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Wireless Personal Communications
Erschienen in: Wireless Personal Communications 1/2021

11.12.2019

An Efficient Data Delivery Scheme in WBAN to Deal with Shadow Effect due to Postural Mobility

verfasst von: Reema Goyal, R. B. Patel, H. S. Bhaduria, Devendra Prasad

Erschienen in: Wireless Personal Communications | Ausgabe 1/2021

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Abstract

The body movement and change in posture exhibit high mobility in sensor nodes which causes shadowing in the Wireless Body Area Network (WBAN). Due to this, the connectivity between the nodes in WBAN is affected which further causes failure in data delivery. This article presents a MAC protocol in WBAN to deal with the problem of data delivery due to body movement and postural mobility. It uses an Improved Initial Centroid K-means clustering technique for classification of various human body postures followed by back propagation neural network as a classifier to recognize human body posture. This article proposes a posture aware dynamic data delivery (PA-DDD) protocol to deliver data dynamically. The PA-DDD protocol can be used under varying speed walking scenario. The simulation results show that it prolongs the network lifetime and is energy efficient.
Vorheriger Artikel An Enhanced and Secure Cloud Infrastructure for e-Health Data Transmission
Nächster Artikel Mobile-Based Self-Monitoring for Preventing Patients with Type 2 Diabetes Mellitus and Hypertension from Cardiovascular Complication

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Literatur
1.
Alvarez-Alvarez, A., Trivino, G., & Cordón, O. (2011). Body posture recognition by means of a genetic fuzzy finite state machine. In: 2011 IEEE 5th international workshop on genetic and evolutionary fuzzy systems (GEFS), pp. (60–65). IEEE.
2.
Ansari, A.R., & Cho, S. (2014). Human body: The future communication channel for WBAN. In: The 18th IEEE international symposium on consumer electronics (ISCE 2014), (pp. 1–3). IEEE.
3.
Argyriou, A., Breva, A. C., & Aoun, M. (2015). Optimizing data forwarding from body area networks in the presence of body shadowing with dual wireless technology nodes. IEEE Transactions on Mobile Computing, 14(3), 632–645.CrossRef
4.
Chen, Y., & Zhao, Q. (2007). An integrated approach to energy-aware medium access for wireless sensor networks. IEEE Transactions on Signal Processing, 55(7), 3429–3444.MathSciNetCrossRef
5.
Conan, V., Leguay, J., & Friedman, T. (2008). Fixed point opportunistic routing in delay tolerant networks. IEEE Journal on Selected Areas in Communications, 26(5), 773–782.CrossRef
6.
Feng, W., Fengye, H., Lu, W., Yu, D., Xiaolan, L., & Gang, G. (2015). Energy-efficient medium access approach for wireless body area network based on body posture. China Communications, 12(12), 122–132.CrossRef
7.
Hauer, J. H. (2014). Leveraging human mobility for communication in body area networks. ACM Transactions on Sensor Networks (TOSN), 10(3), 39.CrossRef
8.
Heinzelman, W. B., Chandrakasan, A. P., & Balakrishnan, H. (2002). An application-specific protocol architecture for wireless microsensor networks. IEEE Transactions on Wireless Communications, 1(4), 660–670.CrossRef
9.
Hu, T., Zhang, Y., Wang, G., Wang, L., & Fan, X. (2011). Research of a system for monitoring body posture based on wireless sensor networks. In: 2011 7th international conference on wireless communications, networking and mobile computing (WiCOM), (pp. 1–4). IEEE.
10.
Janani, K., Dhulipala, V. S., & Chandrasekaran, R. (2011). A WSN based framework for human health monitoring. In: 2011 international conference on devices and communications (ICDeCom), (pp. 1–5). IEEE.
11.
Jones, E. P., & Ward, P. A. (2006). Routing strategies for delay-tolerant networks. ACM Computer Communication Review (CCR), (Submitted).
12.
Kang, T., Oh, K. I., Park, H., & Kang, S. (2016). Review of capacitive coupling human body communications based on digital transmission. ICT Express, 2(4), 180–187.CrossRef
13.
Kwak, K. S., Ullah, S., & Ullah, N. (2010). An overview of IEEE 802.15. 6 standard. In: 2010 3rd international symposium on applied sciences in biomedical and communication technologies (ISABEL 2010), (pp. 1–6). IEEE.
14.
Leguay, J., Friedman, T., & Conan, V. (2005). Evaluating mobility pattern space routing for dtns. arXiv preprint arXiv:​cs/​0511102.
15.
Leguay, J., Friedman, T., & Conan, V. (2007). Evaluating mobyspace-based routing strategies in delay-tolerant networks. Wireless Communications and Mobile Computing, 7(10), 1171–1182.CrossRef
16.
Li, H., & Sun, Q. (2013). The recognition of moving human body posture based on combined neural network. In IEEE Conference Anthology, (pp. 1–5). IEEE.
17.
Lindgren, A., Doria, A., & Schelén, O. (2003). Probabilistic routing in intermittently connected networks. ACM SIGMOBILE Mobile Computing and Communications Review, 7(3), 19–20.CrossRef
18.
Møller, M. F. (1993). A scaled conjugate gradient algorithm for fast supervised learning. Neural Networks, 6(4), 525–533.CrossRef
19.
Nechayev, Y. I., Hall, P. S., Constantinou, C. C., Hao, Y., Alomainy, A., Dubrovka, R., & Parini, C. G. (2005). On-body path gain variations with changing body posture and antenna position. In: 2005 IEEE antennas and propagation society international symposium, (Vol. 1, pp. 731–734). IEEE.
20.
Quwaider, M., & Biswas, S. (2010). Dtn routing in body sensor networks with dynamic postural partitioning. Ad Hoc Networks, 8(8), 824–841.CrossRef
21.
Reusens, E., Joseph, W., Vermeeren, G., Martens, L., Latré, B., Moerman, I., Braem, B., & Blondia, C. (2007). Path loss models for wireless communication channel along arm and torso: Measurements and simulations. In: 2007 IEEE antennas and propagation society international symposium, (pp. 345–348).
22.
Ryckaert, J., De Doncker, P., Meys, R., de Le Hoye, A., & Donnay, S. (2004). Channel model for wireless communication around human body. Electronics Letters, 40(9), 543–544.CrossRef
23.
Sabti, H. A., & Thiel, D. V. (2014). Node position effect on link reliability for body centric wireless network running applications. IEEE Sensors Journal, 14(8), 2687–2691.CrossRef
24.
Sabti, H. A. A., & Thiel, D. V. (2015). Self-calibrating body sensor network based on periodic human movements. IEEE Sensors Journal, 15(3), 1552–1558.CrossRef
25.
Sharma, N., Singh, K., & Singh, B. (2018). An enhanced-simple protocol for wireless body area networks. Journal of Engineering Science and Technology, 13(1), 196–210.
26.
Shen, H., Ding, Z., Dasgupta, S., & Zhao, C. (2014). Multiple source localization in wireless sensor networks based on time of arrival measurement. IEEE Trans Signal Processing, 62(8), 1938–1949.MathSciNetCrossRef
27.
Yedla, M., Pathakota, S. R., & Srinivasa, T. (2010). Enhancing k-means clustering algorithm with improved initial center. International Journal of Computer Science and Information Technologies, 1(2), 121–125.
28.
Metadaten
Titel
An Efficient Data Delivery Scheme in WBAN to Deal with Shadow Effect due to Postural Mobility
verfasst von
Reema Goyal
R. B. Patel
H. S. Bhaduria
Devendra Prasad
Publikationsdatum
11.12.2019
Verlag
Springer US
Erschienen in
Wireless Personal Communications / Ausgabe 1/2021
Print ISSN: 0929-6212
Elektronische ISSN: 1572-834X
DOI
https://doi.org/10.1007/s11277-019-06997-5

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