Energy-Efficient Data Route-in-Network Aggregation with Secure EEDRINA

Abstract

Wireless sensor network (WSN) is one in every of the rising technologies inside the place of networking, wherein a set of spatially dispersed self-sufficient sensor nodes work together to perform some given project-important task. In WSN, performing data aggregation and routing protocol is identified as the principle additives. In designing WSN, limitation of strength, data aggregation, and security are the major challenges. To reduce strength consumption at the same time as transferring data from source to destination, data must be aggregated. However, data aggregation or routing protocols requires adequate security features to maintain data safe both in aggregation or transmission. The set of rules we used for routing protocols and safety additionally has an impact in energy. Extended Data Routing for In-Network Aggregation (EDRINA) and Energy-Efficient Data Routing for In-Network Aggregation (EEDRINA) are some of data aggregation protocols that designed with the aim of reducing the number of transmissions and saving energy. However, they lack required level of security. This paper presents performance evaluation of EEDRINA and proposes Secure EEDRINA (SEEDRINA). SEEDRINA has efficient energy aggregation and identity-based digital signature feature. Efficient energy aggregation balances the energy of WSN. Whereas, Identity-Based Digital Signature is used to provide security in the data transmission in EEDRINA. SEEDRINA outperforms the existing algorithm.