TY - GEN
T1 - CoRide
T2 - 15th International Conference on Security and Privacy in Communication Networks, SecureComm 2019
AU - Li, Meng
AU - Zhu, Liehuang
AU - Lin, Xiaodong
N1 - Publisher Copyright:
© ICST Institute for Computer Sciences, Social Informatics and Telecommunications Engineering 2019.
PY - 2019
Y1 - 2019
N2 - Ride-hailing services have experienced remarkable development throughout the world, serving millions of users per day. However, service providers, such as Uber and Didi, operate independently. If they are willing to share user data and establish collaborative-rides (c-rides), more ride services and commercial interests will be produced. Meanwhile, these collaborations raise significant security and privacy concerns for both users and service providers, because users’ sensitive information and service providers’ business secrets could be leaked during c-rides. Moreover, data auditability and fairness must be guaranteed. In this paper, we propose CoRide: a privacy-preserving Collaborative-Ride hailing service using blockchain-assisted vehicular fog computing. First, we anonymously authenticate users and disclose a targeted user only if all collaborative service providers are present while requiring no trusted authority. Then, we construct a consortium blockchain to record c-rides and create smart contracts to pair riders with drivers. Private proximity test and query processing are utilized to support location authentication, driver screening and destination matching. Last, we modify Zerocash to achieve anonymous payment and defend double spending attacks. Finally, we analyze the security of CoRide and demonstrate its efficiency through extensive experiments based on an Ethereum network.
AB - Ride-hailing services have experienced remarkable development throughout the world, serving millions of users per day. However, service providers, such as Uber and Didi, operate independently. If they are willing to share user data and establish collaborative-rides (c-rides), more ride services and commercial interests will be produced. Meanwhile, these collaborations raise significant security and privacy concerns for both users and service providers, because users’ sensitive information and service providers’ business secrets could be leaked during c-rides. Moreover, data auditability and fairness must be guaranteed. In this paper, we propose CoRide: a privacy-preserving Collaborative-Ride hailing service using blockchain-assisted vehicular fog computing. First, we anonymously authenticate users and disclose a targeted user only if all collaborative service providers are present while requiring no trusted authority. Then, we construct a consortium blockchain to record c-rides and create smart contracts to pair riders with drivers. Private proximity test and query processing are utilized to support location authentication, driver screening and destination matching. Last, we modify Zerocash to achieve anonymous payment and defend double spending attacks. Finally, we analyze the security of CoRide and demonstrate its efficiency through extensive experiments based on an Ethereum network.
KW - Blockchain
KW - Fog computing
KW - Privacy
KW - Ride hailing
UR - http://www.scopus.com/inward/record.url?scp=85076893456&partnerID=8YFLogxK
U2 - 10.1007/978-3-030-37231-6_24
DO - 10.1007/978-3-030-37231-6_24
M3 - Conference contribution
AN - SCOPUS:85076893456
SN - 9783030372309
T3 - Lecture Notes of the Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering, LNICST
SP - 408
EP - 422
BT - Security and Privacy in Communication Networks - 15th EAI International Conference, SecureComm 2019, Proceedings
A2 - Chen, Songqing
A2 - Choo, Kim-Kwang Raymond
A2 - Fu, Xinwen
A2 - Lou, Wenjing
A2 - Mohaisen, Aziz
PB - Springer
Y2 - 23 October 2019 through 25 October 2019
ER -