Privacy Management in Social Internet of Vehicles: Review, Challenges and Blockchain Based Solutions

Butt, Talal Ashraf; Iqbal, Razi; Salah, Khaled; Aloqaily, Moayad; Jararweh, Yaser

doi:10.1109/access.2019.2922236

Cited by 119 publications

(59 citation statements)

References 46 publications

(24 reference statements)

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“…The need of an hour is to determine a privacy mechanism on SIoV that guards various dimensions of privacy of user, his/her behaviour, habits or actions, location and space, thoughts and feelings, data generated by himself/herself, communication and association considering the factors like communication technologies, architecture of the paradigm, preferences of the users, social relationships, inter operability and mobility. The authors in [94] presented and analyzed all the layers of the paradigm including their issues and solutions to preserve privacy throughout SIoV. Their work provided blockchaining as the concept to safeguard privacy in SIoV to protect several dimensions of privacy.…”

Section: A Blockchain-based Authentication In Iovmentioning

confidence: 99%

Authentication Protocols in Internet of Vehicles: Taxonomy, Analysis, and Challenges

et al. 2020

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Internet of Vehicles (IoV) is treated as an extension of Vehicle-to-Vehicle (V2V) communication network. IoV helps in enhancing driving aids with the help of vehicle Artificial Intelligence (AI) awareness of other vehicles and their actions. IoV is connected in an adhoc networking environment which utilizes each vehicle in the network as a node, called Vehicular Ad Hoc Network (VANET), where the vehicles may be also connected to the public Internet. It is specifically important for the autonomous vehicles because they can instantaneously communicate with other vehicles surrounding them. In addition, safely avoiding accident prone zones is crucial in order to continue secure and smart transportation. Since the communication among various entities involved in the IoV environment is via open channel, it gives an opportunity to a passive/active adversary to intercept, modify, delete or even insert fake information during communication. It is then a serious concern for the vehicles users to determine whether the received information is genuine. In this survey paper, various security aspects, threats and attacks, network and threat models related to the IoV environment are discussed. Next, a taxonomy of security protocols is given that is essential to provide IoV data security. In particular, focus on various authentication protocols is given that is needed for mutual authentication among the involved entities in the IoV environment for secure communication. A detailed comparative analysis among various state-of-art authentication protocols proposed in the related IoV environment is provided to show their effectiveness as well as security and functionality features. Moreover, some testbeds are described that were designed and implemented for the IoV environment. In addition, some future challenges for IoV security protocols are also highlighted that are necessary to address in the future. INDEX TERMS Internet of Vehicles (IoV), vehicular adhoc networks (VANETs), authentication, batch verification, security.

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Section: A Blockchain-based Authentication In Iovmentioning

confidence: 99%

Authentication Protocols in Internet of Vehicles: Taxonomy, Analysis, and Challenges

et al. 2020

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“…Note that the extended blockchain-based anonymous reputation system (BARS) is developed, which simultaneously adopts direct historical interactions and indirect opinions about vehicles. Thereafter, Butt et al discussed the challenges and issues on blockchain-based privacy management in social internet of vehicle (SIoV) [35]. As for SDN-enabled 5G-VANETs in promising ITS environment, decentralized blockchain framework [33] is exploited for real time cloud-based trust management.…”

Section: Related Workmentioning

confidence: 99%

“…With its prominent advantages in decentralized data sharing, blockchain can be exploited in various Internet of thing (IoT) scenarios. Currently, the blockchain networks can be elaborated into four types, including the public blockchains, private blockchains, hybrid blockchains, and consortium blockchains, all of which have been applied to diverse communication circumstances [35]. Specially, the consortium blockchains allocate the preselected user group to establish decentralized paradigms for collaborative data sharing, thus have high potential for deployment in V2V group communications.…”

Section: Introductionmentioning

confidence: 99%

Secure Authentication and Key Management With Blockchain in VANETs

Tan

Chung

2020

IEEE Access

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Nowadays, with rapid advancements of vehicular telematics and communication techniques, proliferation of vehicular ad hoc networks (VANETs) have been witnessed, which facilitates the construction of promising intelligent transportation system (ITS). Due to inherent wireless communicating features in open environment, secure transmission among numerous VANET entities remains crucial issues. Currently, lots of research efforts have been made, while most of which tend to allocate the universal group key to the verified devices for both vehicle-to-vehicle (V2V) and vehicle-to-RSU (V2R) communications. However, in heterogeneous VANET environment with large numbers of devices in same vehicular group, complicated and variable topologies lead to continuous key updating in every moment, causing interference to regular V2R data exchange, which is not reliable and efficient for resource-constrained VANET environment. Moreover, group membership recording and detecting mechanisms are necessary for real time vehicle revocation and participation, which has not been further studied so far. In this paper, we address the above issues by proposing a secure authentication and key management scheme. In our design, novel VANET system model with edge computing infrastructure is adopted so as to offer adequate computing and storing capacity compared to traditional VANET structure. Note that our certificateless authentication scheme applies the independent session key for each vehicle for interference avoidance. Furthermore, consortium blockchain is employed for V2V group key construction. Real time group membership arrangement with efficient group key updating is accordingly provided. Formal security proofs are presented, demonstrating that the proposed scheme can achieve desired security properties. Performance analysis is conducted as well, proving that the proposed scheme is efficient compared with the state-of-the-arts. INDEX TERMS Vehicular ad hoc networks (VANETs), certificateless authentication, dynamic group key management, consortium blockchain.

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“…These services will help to establish secure communication channels among these components even if they belong to different security domains. Provide fundamental security mechanisms required by the virtualization infrastructure, such as which virtualization services to use, control which resources they can access, and so on. Monitor the status of infrastructure using situational awareness mechanisms. Fog computing must provide privacy services for both IoT devices and the service providers since they are part of the Fog environment. Fog should have digital evidence management (Forensics). Blockchain technology can be highly helpful in the Fog since it enables transparent and verifiable evidence and enhances trust and data sharing decisions. Recently, a tremendous number of publications claim that blockchain can mitigate the impact of many of the above privacy and security challenges (eg, 50,73,76,80‐86 ). Their findings will be included in the following discussion.…”

Section: Rq3—challenges and Future Directionsmentioning

confidence: 99%

Fog computing security and privacy for the Internet of Thing applications: State‐of‐the‐art

Alzoubi

Osmanaj

Jaradat

et al. 2020

Security and Privacy

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Fog nodes are implemented near to end‐users Internet of Things (IoT) devices, which mitigate the impact of low latency, location awareness, and geographic distribution unsupported features of many IoT applications. Moreover, Fog computing decreases the data offload into the Cloud, which decreases the response time. Despite these benefits, Fog computing faces many challenges in meeting security and privacy requirements. These challenges occur due to the limitations of Fog computing resources. In fact, Fog computing may add new security and privacy issues. Although many papers have discussed the Fog security and privacy issues recently, most of these papers have discussed these issues at a very high level. This paper provides a comprehensive understanding of Fog privacy and security issue. In this survey, we review the literature on Fog computing to draw the state‐of‐the‐art of the security and privacy issues raised by Fog computing. The findings of this survey reveal that studying Fog computing is still in its infant stage. Many questions are yet to be answered to address the privacy and security challenges of Fog computing.

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Privacy Management in Social Internet of Vehicles: Review, Challenges and Blockchain Based Solutions

Cited by 119 publications

References 46 publications

Authentication Protocols in Internet of Vehicles: Taxonomy, Analysis, and Challenges

Authentication Protocols in Internet of Vehicles: Taxonomy, Analysis, and Challenges

Secure Authentication and Key Management With Blockchain in VANETs

Fog computing security and privacy for the Internet of Thing applications: State‐of‐the‐art

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