Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption

Data sharing technologies enable users to outsource data and privately share information with arbitrary recipients without geographic barriers. However, existing efforts for secure data sharing are either inflexible, insufficiently-secure or inefficient. In this paper, we invent PS-ME, the first Pri...

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Main Authors:	SUN, Jianfei, XU, Guowen, ZHANG, Tianwei, YANG, Xuehuan, ALAZAB, Mamoun, DENG, Robert H.
Format:	text
Language:	English
Published:	Institutional Knowledge at Singapore Management University 2023
Subjects:	Non-interactive matchmaking encryption flexible anonymity CCA-security Information Security
Online Access:	https://ink.library.smu.edu.sg/sis_research/8297
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Institution:	Singapore Management University
Language:	English

id	sg-smu-ink.sis_research-9300
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spelling	sg-smu-ink.sis_research-93002023-11-10T01:48:03Z Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption SUN, Jianfei XU, Guowen ZHANG, Tianwei YANG, Xuehuan ALAZAB, Mamoun DENG, Robert H. Data sharing technologies enable users to outsource data and privately share information with arbitrary recipients without geographic barriers. However, existing efforts for secure data sharing are either inflexible, insufficiently-secure or inefficient. In this paper, we invent PS-ME, the first Privacy-aware and Security-enhanced efficient Matchmaking Encryption (ME) for flexible data sharing. To be more specific, we first formulate an identity-based broadcast matchmaking encryption (IB-BME) for one-to-many data sharing, which enables both participants to specify respective access policies to the encrypted data, such that the data can be revealed by multiple recipients in the case that both access policies are satisfied. In IB-BME, a general matchmaking transformation solution realizing one-to-many sharing is initialized. We also formulate the PS-ME with the general matchmaking transformation solution of IB-BME as the underlying approach, which in addition to featuring IB-BME’s all desirable properties, enables efficient decryption, identity anonymity and CCA-security, where we address the open problem of ME regarding CCA-security (raised in CRYPTO’2019). Finally, the comprehensively rigorous security proofs indicate the security of the suggested methodologies. The experimental results are also shown to demonstrate their practicability and effectiveness. 2023-07-04T07:00:00Z text https://ink.library.smu.edu.sg/sis_research/8297 info:doi/10.1109/TIFS.2023.3294725 Research Collection School Of Computing and Information Systems eng Institutional Knowledge at Singapore Management University Non-interactive matchmaking encryption flexible anonymity CCA-security Information Security
institution	Singapore Management University
building	SMU Libraries
continent	Asia
country	Singapore Singapore
content_provider	SMU Libraries
collection	InK@SMU
language	English
topic	Non-interactive matchmaking encryption flexible anonymity CCA-security Information Security
spellingShingle	Non-interactive matchmaking encryption flexible anonymity CCA-security Information Security SUN, Jianfei XU, Guowen ZHANG, Tianwei YANG, Xuehuan ALAZAB, Mamoun DENG, Robert H. Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption
description	Data sharing technologies enable users to outsource data and privately share information with arbitrary recipients without geographic barriers. However, existing efforts for secure data sharing are either inflexible, insufficiently-secure or inefficient. In this paper, we invent PS-ME, the first Privacy-aware and Security-enhanced efficient Matchmaking Encryption (ME) for flexible data sharing. To be more specific, we first formulate an identity-based broadcast matchmaking encryption (IB-BME) for one-to-many data sharing, which enables both participants to specify respective access policies to the encrypted data, such that the data can be revealed by multiple recipients in the case that both access policies are satisfied. In IB-BME, a general matchmaking transformation solution realizing one-to-many sharing is initialized. We also formulate the PS-ME with the general matchmaking transformation solution of IB-BME as the underlying approach, which in addition to featuring IB-BME’s all desirable properties, enables efficient decryption, identity anonymity and CCA-security, where we address the open problem of ME regarding CCA-security (raised in CRYPTO’2019). Finally, the comprehensively rigorous security proofs indicate the security of the suggested methodologies. The experimental results are also shown to demonstrate their practicability and effectiveness.
format	text
author	SUN, Jianfei XU, Guowen ZHANG, Tianwei YANG, Xuehuan ALAZAB, Mamoun DENG, Robert H.
author_facet	SUN, Jianfei XU, Guowen ZHANG, Tianwei YANG, Xuehuan ALAZAB, Mamoun DENG, Robert H.
author_sort	SUN, Jianfei
title	Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption
title_short	Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption
title_full	Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption
title_fullStr	Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption
title_full_unstemmed	Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption
title_sort	privacy-aware and security-enhanced efficient matchmaking encryption
publisher	Institutional Knowledge at Singapore Management University
publishDate	2023
url	https://ink.library.smu.edu.sg/sis_research/8297
_version_	1783955684870586368

Privacy-Aware and Security-Enhanced Efficient Matchmaking Encryption

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