2 research outputs found
Secure Clustering in DSN with Key Predistribution and WCDS
This paper proposes an efficient approach of secure clustering in distributed
sensor networks. The clusters or groups in the network are formed based on
offline rank assignment and predistribution of secret keys. Our approach uses
the concept of weakly connected dominating set (WCDS) to reduce the number of
cluster-heads in the network. The formation of clusters in the network is
secured as the secret keys are distributed and used in an efficient way to
resist the inclusion of any hostile entity in the clusters. Along with the
description of our approach, we present an analysis and comparison of our
approach with other schemes. We also mention the limitations of our approach
considering the practical implementation of the sensor networks.Comment: 6 page
An Efficient PKC-Based Security Architecture for Wireless Sensor Networks
In spite of previous widely held belief of the incompatibility of public key
cryptography (PKC) schemes for wireless sensor networks (WSNs), some recent
works have shown that, PKC based schemes could be implemented for such networks
in some ways. The major challenge of employing a PKC scheme in wireless sensor
network is posed by the limitations of resources of the tiny sensors.
Considering this feature of the sensors, in this paper, we propose an efficient
PKC based security architecture with relatively less resource requirements than
those of the other previously proposed PKC schemes for WSN. Our security
architecture comprises basically of two parts; a key handshaking scheme based
on simple linear operations and the derivation of decryption key by a receiver
node. Our architecture allows both base-station-to-node or node-to-base-station
secure communications, and node-to-node secure communications. Analysis and
simulation results show that, our proposed architecture ensures a good level of
security for communications in the network and could effectively be implemented
using the limited computation, memory and energy budgets of the current
generation sensor nodes.Comment: 7 page