Recent Trends in Sensor Research & Technology

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The Internet of things (IoT) is a group of physical objects with sensor, processing capability and technologies that can connect and interchange data with other devices and systems over the Internet or other communications networks. A Wireless Sensor Network is a network of sensing nodes that collaboratively sense and monitor any system or object or area. This consists of sensors, actuator, gateways, clients etc. These nodes observe the collected data and transmit them by hopping. These devices can be ordinary household devices, appliances or any other industrial device or machine etc. This field is an example of convergence of multiple technologies. In this paper, some recent important works in the field of Internet of things and wireless sensor networks done by researchers are reviewed. The major highlights of these works are also mentioned in this paper. This paper also lists the outcomes of these works considered by the researchers. There are billions of connected IoT devices today. The scientists expect that the number of devices can multiply every year in a regular manner. This paper can accelerate further research in this area

Internet of things, wireless sensor networks, energy efficient routing, reduced delay, reduced path length, improved throughput, minimized energy, increased lifetime, hop count, improved services

S. B. Hmaid and V. Vasanthi, “Proficient Empirical Optimization Techniques and Routing Protocols for Internet of Things Networks”, International Journal of Computer Applications, 174, pp. 24-28 (2021).

S. Park, N. Crespi, H. Park and S. H. Kim, “IoT routing architecture with autonomous systems of things”, In Proc. 2014 IEEE World Forum on Internet of Things (WF-IoT), pp. 442-445 (2014).

R. Fantacci, T. Pecorella, R. Viti and C. Carlini, “A network architecture solution for efficient IoT WSN backhauling: challenges and opportunities”, IEEE Wireless Communications, 21, pp. 113-119 (2014).

P. Rajpoot, S. H. Singh, R. Verma, K. Dubey, S. K. Pandey and S. Verma, “Multi-factor-Based EnergyEfficient Clustering and Routing Algorithm for WSN”, In Soft Computing: Theories and Applications, Springer, Singapore, pp. 571-581 (2020).

S. Mohapatra and P. Kanungo, “Performance analysis of AODV, DSR, OLSR and DSDV routing protocols using NS2 Simulator”, Procedia Engineering, 30, pp. 69- 76 (2012).

Z. Fei, B. Li, S. Yang, C. Xing, H. Chen and L. Hanzo, “A survey of multi-objective optimization in wireless sensor networks: Metrics, algorithms, and open problems”, IEEE Communications Surveys and Tutorials, 19, pp. 550-586 (2016).

S. Y. Shahdad, M. Khan, H. Sultana, M. A. Hussain and S. M. Bilfaqih, "Routing Protocols for Constraint Devices Internet of Things Network", 2019 International Conference on Communication and Signal Processing (ICCSP), pp. 0114-0117 (2019).

M. S. Pan, and S. W. Yang, “A lightweight and distributed geographic multicast routing protocol for IoT applications”, Computer Networks, 112, pp. 95–107 (2017).

S. Rani, R. Talwar, J. Malhotra, S. H. Ahmed, M. Sarkar, and H. Song, “A novel scheme for an energy efficient internet of things based on wireless sensor networks”, Sensors, 15, pp. 28603–28626 (2015).

T. Shu and S. Cui, “Renovating location-based routing for integrated communication privacy and efficiency in IoT”, In IEEE international conference on communications (ICC), pp. 1–6, (2017).

M. Z. Hasan, and F. Al-Turjman, “Optimizing multipath routing with guaranteed fault tolerance in internet of things”, IEEE Sensors Journal, 17, pp. 6463– 6473 (2017).

J. Xie, L. Lyu, Y. Deng and L. T. Yang, “Improving routing performance via dynamic programming in large-scale data centers”, IEEE Internet of Things Journal, 2, pp. 321–328 (2015).