. Our result shows that it is possible to obtain a trade-off between JDP and LDP by leveraging the shuffle model while preserving local privacy.",

keywords = "Differential Privacy, Joint Differential Privacy, Linear Contextual Bandits, Local Differential Privacy, Shuffling",

author = "Evrard Garcelon and Kamalika Chaudhuri and Vianney Perchet and Matteo Pirotta",

note = "Publisher Copyright: {\textcopyright} 2022 E. Garcelon, K. Chaudhuri, V. Perchet \& M. Pirotta.; 33rd International Conference on Algorithmic Learning Theory, ALT 2022 ; Conference date: 29-03-2022 Through 01-04-2022",

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journal = "Proceedings of Machine Learning Research",

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TY - JOUR

T1 - Privacy Amplification via Shuffling for Linear Contextual Bandits

AU - Garcelon, Evrard

AU - Chaudhuri, Kamalika

AU - Perchet, Vianney

AU - Pirotta, Matteo

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Contextual bandit algorithms are widely used in domains where it is desirable to provide a personalized service by leveraging contextual information, that may contain sensitive information that needs to be protected. Inspired by this scenario, we study the contextual linear bandit problem with differential privacy (DP) constraints. While the literature has focused on either centralized (joint DP) or local (local DP) privacy, we consider the shuffle model of privacy and we show that it is possible to achieve a privacy/utility trade-off between JDP and LDP. By leveraging shuffling from privacy and batching from bandits, we present an algorithm with regret bound Oe(T2/3/ε1/3), while guaranteeing both central (joint) and local privacy. Our result shows that it is possible to obtain a trade-off between JDP and LDP by leveraging the shuffle model while preserving local privacy.

AB - Contextual bandit algorithms are widely used in domains where it is desirable to provide a personalized service by leveraging contextual information, that may contain sensitive information that needs to be protected. Inspired by this scenario, we study the contextual linear bandit problem with differential privacy (DP) constraints. While the literature has focused on either centralized (joint DP) or local (local DP) privacy, we consider the shuffle model of privacy and we show that it is possible to achieve a privacy/utility trade-off between JDP and LDP. By leveraging shuffling from privacy and batching from bandits, we present an algorithm with regret bound Oe(T2/3/ε1/3), while guaranteeing both central (joint) and local privacy. Our result shows that it is possible to obtain a trade-off between JDP and LDP by leveraging the shuffle model while preserving local privacy.

KW - Differential Privacy

KW - Joint Differential Privacy

KW - Linear Contextual Bandits

KW - Local Differential Privacy

KW - Shuffling

UR - https://www.scopus.com/pages/publications/85132756491

M3 - Conference article

AN - SCOPUS:85132756491

SN - 2640-3498

VL - 167

SP - 381

EP - 407

JO - Proceedings of Machine Learning Research

JF - Proceedings of Machine Learning Research

T2 - 33rd International Conference on Algorithmic Learning Theory, ALT 2022

Y2 - 29 March 2022 through 1 April 2022

ER -

Privacy Amplification via Shuffling for Linear Contextual Bandits

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