The security aspect of the IoT occupies a place of great
importance especially after the evolution that has known this field
lastly because it must take into account the transformations and the
new applications .Blockchain is a new technology dedicated to the
data sharing. However, this does not work the same way in the
different systems with different operating principles. This article will
discuss network security using the Blockchain to facilitate the sending
of messages and information, enabling the use of new processes and
enabling autonomous coordination of devices. To do this, we will
discuss proposed solutions to ensure a high level of security in these
networks in the work of other researchers. Finally, our article will
propose a method of security more adapted to our needs as a team
working in the ad hoc networks, this method is based on the principle
of the Blockchain and that we named ”MPR Blockchain”.
[1] M. A. Khan and K. Salah, ”IoT security: Review, blockchain solutions,
and open challenges”. Future Gener. Comput. Syst., vol. 82, p. 395-411,
mai 2018.
[2] ”CONDENSE: A Reconfigurable Knowledge Acquisition
Architecture for Future 5G IoT ”. IEEE Journals Magazine .
https://ieeexplore.ieee.org/abstract/document/7508921/.
[3] Y. Liu, Y. Kuang, Y. Xiao, and G. Xu ”SDN-Based Data Transfer Security
for Internet of Things”. IEEE Internet Things J., vol. 5, no 1, p. 257-268,
fvr. 2018.
[4] M. Swan, ”Blockchain thinking: The brain as a dac (decentralized
autonomous organization)”, in Proceedings of the Texas Bitcoin
Conference, pp. 2729, 2015.
[5] H. Chourabi et al., ”Understanding Smart Cities: An Integrative
Framework ”, in 2012 45th Hawaii International Conference on System
Sciences, 2012, p. 2289-2297.
[6] T. Forsyth ”Community-based adaptation: a review of past and future
challenges ”. Wiley Interdiscip. Rev. Clim. Change, vol. 4, no 5, p.
439-446.
[7] H. Nguyen-Minh, ”Contribution to the Intelligent Transportation System:
security of Safety Applications in Vehicle Ad hoc Networks ”. p. 159.
[8] I. Ali, S. Sabir, and Z. Ullah, ”Internet of Things Security, Device
Authentication and Access Control: A Review ”. vol. 14, no 8, p. 12,
2016.
[9] D. Minoli and B. Occhiogrosso ”Blockchain mechanisms for IoT security
”. Internet of Things Journal 12 (2018).
[10] M. Grabovica, S. Popi, D. Pezer and V. Kneevi, ”CProvided security
measures of enabling technologies in Internet of Things (IoT): A survey
”. Zooming Innovation in Consumer Electronics International Conference
(ZINC) 2016.
[11] Florian Wessling and Volker Gruhn ”Engineering Software Architectures
of Blockchain-Oriented Applications ”. 2018 IEEE International
Conference on Software Architecture Companion (ICSA-C) 2018.
[12] S. Nakamoto. ”Bitcoin ”. A Peer-to-Peer Electronic Cash
System.bitcoin.org, 2008.
[13] L. Kan, Y. Wei, A. Hafiz Muhammad, W. Siyuan, G. Linchao
and H. Kai, ”A Multiple Blockchains Architecture on Inter-Blockchain
Communication ”. IEEE International Conference on Software Quality,
Reliability and Security Companion (QRS-C).
[14] Z. Yang, K. Zheng, K. Yang et V. C. M. Leung, ”A blockchain-based
reputation system for data credibility assessment in vehicular networks
”. 2017 IEEE 28th Annual International Symposium on Personal, Indoor,
and Mobile Radio Communications (PIMRC).
[15] H. Amraoui and A. Habbani and A. Hajami, ”Mobility Quantification
for MultiPoint Relays Selection Algorithm in Mobile Ad Hoc Networks”.
5th International Conference on Multimedia Computing and Systems
(ICMCS), p.278-283, September 2016.
[16] M. Souidi and A. Habbani and H. Berradi and F. El Mahdi, ”Geographic
forwarding rules to reduce broadcast redundancy in mobile ad hoc
wireless networks”. Pers Ubiquit Comput, May 2018.
[1] M. A. Khan and K. Salah, ”IoT security: Review, blockchain solutions,
and open challenges”. Future Gener. Comput. Syst., vol. 82, p. 395-411,
mai 2018.
[2] ”CONDENSE: A Reconfigurable Knowledge Acquisition
Architecture for Future 5G IoT ”. IEEE Journals Magazine .
https://ieeexplore.ieee.org/abstract/document/7508921/.
[3] Y. Liu, Y. Kuang, Y. Xiao, and G. Xu ”SDN-Based Data Transfer Security
for Internet of Things”. IEEE Internet Things J., vol. 5, no 1, p. 257-268,
fvr. 2018.
[4] M. Swan, ”Blockchain thinking: The brain as a dac (decentralized
autonomous organization)”, in Proceedings of the Texas Bitcoin
Conference, pp. 2729, 2015.
[5] H. Chourabi et al., ”Understanding Smart Cities: An Integrative
Framework ”, in 2012 45th Hawaii International Conference on System
Sciences, 2012, p. 2289-2297.
[6] T. Forsyth ”Community-based adaptation: a review of past and future
challenges ”. Wiley Interdiscip. Rev. Clim. Change, vol. 4, no 5, p.
439-446.
[7] H. Nguyen-Minh, ”Contribution to the Intelligent Transportation System:
security of Safety Applications in Vehicle Ad hoc Networks ”. p. 159.
[8] I. Ali, S. Sabir, and Z. Ullah, ”Internet of Things Security, Device
Authentication and Access Control: A Review ”. vol. 14, no 8, p. 12,
2016.
[9] D. Minoli and B. Occhiogrosso ”Blockchain mechanisms for IoT security
”. Internet of Things Journal 12 (2018).
[10] M. Grabovica, S. Popi, D. Pezer and V. Kneevi, ”CProvided security
measures of enabling technologies in Internet of Things (IoT): A survey
”. Zooming Innovation in Consumer Electronics International Conference
(ZINC) 2016.
[11] Florian Wessling and Volker Gruhn ”Engineering Software Architectures
of Blockchain-Oriented Applications ”. 2018 IEEE International
Conference on Software Architecture Companion (ICSA-C) 2018.
[12] S. Nakamoto. ”Bitcoin ”. A Peer-to-Peer Electronic Cash
System.bitcoin.org, 2008.
[13] L. Kan, Y. Wei, A. Hafiz Muhammad, W. Siyuan, G. Linchao
and H. Kai, ”A Multiple Blockchains Architecture on Inter-Blockchain
Communication ”. IEEE International Conference on Software Quality,
Reliability and Security Companion (QRS-C).
[14] Z. Yang, K. Zheng, K. Yang et V. C. M. Leung, ”A blockchain-based
reputation system for data credibility assessment in vehicular networks
”. 2017 IEEE 28th Annual International Symposium on Personal, Indoor,
and Mobile Radio Communications (PIMRC).
[15] H. Amraoui and A. Habbani and A. Hajami, ”Mobility Quantification
for MultiPoint Relays Selection Algorithm in Mobile Ad Hoc Networks”.
5th International Conference on Multimedia Computing and Systems
(ICMCS), p.278-283, September 2016.
[16] M. Souidi and A. Habbani and H. Berradi and F. El Mahdi, ”Geographic
forwarding rules to reduce broadcast redundancy in mobile ad hoc
wireless networks”. Pers Ubiquit Comput, May 2018.
@article{"International Journal of Information, Control and Computer Sciences:79208", author = "Nada Mouchfiq and Ahmed Habbani and Chaimae Benjbara", title = "Blockchain Security in MANETs", abstract = "The security aspect of the IoT occupies a place of great
importance especially after the evolution that has known this field
lastly because it must take into account the transformations and the
new applications .Blockchain is a new technology dedicated to the
data sharing. However, this does not work the same way in the
different systems with different operating principles. This article will
discuss network security using the Blockchain to facilitate the sending
of messages and information, enabling the use of new processes and
enabling autonomous coordination of devices. To do this, we will
discuss proposed solutions to ensure a high level of security in these
networks in the work of other researchers. Finally, our article will
propose a method of security more adapted to our needs as a team
working in the ad hoc networks, this method is based on the principle
of the Blockchain and that we named ”MPR Blockchain”.", keywords = "Ad hoc networks, blockchain, MPR, security.", volume = "13", number = "10", pages = "550-5", }
