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Autori principali: Wang, Xiaojian, Gu, Huayue, Li, Zhouyu, Zhou, Fangtong, Yu, Ruozhou, Yang, Dejun, Xue, Guoliang
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2504.20260
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author Wang, Xiaojian
Gu, Huayue
Li, Zhouyu
Zhou, Fangtong
Yu, Ruozhou
Yang, Dejun
Xue, Guoliang
author_facet Wang, Xiaojian
Gu, Huayue
Li, Zhouyu
Zhou, Fangtong
Yu, Ruozhou
Yang, Dejun
Xue, Guoliang
contents The inclusion of pervasive computing devices in a democratized edge computing ecosystem can significantly expand the capability and coverage of near-end computing for large-scale applications. However, offloading user tasks to heterogeneous and decentralized edge devices comes with the dual risk of both endangered user data security and privacy due to the curious base station or malicious edge servers, and unfair offloading and malicious attacks targeting edge servers from other edge servers and/or users. Existing solutions to edge access control and offloading either rely on "always-on" cloud servers with reduced edge benefits or fail to protect sensitive user service information. To address these challenges, this paper presents SA2FE, a novel framework for edge access control, offloading and accounting. We design a rerandomizable puzzle primitive and a corresponding scheme to protect sensitive service information from eavesdroppers and ensure fair offloading decisions, while a blind token-based scheme safeguards user privacy, prevents double spending, and ensures usage accountability. The security of SA2FE is proved under the Universal Composability framework, and its performance and scalability are demonstrated with implementation on commodity mobile devices and edge servers.
format Preprint
id arxiv_https___arxiv_org_abs_2504_20260
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle SA2FE: A Secure, Anonymous, Auditable, and Fair Edge Computing Service Offloading Framework
Wang, Xiaojian
Gu, Huayue
Li, Zhouyu
Zhou, Fangtong
Yu, Ruozhou
Yang, Dejun
Xue, Guoliang
Cryptography and Security
The inclusion of pervasive computing devices in a democratized edge computing ecosystem can significantly expand the capability and coverage of near-end computing for large-scale applications. However, offloading user tasks to heterogeneous and decentralized edge devices comes with the dual risk of both endangered user data security and privacy due to the curious base station or malicious edge servers, and unfair offloading and malicious attacks targeting edge servers from other edge servers and/or users. Existing solutions to edge access control and offloading either rely on "always-on" cloud servers with reduced edge benefits or fail to protect sensitive user service information. To address these challenges, this paper presents SA2FE, a novel framework for edge access control, offloading and accounting. We design a rerandomizable puzzle primitive and a corresponding scheme to protect sensitive service information from eavesdroppers and ensure fair offloading decisions, while a blind token-based scheme safeguards user privacy, prevents double spending, and ensures usage accountability. The security of SA2FE is proved under the Universal Composability framework, and its performance and scalability are demonstrated with implementation on commodity mobile devices and edge servers.
title SA2FE: A Secure, Anonymous, Auditable, and Fair Edge Computing Service Offloading Framework
topic Cryptography and Security
url https://arxiv.org/abs/2504.20260