Hicham Lakhlef scite author profile

Internet of Things (IoT) is one of the promising technologies that has attracted a lot of attention in both industrial and academic fields these years. It aims to integrate seamlessly both physical and digital worlds in one single ecosystem that makes up a new intelligent era of Internet. This technology offers a huge business value for organizations and provides opportunities for many existing applications such as energy, healthcare and other sectors. However, as new emergent technology, IoT suffers from several security issues which are most challenging than those from other fields regarding its complex environment and resources-constrained IoT devices. A lot of researches have been initiated in order to provide efficient security solutions in IoT, particularly to address resources constraints and scalability issues. Furthermore, some technologies related to networking and cryptocurrency fields such as Software Defined Networking (SDN) and Blockchain are revolutionizing the world of the Internet of Things thanks to their efficiency and scalability. In this paper, we provide a comprehensive top down survey of the most recent proposed security and privacy solutions in IoT. We discuss particularly the benefits that new approaches such as blockchain and Software Defined Networking can bring to the security and the privacy in IoT in terms of flexibility and scalability. Finally, we give a general classification of existing solutions and comparison based on important parameters.

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A Decentralized Blockchain-Based Trust Management Protocol for the Internet of Things

Kouicem

Imine

Bouabdallah³

et al. 2020

IEEE Trans. Dependable and Secure Comput.

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Programmable matter as a cyber-physical conjugation

Bourgeois

Piranda

Naz

et al. 2016

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Programmable matter i.e. matter that can change its physical properties, more likely its shape according to an internal or an external action is a good example of a cybermatics component. As it links a cyberized shape to real matter, it is a straight example of cyber-physical conjugation. But, this interaction between virtual and real worlds needs two elements. The first one is to find a way to represent the cyberized object using programmable matter and the second is to be able to adapt the matter to the cyberized changes. This article presents the progresses made in these two topics within the Claytronics project.

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An Efficient Architecture for Trust Management in IoE Based Systems of Systems

Kouicem

Bouabdallah

Lakhlef

2018

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Distributed and efficient algorithm for self-reconfiguration of MEMS microrobots

Lakhlef

Mabed

Bourgeois

2013

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A versatile Key Management protocol for secure Group and Device-to-Device Communication in the Internet of Things

Kandi

Lakhlef

Bouabdallah

et al. 2020

Journal of Network and Computer Applications

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HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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Parallel self-reconfiguration for MEMS microrobots

Lakhlef

Mabed

Bourgeois

2013

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An Efficient Multi-Group Key Management Protocol for Internet of Things

Kandi

Lakhlef

Bouabdallah

et al. 2018

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Internet of Things (IoT) is a network made up of a large number of devices which are able to automatically communicate to computer systems, people and each other providing various services for the benefit of society. One of the main challenges facing the IoT is how to secure communication between these devices. Among all the issues, the Group Key Management is one of the most difficult. Although different approaches have been proposed to solve it, most of them use the same security parameters to secure all communications. Thus, if several services are provided by the network, communications within a service will be accessible to all network members even those which did not subscribe to it. Moreover, the compromise of a member will jeopardize all services. In this paper, we propose a highly scalable Multi-Group Key Management protocol for IoT which ensures the forward and backward secrecy, efficiently recovers from collusion attacks and guarantees the secure coexistence of several services in a single network. To achieve this, our protocol manages several groups with independent security parameters.

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Hicham Lakhlef

Internet of things security: A top-down survey

A Decentralized Blockchain-Based Trust Management Protocol for the Internet of Things

Programmable matter as a cyber-physical conjugation

An Efficient Architecture for Trust Management in IoE Based Systems of Systems

Distributed and efficient algorithm for self-reconfiguration of MEMS microrobots

A versatile Key Management protocol for secure Group and Device-to-Device Communication in the Internet of Things

Parallel self-reconfiguration for MEMS microrobots

An Efficient Multi-Group Key Management Protocol for Internet of Things

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