Skip to the main content

Original scientific paper

https://doi.org/10.32985/ijeces.13.1.3

A Lightweight Authentication Framework for Wireless Sensor Networks

Hakeem I Mhaibes orcid id orcid.org/0000-0002-4248-0220 ; Middle Technical University, Kut Technical Institute, Computer Center
Shahnawaz Qadir ; University of Kashmir, IT Department


Full text: english pdf 1.249 Kb

page 19-27

downloads: 265

cite


Abstract

Wireless Sensor Network (WSN) is emerging as a dominant technology with its applications in areas like agriculture, communication, environment monitoring, and surveillance. The inherited vulnerability and resource-constrained nature of sensor nodes led researchers to propose many lightweight cryptographic protocols for WSN. These sensors are low-cost, low energy, have low processing capability and have low storage restrictions. WSN suffers from many risks because of these unique constraints. This paper proposes a new lightweight security framework for WSNs and covers different lightweight cryptographic schemes for WSN applications. The aim is to provide cryptographic primitives for integrity, confidentiality, and protection from the man-in-the-middle and reply attacks. The work is based solely on symmetric cryptography and it has four phases; Network Initialization, Node Initialization, Nodes Communication, and Node Authentication. This work adopts the Low-Energy Adaptive Clustering Hierarchy (LEACH) framework, which deploys random rotation to distribute the energy among a group of nodes. The probability of attacking in LEACH is higher at cluster head and member nodes. Therefore, data transmission among communicated nodes is encrypted over multiple levels of protection by dynamic session keys to provide a high level of security. In addition, an authentication ticket is provided by a cluster head for each authenticated node to identify another node. The session keys are dynamically generated and updated during the communication to prevent compromising or capturing the keys. Through simulation and evaluation of the system, the results showed less energy consumption and efficient cryptographic primitive were compared with existing schemes

Keywords

Information Security; Lightweight Cryptography; Key Management; WSN; LEACH; Mutual Authentication

Hrčak ID:

273316

URI

https://hrcak.srce.hr/273316

Publication date:

3.2.2022.

Visits: 843 *