Salvato in:
Dettagli Bibliografici
Autori principali: Chen, Bingwen, Ling, Xintong, Cao, Weihang, Wang, Jiaheng, Ding, Zhi
Natura: Preprint
Pubblicazione: 2024
Soggetti:
Accesso online:https://arxiv.org/abs/2406.18204
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866912386109145088
author Chen, Bingwen
Ling, Xintong
Cao, Weihang
Wang, Jiaheng
Ding, Zhi
author_facet Chen, Bingwen
Ling, Xintong
Cao, Weihang
Wang, Jiaheng
Ding, Zhi
contents The coexistence of heterogeneous sub-networks in 6G poses new security and trust concerns and thus calls for a perimeterless-security model. Blockchain radio access network (B-RAN) provides a trust-building approach via repeated interactions rather than relying on pre-established trust or central authentication. Such a trust-building process naturally supports dynamic trusted services across various service providers (SP) without the need for perimeter-based authentications; however, it remains vulnerable to environmental and system unreliability such as wireless channel uncertainty. In this study, we investigate channel unreliability in the trust-building framework based on repeated interactions for secure wireless services. We derive specific requirements for achieving cooperation between SPs and clients via a repeated game model and illustrate the implications of channel unreliability on sustaining trusted wireless services. We consider the framework design and optimization to guarantee SP-client cooperation, given the worst channel condition and/or the least cooperation willingness. Furthermore, we explore the maximum cooperation area to enhance service resilience and reveal the trade-off relationship between transmission efficiency, security integrity, and cooperative margin. Finally, we present simulations to demonstrate the system performance over fading channels and verify our results.
format Preprint
id arxiv_https___arxiv_org_abs_2406_18204
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Analysis of Channel Uncertainty in Trusted Wireless Services via Repeated Interactions
Chen, Bingwen
Ling, Xintong
Cao, Weihang
Wang, Jiaheng
Ding, Zhi
Networking and Internet Architecture
The coexistence of heterogeneous sub-networks in 6G poses new security and trust concerns and thus calls for a perimeterless-security model. Blockchain radio access network (B-RAN) provides a trust-building approach via repeated interactions rather than relying on pre-established trust or central authentication. Such a trust-building process naturally supports dynamic trusted services across various service providers (SP) without the need for perimeter-based authentications; however, it remains vulnerable to environmental and system unreliability such as wireless channel uncertainty. In this study, we investigate channel unreliability in the trust-building framework based on repeated interactions for secure wireless services. We derive specific requirements for achieving cooperation between SPs and clients via a repeated game model and illustrate the implications of channel unreliability on sustaining trusted wireless services. We consider the framework design and optimization to guarantee SP-client cooperation, given the worst channel condition and/or the least cooperation willingness. Furthermore, we explore the maximum cooperation area to enhance service resilience and reveal the trade-off relationship between transmission efficiency, security integrity, and cooperative margin. Finally, we present simulations to demonstrate the system performance over fading channels and verify our results.
title Analysis of Channel Uncertainty in Trusted Wireless Services via Repeated Interactions
topic Networking and Internet Architecture
url https://arxiv.org/abs/2406.18204