Department of Electrical and Electronics Engineering
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Item Hardware validated efficient and simple Time Synchronization protocol for clustered WSN(IEEE, 2016) Chalapathi, G.S.S.; Chamola, VinayTime Synchronization in WSN is a well-researched topic. But there are very few algorithms which have been proven to be scalable and efficient on a hardware platform. We consider cluster-based network and try to improve the efficiency of the existing algorithms. Our algorithm called as Simple Algorithm for Time Synchronization (SATS) is based on an existing receiver-sender synchronization algorithm [1]. We implement it in a cluster-based topology and do its performance analysis on a large WSN test bed. Its performance is compared with commonly used regression based synchronization protocol both analytically and on the hardware platform. Our experiments show that our algorithm shows a significant improvement in terms of average synchronization error and computational efficiency over regression based method.Item E-SATS: An Efficient and Simple Time Synchronization Protocol for Cluster- Based Wireless Sensor Networks(IEEE, 2019) Chamola, Vinay; Chalapathi, G.S.S.Over the past decade, the Internet of Things (IoT) has attracted enormous interest from the research community and industry. IoT requires a synergy of various technologies, and wireless sensor networks (WSNs) are poised to play a critical role in many IoT applications like weather monitoring, smart-grids, smart-city and so on. The synchronization of local clocks of the WSN nodes is essential in many network functionalities, and thus a time synchronization protocol is required in WSNs. Although several synchronization protocols have been proposed for WSNs, most of them are simulation-based works. They make many assumptions at a high-abstraction level and do not consider the conditions of the line-of-sight (LOS) in the network. These factors significantly affect the performance of these protocols. Thus, conclusive experimental proof of the effectiveness of these protocols for different LOS conditions is required. In this direction, this paper proposes a time synchronization protocol called efficient and simple algorithm for time synchronization (E-SATS) for a cluster-based WSN. In this paper, E-SATS has been tested on a large-sized WSN testbed in different LOS scenarios and compared with the existing state-of-the-art protocols. E-SATS outperformed existing protocols by achieving up to six times better accuracy as compared to existing protocols with significantly lesser computations and energy consumption.