Distributed Aggregate Privacy-Preserving Authentication in VANETs

Lei Zhang; Qianhong Wu; Josep Domingo-Ferrer; Bo Qin; Chuanyan Hu

doi:10.1109/TITS.2016.2579162

Distributed Aggregate Privacy-Preserving Authentication in VANETs

Lei Zhang
, Qianhong Wu
, Josep Domingo-Ferrer
, Bo Qin
, Chuanyan Hu

Software Engineering Institute

Research output: Contribution to journal › Article › peer-review

267 Scopus citations

Abstract

Existing secure and privacy-preserving vehicular communication protocols in vehicular ad hoc networks face the challenges of being fast and not depending on ideal tamper-proof devices (TPDs) embedded in vehicles. To address these challenges, we propose a vehicular authentication protocol referred to as distributedaggregate privacy-preserving authentication. The proposed protocol is based on our new multiple trusted authority one-Time identity-based aggregate signature technique. With this technique a vehicle can verify many messages simultaneously and their signatures can be compressed into a single one that greatly reduces the storage space needed by a vehicle or a data collector (e.g., the traffic management authority). Instead of ideal TPDs, our protocol only requires realistic TPDs and hence is more practical.

Original language	English
Article number	7511714
Pages (from-to)	516-526
Number of pages	11
Journal	IEEE Transactions on Intelligent Transportation Systems
Volume	18
Issue number	3
DOIs	https://doi.org/10.1109/TITS.2016.2579162
State	Published - Mar 2017

Keywords

Data compression
privacy
protocol design
security
vehicular ad hoc networks (VANETs)

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10.1109/TITS.2016.2579162

Cite this

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abstract = "Existing secure and privacy-preserving vehicular communication protocols in vehicular ad hoc networks face the challenges of being fast and not depending on ideal tamper-proof devices (TPDs) embedded in vehicles. To address these challenges, we propose a vehicular authentication protocol referred to as distributedaggregate privacy-preserving authentication. The proposed protocol is based on our new multiple trusted authority one-Time identity-based aggregate signature technique. With this technique a vehicle can verify many messages simultaneously and their signatures can be compressed into a single one that greatly reduces the storage space needed by a vehicle or a data collector (e.g., the traffic management authority). Instead of ideal TPDs, our protocol only requires realistic TPDs and hence is more practical.",

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AB - Existing secure and privacy-preserving vehicular communication protocols in vehicular ad hoc networks face the challenges of being fast and not depending on ideal tamper-proof devices (TPDs) embedded in vehicles. To address these challenges, we propose a vehicular authentication protocol referred to as distributedaggregate privacy-preserving authentication. The proposed protocol is based on our new multiple trusted authority one-Time identity-based aggregate signature technique. With this technique a vehicle can verify many messages simultaneously and their signatures can be compressed into a single one that greatly reduces the storage space needed by a vehicle or a data collector (e.g., the traffic management authority). Instead of ideal TPDs, our protocol only requires realistic TPDs and hence is more practical.

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Distributed Aggregate Privacy-Preserving Authentication in VANETs

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Keywords

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