SeCaS: Secure capability sharing framework for IoT devices in a structured P2P network

Name: SeCaS: Secure capability sharing framework for IoT devices in a structured P2P network
Author: Aktypi, A., Çakmakçı, Kübra Kalkan, Rasmussen, K. B.

İsim	SeCaS: Secure capability sharing framework for IoT devices in a structured P2P network
Yazar	Aktypi, A., Çakmakçı, Kübra Kalkan, Rasmussen, K. B.
Basım Tarihi:	2020-03-16
Basım Yeri	- The ACM Digital Library
Konu	DHT, Fault-tolerance, IOT, Privacy, Resource sharing, Scalability
Tür	Belge
Dil	İngilizce
Dijital	Evet
Yazma	Hayır
Kütüphane:	Özyeğin Üniversitesi
Demirbaş Numarası	978-145037107-0
Kayıt Numarası	46982bcd-1b85-485a-bbee-1d518e5032ed
Lokasyon	Computer Science
Tarih	2020-03-16
Notlar	Engineering and Physical Sciences Research Council
Örnek Metin	The emergence of the internet of Things (IoT) has resulted in the possession of a continuously increasing number of highly heterogeneous connected devices by the same owner. To make full use of the potential of a personal IoT network, there must be secure and effective cooperation between them. While application platforms (e.g., Samsung SmartThings) and interoperable protocols (e.g., MQTT) exist already, the reliance on a central hub to coordinate communication introduces a single-point of failure, provokes bottleneck problems and raises privacy concerns. In this paper we propose SeCaS, a Secure Capability Sharing framework, built on top of a peer-to-peer (P2P) architecture. SeCaS addresses the problems of fault tolerance, scalability and security in resource discovery and sharing for IoT infrastructures using a structured P2P network, in order to take advantage of the self-organised and decentralised communication it provides. SeCaS brings three main contributions: (i) a capability representation that allows each device to specify what services they offer, and can be used as a common language to search for, and exchange, capabilities, resulting in flexible service discovery that can leverage the properties on a distributed hash table (DHT); (ii) a set of four protocols that provides identification of the different devices that exist in the network and authenticity of the messages that are exchanged among them; and (iii) a thorough security and complexity analysis of the proposed scheme that shows SeCaS to be both secure and scalable.
DOI	10.1145/3374664.3375739

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SeCaS: Secure capability sharing framework for IoT devices in a structured P2P network

Yazar Aktypi, A., Çakmakçı, Kübra Kalkan, Rasmussen, K. B.

Basım Tarihi 2020-03-16

Basım Yeri - The ACM Digital Library

Konu DHT, Fault-tolerance, IOT, Privacy, Resource sharing, Scalability

Tür Belge

Dil İngilizce

Dijital Evet

Yazma Hayır

Kütüphane Özyeğin Üniversitesi

Demirbaş Numarası 978-145037107-0

Kayıt Numarası 46982bcd-1b85-485a-bbee-1d518e5032ed

Lokasyon Computer Science

Tarih 2020-03-16

Notlar Engineering and Physical Sciences Research Council

Örnek Metin The emergence of the internet of Things (IoT) has resulted in the possession of a continuously increasing number of highly heterogeneous connected devices by the same owner. To make full use of the potential of a personal IoT network, there must be secure and effective cooperation between them. While application platforms (e.g., Samsung SmartThings) and interoperable protocols (e.g., MQTT) exist already, the reliance on a central hub to coordinate communication introduces a single-point of failure, provokes bottleneck problems and raises privacy concerns. In this paper we propose SeCaS, a Secure Capability Sharing framework, built on top of a peer-to-peer (P2P) architecture. SeCaS addresses the problems of fault tolerance, scalability and security in resource discovery and sharing for IoT infrastructures using a structured P2P network, in order to take advantage of the self-organised and decentralised communication it provides. SeCaS brings three main contributions: (i) a capability representation that allows each device to specify what services they offer, and can be used as a common language to search for, and exchange, capabilities, resulting in flexible service discovery that can leverage the properties on a distributed hash table (DHT); (ii) a set of four protocols that provides identification of the different devices that exist in the network and authenticity of the messages that are exchanged among them; and (iii) a thorough security and complexity analysis of the proposed scheme that shows SeCaS to be both secure and scalable.

DOI 10.1145/3374664.3375739