Performance of WBAN under Different Matrices with Mobile Sinks
Keywords:
Consume of energy, EED, PDR, QoS, Sink node, Throughput, WBAN,Abstract
From last few years, several models for postural mobility signifies in successful deployment in form of outputs. Because the QoS based performance of WBAN are extensively controlled of different topologies. The different networks nodes are connected with other nodes with their movement pattern in different network according to this research work. In this research we observe the performance of WBAN under four performance matrices as throughput, packet delivery fraction or PDR, consumption of energy and EED. FANET is a domain and use mobile sink as a successful outcome. By using Network Simulator NS2.35 for different mobility model were tested. And finally, we obtained as mobile sink improved the performance of WBAN under different performance matrices.
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Neugebauer, Mario, JornPlonnigs, and Klaus Kabitzsch, "A new beacon order adaptation algorithm for IEEE 802.15.4 networks", IEEE Proceedings of the Second European Workshop on Wireless Sensor Networks, 2005, pp. 302-311.
Ko, Li-Chun, and Zi-Tsan Chou, "A novel multi-beacon super frame structure with greedy GTS allocation for IEEE 802.15.4 wireless pans", IEEE Wireless Communications and Networking Conference, 2007, pp. 2328-2333.
Barakah, Deena M., and Muhammad Ammad-uddin, "A survey of challenges and applications of wireless body area network (WBAN) and the role of a virtual doctor server in existing architecture", Third International Conference on Intelligent Systems Modeling and Simulation, 2012, pp. 214-219
"IEEE Standard for Local and metropolitan area networks--Part 15.4: Low-Rate Wireless Personal Area Networks (LR-WPANs)," IEEE Std 802.15.4-2011 (Revision of IEEE Std 802.15.4-2006), Vol., No., 2011, pp.1-314, 2011
H. Baldus, S. Corroy, A. Fazzi, K. Klabunde and T. Schenk, "Human-centric connectivity enabled by body-coupled communications," in IEEE Communications Magazine, vol. 47, no. 6, 2009, pp. 172-178
S. Gabriel, R. Lau, and C. Gabriel, “The dielectric properties of biological tissues: III. Parametric models for the dielectric spectrum of tissues,” Phys. Med. Biol., Vol. 41, No. 11,1996, pp. 2271–2293.
Zhen, B., Patel, M., Lee, S., Won, E. and Astrin, A., “TG6 technical requirements document (TRD)”, IEEE P802, 15(8), 2008.
J. Espina et al., “Towards Easy-to-use, Safe, and Secure Wireless Medical Body Sensor Networks,” Mobile Health Solutions for Biomedical Applications, P. Olla and J. Tan, Eds., IGI Global, 2009.
Maulin Patel, Jianfeng Wang, " Applications, challenges and prospective in emerging body area networking technologies, "IEEE, Vol. 17, No.1, 2010, pp. 80-88.
Hang Su and Xi Zhang, “Battery-Dynamics Driven TDMA MAC Protocols for Wireless Body- Area Monitoring Networks in Healthcare Applications”, IEEE Journal on Selected Areas in Communications, Vol. 27, No. 4, 2009, pp. 424-434.
HyungTae Kwon, and SuKyoungLee , “Energy-efficient multi-hop transmission in body area networks,” Proceedings of 20th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, Tokyo, 2009, pp. 2142 –2146.
N. F. Timmons, and W. G. Scanlon, “An Adaptive energy efficient MAC protocol for the medical body area network,” Proceedings of 1st International Conference on Wireless Communication, Vehicular Technology, Information Theory and Aerospace & Electronics Systems Technology (Wireless VITAE 2009), Aalborg, 2009, pp. 587 –593.
StevanJovicaMarinkovi´c, Emanuel Mihai Popovici, Christian Spagnol, Stephen Faul, and William Peter Marnane, “Energy-Efficient Low Duty Cycle MAC Protocol for Wireless Body Area Networks, “ IEEE Transactions on Information Technology in Biomedicine, Vol. 13, No. 6, 2009, pp. 915- 925.
Jingwei Liu, and Kyung Sup Kwak , “Hybrid security mechanisms for wireless body area networks,” Proceedings of 2nd IEEE International Conference on Ubiquitous and Future Networks (ICUFN 2010), Jeju Island, Korea (South), 2010, pp. 98-103.
Krishna K. Venkatasubramanian, Ayan Banerjee, and Sandeep Kumar S. Gupta, “PSKA: Usable and secure key agreement scheme for body area networks,” IEEE Transactions on Information Technology in Biomedicine, Vol. 14, No. 1, 2010, pp. 60-68.
Ming Li, ShuchengYu,Wenjing Lou, and Kui Ren, “ Group device pairing based secure sensor association and key management for body area networks,” Proceedings of IEEE INFOCOM 2010, San Diego, CA, 2010, pp. 1-9.
Alfadhly, A., Baroudi, U. and Younis, M., “Least distance movement recovery approach for large scale wireless sensor and actor networks,” 7th IEEE International Wireless Communications and Mobile Computing Conference, 2011, pp. 2058-2063.
BishalLamichhane, Steven Mudda, Francesco Regazzoni, and Alessandro Puiatti, “LEXCOMM: A low energy, secure and flexible communication protocol for a heterogeneous body sensor network,” Proceedings of the IEEE-EMBS International Conference on Biomedical and Health Informatics (BHI 2012), Hong Kong and Shenzhen, China, 2012, pp. 273-276.
Qinghua Shen, and Weihua Zhuang , “Energy efficient scheduling for delay constrained communication in wireless body area networks,” Proceedings of IEEE Global Communications Conference (GLOBECOM 2012), Anaheim, CA, 2012, pp. 262-267.
A. Rahim and N. C. Karmakar, "Sensor cooperation in wireless body area network using network coding for sleep apnoea monitoring system", Proc. IEEE 8th Int. Conf. Intell. Sensors Sensor Netw. Inf. Process., 2013, pp. 432-436.
Attard, S. , and Zammit, S., “Effect of Human Movement on the Body Coupled Communications Channel in Body Area Networks,” Proceedings of IEEE EUROCON, Zagreb, 2013, pp. 335 –339.
Lu Shi , Ming Li, Shucheng Yu, and Jiawei Yuan, “BANA: Body area network authentication exploiting channel characteristics,” IEEE Journal on Selected Areas in Communications, Vol. 31, No. 9, 2013, pp. 1803–1816.
Nikhil Argade, and Gill R. Tsouri, “Dynamic Routing Trees with Energy Harvesting Constraints for Wireless Body Area Networks,” Proceedings of the 8th ACM International Conference on Body Area Networks, BodyNets '13 , Boston, U.S., 2013, pp. 377- 382.
S. Movassaghi, M. Shirvanimoghaddam, M. Abolhasan and D. Smith, "An energy efficient network coding approach for wireless body area networks", Proc. 38th Annu, IEEE Conf. Local Comput. Netw., 2013, pp. 468-475.
Young Rok Jang, Yongok Kim, Jang-Won Lee, Daesik Hong, and SooyongChoi,“Adaptive Queue Management Scheme for WBAN with Energy Harvesting,” ,” Proceedings ofthe 8thACM International Conference on Body Area Networks, BodyNets '13 , Boston, U.S , 2013, pp. 201-204.
Jingwei Liu,Zonghua Zhang, Xiaofeng Chen, and Kyung Sup Kwak , “Certificate less remote anonymous authentication schemes for wireless body area networks,” IEEE Transactions on Parallel And Distributed Systems, Vol. 25, No. 2, 2014, pp. 332-342.
Bhatia, A., & Patro, R. K., “PMAC: A poll-based MAC protocol for wireless body area networks (WBANs)”, IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS), 2016, pp. 1-6.
Ha Ilkyu, ‘‘Even energy consumption and backside routing: An improved routing protocol for effective data transmission in wireless body area networks,’’ Int. J. Distrib. Sensor Netw., Vol. 12, No. 7, 2016, pp. 1–11.
Kathe, K. S., & Deshpande, U. A., “A Thermal Aware Routing Algorithm for a wireless body area network”, Wireless Personal Communications, 105(4), 2019, pp. 1353-1380.
Pushpan, S., &Velusamy, B., “Fuzzy-based dynamic time slot allocation for wireless body area networks”, Sensors, 19(9), 2019, pp. 2112.
Ullah, Z., Ahmed, I., Khan, F. A., Asif, M., Nawaz, M., Ali, T., ...& Niaz, F., “Energy- efficient Harvested-Aware clustering and cooperative Routing Protocol for WBAN (E-HARP)”, IEEE Access, 7, 2019, pp. 100036-100050.
Banuselvasaraswathy, B., &Rathinasabapathy, V., “Self-heat controlling energy efficient OPOT routing protocol for WBAN”, Wireless Networks, 2020, pp. 1-12.
Mehmood, G., Khan, M. Z., Abbas, S., Faisal, M., & Rahman, H. U., “An Energy- Efficient and Cooperative Fault-Tolerant Communication Approach for Wireless Body Area Network”, IEEE Access, 8, 2020, pp. 69134-69147.
Shahbazi, Z., & Byun, Y. C., “Towards a Secure Thermal-Energy Aware Routing Protocol in Wireless Body Area Network Based on Blockchain Technology”, Sensors, 20 (12), 2020, pp. 3604.
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