Abstract
With the wide adoption of wireless sensor network (WSN), security problems emerge as a challenging issue because of the limited computational power and energy of the sensor nodes. Furthermore, the deployment of WSN in the hostile area with a large number of nodes also poses a threat. In this paper, we proposed a new efficient key management scheme based on Elliptic Curve Cryptography (ECC) and AVL tree for large scale WSNs. In our scheme the Elliptic Curve Paillier Encryption (ECPE) cryptography is adopted for communication and the AVL tree is used to store the neighbors' ID and public key. The number of keys used in our scheme is smaller than the proposed schemes as we store these keys using AVL tree to shorten the search time. Regular key updates are also designed to further improve the security of the whole network. Our scheme has a good scalability where the node addition and deletion are supported. Experimental results and analysis show our scheme can significantly reduce the energy consumed by the node and reduce the memory and computational overhead.
Highlights
Nowadays, wireless sensor networks (WSNs) have a critical application in military, medical, and industrial sectors
The obtained results show that our scheme can significantly reduce the energy consumed by the node and reduce the memory and computational overhead
We proposed a novel efficient key management scheme based on Elliptic Curve Paillier Encryption (ECPE) public key cryptography for WSNs
Summary
Wireless sensor networks (WSNs) have a critical application in military, medical, and industrial sectors. The goal of the key management in WSNs is to establish secure links between neighbor sensors at network formation phase. We propose an efficient key management scheme built on LEACH protocol. Combined with the energy-saving property of LEACH, our scheme can significantly reduce the energy consumed by the node and extend the network lifetime. (1) We are the first to use the AVL tree to store the neighbors’ ID and public keys; less search time and computing energy are consumed in large scale WSN. (2) A combined scheme including LEACH and ECPE is proposed in which fewer keys are needed to be stored in the node. The obtained results show that our scheme can significantly reduce the energy consumed by the node and reduce the memory and computational overhead.
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