ANALYSIS OF ENERGY CONSUMPTION IN WIRELESS BODY AREA NETWORK USINGMAC PROTOCOLS (BASELINE AND SMAC)

REZHEEN R.  HUSSEIN; ISMAIL A.  ALI

doi:10.26682/sjuod.2022.25.1.13

REZHEEN R. HUSSEIN Dept. of Electrical and Computer Engineering, College of Engineering University of Duhok, Kurdistan Region-Iraq
ISMAIL A. ALI Dept. of Electrical and Computer Engineering, College of Engineering University of Duhok, Kurdistan Region-Iraq

DOI: https://doi.org/10.26682/sjuod.2022.25.1.13

Keywords: 1-WBAN. 2-Baseline MAC and SMAC. 3- IEEE 802.15.6. 4- Castalia .5- Energy Efficiency.

Abstract

A Wireless Body Area Network (WBAN) is a short-range network that consists of a coordinator and a gathering of low-power sensors that can be embedded in, or attached to the human body. A WBAN can be used for a diversity of new uses which including online health control, home/health care, pharmacy, multimedia, and sports, among many more, all of which take advantage of the unrestricted mobility that WBANs can provide. In the medical industry, for example, a patient may be fitted with a WBAN of sensors that continuously track basic biological functions including temperature, blood pressure, heart rate, electrocardiogram (ECG), breathing, and so on. The patient does not have to lie in bed and can move around freely in the room or even leave the hospital for a short period of time. This increases the patient's feature of life while further lowering treatment costs. Furthermore, evidence gathered over a prolonged period of time and in the patient's natural habitat provides more useful knowledge, allowing for a more definitive and, in some cases, quicker diagnosis. Sensors connected to the human body are normally battery-powered devices with brief lifetimes. Institute of Electrical and Electronics Engineers (IEEE) 802.15.6 standard is the typical choice for low power ingestion and reliable short-range communication for Wireless Body Sensor Networks (WBSNs). The effects are demonstrated using the Omnet++ simulator and its Castalia extension for WBANs

Downloads

Download data is not yet available.

References

Alam, M. (2014). Surveying Wearable Human Assistive Technology for Life and Safety Critical Applications: Standards, Challenges and Opportunities. Sensors, 14, 9153-9209. doi: 10.3390/s140509153
Almazroa, A., & Rikli, N.-E. (2014). Performance evaluation of IEEE 802.15.6 MAC in WBANs - A case study.
Arefin, M., Ali, M. and Haque, A. (2017). Wireless Body Area Network: An Overview and Various Applications. Journal of Computer and Communications, 5, 53-64. doi: doi: 10.4236/jcc.2017.57006.
Boulis, A. (2013). Castalia,version 3.2. A simulator for WSNs and BANs ,user‟s Manual. from https://forge.nicta.com.au/frs/?group_id=301,https://github.com/alexlacerda/Castalia-3.2_OMNeT-IDE_Windows_Linux/archive/master.zip
Dr. Joy, I. Z. C. a. L., T. Y. (2020). Data Forwarding in Wireless Body Area Networks. Journal of Electronics and Informatics, 02, 80-87.
El azhari, M. (2014). Study of MAC Protocols for Mobile Wireless Body Sensor Networks. Network and Complex Systems.
Goyal, R., Bhadauria, H., Patel, R., & Prasad, D. (2017). TDMA based delay sensitive and energy efficient protocol for wban. Journal of Engineering Science and Technology, 12, 1067-1080.
Igor Khromova , M. K. a. b. V. (September 2021). A survey on energy efficiency intrabody communication techniques for wearable devices. Nano Communication Networks, 29.
Kaur, J. (2016). MAC Protocol for WBAN. International Research Journal of Engineering and Technology (IRJET), p. 287- 293.
Lu, Z., Khan, Z., & Iqbal, M. (2013). Fast polling mechanism for baseline BAN MAC (802.15.6) of body area networks. Procedia Computer Science, 19. doi: 10.1016/j.procs.2013.06.130
Marwa S., A. A.-D., Imed Romdhani, and Youssef Nasser (Feb. 2018). Reliability and Energy Efficiency Enhancement for Emergency-Aware WBANs. IEEE Journal.
Mrs, P., Mohnani, P., & Jabeen, F. (2016). Power efficient, Reliable and Secure Wireless Body Area Network.
Negra, R., Jemili, I., & Belghith, A. (2016). Wireless Body Area Networks: Applications and Technologies (Vol. 83).
Pruthviraj Rajaram Ghatge, S. T. M. ( June -2017). A Survey- Energy efficient techniques in WBAN. International Research Journal of Engineering and Technology (IRJET), 04(06).
S. Ullah, M. M., M.A. Alnuem. (17 OCTOBER 2018). A Review of IEEE 802.15.6 MAC, PHY, and Security Specifications. nternational Journal of Distributed Sensor Networks.
Sultana, N., Huq, F., Razzaque, M. A., & Rahman, M. M. (2019). Prioritized IEEE 802.15.6 MAC Protocol for Wireless Body Area Network.
Ullah, S., & Tovar, E. (2015). Performance analysis of IEEE 802.15.6 contention-based MAC protocol.
Yuan, D., Zheng, G., Ma, H., Shang, J., & Li, J. (2019). An Adaptive MAC Protocol Based on IEEE802.15.6 for Wireless Body Area Networks. Wireless Communications and Mobile Computing, 2019, 3681631. doi: 10.1155/2019/3681631