Abstract
The development of vehicular ad-hoc networks (VANETs) has facilitated adaptive traffic signal control for intelligent transportation. In this paper, we proposed the traffic signal control mechanism based on a consortium blockchain, which has saved plenty of financial and material resources. It has solved the centralization problems and minimized the high degree of human intervention in the process of traffic signal light management. As a road is congested, the vehicle forwards road condition messages. The traffic department ( $TD$ ) adjusts the signal light duration to allow the synergistic optimization management, and control the traffic vehicle status through a smart contract. In addition, we propose a credibility mechanism to effectively prevent vehicles from broadcasting mendacious messages and malicious requests, thereby enhancing the credibility of vehicles and providing a secure and trustworthy communication environment for the VANETs. It is hazardous for vehicles to send plaintext messages in an open environment because their privacy and security are threatened. Thus, we utilize ElGamal encryption and group signature algorithm to guarantee the confidentiality, privacy, and non-repudiation of any information. The safety analysis and performance evaluation demonstrate that the scheme is feasible and valid, and it can facilitate the adaptive control of traffic signal lights.
Highlights
Official statistics indicate that the number of registered vehicles will reach 2 billion in the 10 to 20 years [1]
Different from the existing literature, we propose an adaptive traffic signal control mechanism for intelligent transportation based on a consortium blockchain, and break the central control of traffic signals for vehicular ad-hoc networks (VANETs)
1) In order to avoid attacks on the center node and to prevent information asymmetry with intelligent traffic signal control, the decentration of the blockchain eliminates the need for the central control of signal lights
Summary
Official statistics indicate that the number of registered vehicles will reach 2 billion in the 10 to 20 years [1]. A blockchain-based privacy protection announcement in the VANET [16] is proposed to ensure the reliability of vehicle information transmission but without exposing a vehicle’s private information This scheme uses a threshold ring signature to verify the message, where the number of attackers who forge the signature is higher when the size of the ring increases. Different from the existing literature, we propose an adaptive traffic signal control mechanism for intelligent transportation based on a consortium blockchain, and break the central control of traffic signals for VANETs. The significant contributions of this paper are as follows. 1) In order to avoid attacks on the center node and to prevent information asymmetry with intelligent traffic signal control, the decentration of the blockchain eliminates the need for the central control of signal lights. The results calculated by artificial (virtual simulation) traffic signal control system are feedback to the physical (reality) system, execute in parallel the allocation and control of the green light duration
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