Abstract
Wireless energy transfer is the transmission of electrical energy without the use of wires. The use of WET in the management of energy creates a new class of network, i.e., the wireless rechargeable sensor networks. This paper presents a systematic review on wireless charging of sensors nodes in wireless sensor networks and explores the comparison of recognized works. A lot of optimization techniques for designing energy-efficient traveling paths and optimal stopping locations of the WCV has been presented to improve the charging efficiency of WCV. This paper discusses the current work on movement cost of wireless charging vehicles, optimal stopping time of WCV, trajectory design, and conservation of energy. Furthermore, it also enlightens charger placement problems and charge scheduling problems to improve the charging performance of WRSNs. Finally, the research challenges in the field of WRSNs have been proposed.
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References
Prakash S, Saroj V (2019) A review of wireless charging nodes in wireless sensor networks. In: Mishra DK, Yang X-S, Unal A (eds) Data science big data analytics. Springer, Singapore, pp 177–188
Yang Y, Wang C (2015) In: Wireless rechargeable sensor networks [Internet]. Springer International Publishing. [cited 2020 Mar 12]. Available from https://www.springer.com/gp/book/9783319176550
Xie L, Shi Y, Hou YT, Lou W, Sherali HD, Midkiff SF (2015) Multi-node wireless energy charging in sensor networks. IEEEACM Trans Netw 23:437–450
Guo S, Wang C, Yang Y (2014) Joint mobile data gathering and energy provisioning in wireless rechargeable sensor networks. IEEE Trans Mob Comput IEEE 13:2836–2852
Dong Y, Wang Y, Li S, Cui M, Wu H (2019) Demand-based charging strategy for wireless rechargeable sensor networks. ETRI J 41:326–336
Rahman A-B, Saleem N, Ahmad F, Rizwan M (2019) Energy optimization in wireless rechargeable sensor networks. Int J Sci Res Publ IJSRP 9:8860
Zhao C, Zhang H, Chen F, Chen S, Wu C, Wang T (2020) Spatiotemporal charging scheduling in wireless rechargeable sensor networks. Comput Commun 152:155–170
Angelopoulos CM, Nikoletseas S, Raptis TP (2014) Wireless energy transfer in sensor networks with adaptive, limited knowledge protocols. Comput Netw 70:113–141
Zou T, Xu W, Liang W, Peng J, Cai Y, Wang T (2017) Improving charging capacity for wireless sensor networks by deploying one mobile vehicle with multiple removable chargers. Ad Hoc Netw 63:79–90
Ding X, Wang Y, Sun G, Luo C, Li D, Chen W et al (2020) Optimal charger placement for wireless power transfer. Comput Netw 170:107123
Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz) (1998) International Commission on Non-Ionizing Radiation Protection. Health Physics. 74:494–522
Chen J, Yu CW, Ouyang W (2020) Efficient wireless charging pad deployment in wireless rechargeable sensor networks. IEEE Access 8:39056–39077
Wang K, Wang L, Obaidat MS, Lin C, Alam M (2020) Extending network lifetime for wireless rechargeable sensor network systems through partial charge. IEEE Syst J 1–11
Buˇcar D (2014) Electric vehicles recharge scheduling with time windows [PhD Thesis]. Master’s thesis, Faculty of Informatics, Vienna University of Technology
Ki Y, Kim B-I, Ko YM, Jeong H, Koo J (2018) Charging scheduling problem of an M-to-N electric vehicle charger. Appl Math Model 64:603–614
Fan Z, Jie Z, Yujie Q (2018) A survey on wireless power transfer based charging scheduling schemes in wireless rechargeable sensor networks. In: 2018 IEEE 4th International conference control science systems engineering ICCSSE. pp 194–198
Wang K, Wang L, Lin C, Obaidat MS, Alam M (2020) Prolonging lifetime for wireless rechargeable sensor networks through sleeping and charging scheduling. Int J Commun Syst n/a:e4355, Wiley Ltd
Nguyen TN, Liu B, Chu S, Do D, Nguyen TD (2020) WRSNs: toward an efficient scheduling for mobile chargers. IEEE Sens J 1–1
Wang C, Li J, Ye F, Yang Y (2016) A mobile data gathering framework for wireless rechargeable sensor networks with vehicle movement costs and capacity constraints. IEEE Trans Comput 65:2411–2427
Wang C, Li J, Ye F, Yang Y (2015) Improve Charging capability for wireless rechargeable sensor networks using resonant repeaters. In: 2015 IEEE 35th International conference distribution computing systems 2015, pp 133–42
Ou C-H, Liang H, Zhuang W (2015) Investigating wireless charging and mobility of electric vehicles on electricity market. IEEE Trans Ind Electron 62:3123–3133
Wang C, Li J, Yang Y (2015) Low-latency mobile data collection for wireless rechargeable sensor networks. In: 2015 IEEE international conference communications ICC. pp 6524–6529
Tomar A, Jana PK (2017) Designing energy efficient traveling paths for multiple mobile chargers in wireless rechargeable sensor networks. In: 2017 Tenth international conference contemporary computing IC3, pp 1–6
Tomar A, Nitesh K, Jana PK (2020) An efficient scheme for trajectory design of mobile chargers in wireless sensor networks. Wirel Netw
Panneerselvam J, Hardy J, Liu L, Yuan B, Antonopoulos N (2016) Mobilouds: an energy efficient MCC collaborative framework with extended mobile participation for next generation networks. IEEE Access 4:9129–9144
Lin C, Wu Y, Liu Z, Obaidat MS, Yu CW, Wu G (2016) GTCharge: a game theoretical collaborative charging scheme for wireless rechargeable sensor networks. J Syst Softw 121:88–104
Wang C, Li J, Ye F, Yang Y (2014) Recharging schedules for wireless sensor networks with vehicle movement costs and capacity constraints. In: 2014 Eleventh annual IEEE international conference sensors communications networks SECON. pp 468–76
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Gupta, S., Akhtar, M.A.K. (2021). A Review of Wireless Charging in WSN. In: Chakraborty, M., Jha, R.K., Balas, V.E., Sur, S.N., Kandar, D. (eds) Trends in Wireless Communication and Information Security. Lecture Notes in Electrical Engineering, vol 740. Springer, Singapore. https://doi.org/10.1007/978-981-33-6393-9_27
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