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Title: Secure Key-distribution in IoT Cloud Networks
Authors: Moharana, Soumya Ranjan
Addya, Sourav Kanti
Satpathy, Anurag
Turuk, Ashok Kumar
Majhi, Banshidhar
Jha, V K
Keywords: Internet of Things
Cloud Computing
Lightweight cryptography
Communication channel
Issue Date: May-2017
Publisher: IEEE
Citation: 3rd International Conference on Sensing,Signal Processing and Security (ICSSS), St. Peter's College of Engineering and Technology, Chennai, Tamil Nadu, India, 4-5 May 2017
Abstract: Internet of Things (IoT) cloud networks is itself a pervasive idea where all the physical objects are connected over the internet and are allocated with special self-identifying ability to discover other potential objects to transmit data over the internet. The most important shortcoming of IoT cloud networks which needs immediate addressing is the issue of IoT nodes when used within a virtual network of a cloud system. The IoT nodes often communicate over a virtual network and this communication needs to be monitored and managed by the cloud service provider (CSP). This CSP needs to make sure that no IoT node with malicious intent can thrive in such a network. In this paper we propose a framework for the security over virtual network for IoT nodes in a cloud system. Firstly, we propose a secure key management protocol between the CSP and the user group having the IoT nodes using a balanced incomplete block design (BIBD) model. Secondly, we device a lightweight cryptographic technique involving a key exchange protocol to establish a secure end-to-end communication between the IoT nodes. Finally, we measure the efficiency and resiliency of the distribution using different metrics.
Description: Copyright for this paper belongs to proceeding publisher
Appears in Collections:Conference Papers

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