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Erschienen in:
Optimization of Network Mapping for Screening and Intrusion Sensing Devices Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Sensor Node Design Optimization Methods for Enhanced Energy Efficiency in Wireless Sensor Networks

verfasst von : Arpita Choudhary, N.C Barwar

Erschienen in: Cryptology and Network Security with Machine Learning

Verlag: Springer Nature Singapore

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Abstract

In recent years, there has been a significant surge in interest in WSNs among researchers and the general public. WSNs are purposefully designed to cater to a broad spectrum of applications, ranging from compact healthcare surveillance systems to extensive environmental monitoring projects. The WSN ecosystem encompasses a multitude of sensor nodes/devices that interconnect billions of diverse objects via the Internet. These sensors nodes are predominantly low-energy devices engineered for intermittent or continuous transmission. Consequently, the significance of energy efficiency (EE) in WSNs cannot be overstated. Driven by this imperative, conserving energy in such systems to extend their lifetime has been the subject of significant research. The design and architecture of sensor nodes play a significant role in energy efficiency. In this paper, we will talk about various optimization techniques that can be used to improve their performance. These include selection and comparison of low-power components, Dynamic Voltage Scaling, energy harvesting, and optimizing the power supply. By focusing on node design considerations, this paper provides insights into of diverse sensor node design optimization techniques tailored to enhance energy efficiency within WSNs. Explored the trifold areas of energy consumption, hardware optimization strategies, and advancements in energy harvesting, elaborating their roles in advancing energy efficiency within WSNs.

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Literatur
1.
Vieira MAM, Coelho CN, Da Silva D, da Mata JM (2003) Survey on wireless sensor network devices. In: EFTA 2003. 2003 IEEE conference on emerging technologies and factory automation. Proceedings (Cat. No. 03TH8696), vol 1. IEEE, pp 537–544
2.
Rault T, Bouabdallah A, Challal Y (2014) Energy efficiency in wireless sensor networks: a top-down survey. Comput Netw 67:104–122CrossRef
3.
Raghunathan V, Ganeriwal S, Srivastava M (2006) Emerging techniques for long lived wireless sensor networks. IEEE Commun Mag 44(4):108–114CrossRef
4.
Adu-Manu K, Tapparello C, Heinzelman W, Katsriku F, Abdulai JD (2017) Water quality monitoring using wireless sensor networks: current trends and future research directions. ACM Trans Sens Netw 13:1–41CrossRef
5.
6.
Anastasi G, Coti M, Frrancesco M, Passarella A (2009) Energy conservation in wireless sensor networks: a survey. Ad Hoc Network. Meeting challenges in IoT: sensing, energy efficiency, and the implementation. Fourth international congress on information and communication technology. Springer, Singapore, pp 419–430
7.
Chang T, Tuset-Peiro P, Vilajosana X, Watteyne T (2016) OpenWSN & OpenMote: demo’ing a complete ecosystem for the industrial internet of things. In: 2016 13th annual IEEE international conference on sensing, communication, and networking (SECON). IEEE, pp 1–3
8.
Chen Y, Zhao Q (2005) On the lifetime of wireless sensor networks. IEEE Commun Lett 9(11):976–978CrossRef
9.
Engmann F, Katsriku FA, Abdulai J-D, Adu-Manu KS, Banaseka FK (2018) Prolonging the lifetime of wireless sensor networks: a review of current techniques. Wirel Commun Mob Comput 2018
10.
Aziz AA, Sekercioglu YA, Fitzpatrick P, Ivanovich M (2013) A survey on distributed topology control techniques for extending the lifetime of battery powered wireless sensor networks. IEEE Commun Surv Tutor 15:121–144CrossRef
11.
Guo YJ, Ziolkowski RW (eds) (2022) Antenna and array technologies for future wireless ecosystems. Wiley. ISBN: 978-1-119-81388-0
12.
Sayed E, Ahmed A, Yousef ME (2019) Internet of things in smart environment: concept, applications, challenges, and future directions. World Sci News 134:1–51
13.
14.
Akyildiz IF, Su W, Sankarasubramaniam Y, Cayirci E (2002) A survey on sensor networks. IEEE Commun Mag 40(8):102–105CrossRef
15.
16.
Raghunathan V, Kansal A, Hsu J, Friedman J, Srivastava M (2005) Design considerations for solar energy harvesting wireless embedded systems. In: 2005 4th International symposium on information processing in sensor networks, vol 2005. IPSN 2005, pp 457–462
17.
Hamachiyo T, Yokota Y, Okubo E (2010) A cooperative power-saving technique using DVS and DMS based on load prediction in sensor networks. In: Proceedings of the 4th international conference on sensor technologies and applications (SENSORCOMM), Venice, Italy, 18–25 July 2010, pp 7–12
18.
Chaniyara PM (2021) Design of low voltage LDO voltage regulator for battery operated wireless sensor nodes. In: Arunachalam V, Sivasankaran K (eds) Microelectronic devices, circuits and systems. ICMDCS 2021. Communications in computer and information science, vol 1392. Springer, Singapore. https://​doi.​org/​10.​1007/​978-981-165048-2_​19
19.
Wan Z, Tan Y, Yuen C (2011) Review on energy harvesting and energy management for sustainable wireless sensor networks. In: Proceedings of the IEEE 13th international conference on communication technology (ICCT), Jinan, China, 25–28 Sept 2011, pp 362–367
20.
Sudevalayam S, Kulkarni P (2011) Energy harvesting sensor nodes: survey and implications. IEEE Commun Surv Tutorials 13:443–461CrossRef
21.
Ibrahim H, Ilinca A, Perron J (2008) Energy storage systems—characteristics and comparisons. Renew Sustain Energy Rev 12(5):1221–1250CrossRef
22.
Yetgin H, Cheung KTK, El-Hajjar M, Hanzo LH (2017) A survey of network lifetime maximization techniques in wireless sensor networks. IEEE Commun Surv Tutorials 19(2):828–854
23.
Buchmann I et al (2001) Batteries in a portable world: a handbook on rechargeable batteries for non-engineers. Cadex Electronics Richmond
24.
Ulukus S, Yener A, Erkip E, Simeone O, Zorzi M, Grover P, Huang K (2015) Energy harvesting wireless communications: a review of recent advances. IEEE J Sel Areas Commun 33(3):360–381
25.
Niu J, Conway BE, Pell WG (2004) Comparative studies of self-discharge by potential decay and float-current measurements at C double-layer capacitor and battery electrodes. J Power Sour 135(1–2):332–343CrossRef
Metadaten
Titel
Sensor Node Design Optimization Methods for Enhanced Energy Efficiency in Wireless Sensor Networks
verfasst von
Arpita Choudhary
N.C Barwar
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
Buch
Cryptology and Network Security with Machine Learning

Print ISBN: 978-981-9706-40-2

Electronic ISBN: 978-981-9706-41-9

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-981-97-0641-9_15

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