A Comprehensive Study of the Impact of Beacon Order and Superframe Order Values on Quality of Service in Multi-hop Wireless Networks on IEEE 802.15.4
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The beacon order and Superframe order parameter values, as defined by the IEEE 802.15.4 standard specification, constrain the number of data packets that can be transmitted through a network in a given period by inferring the length of the network’s active and inactive periods. Choosing a specific value of either parameter can have significant impact on various quality of service measurements. This study offers a synthesis of the execution result of a large number of networking simulations, carried out using the NS2 tool. The simulations describe networking situations of varying beacon order and Superframe order values, as well as the number of full-function devices and reduced-function devices in randomized topologies. The performance of the networks in each simulation is assessed through measuring standard quality of service measurements, such as the package delivery ratio, throughput, average delay, and consumed energy. The analysis shows that the characteristic curves describing the progression of the quality of service measurements do not vary significantly with respect of the number of devices that comprise a network within the range of simulated values.
KeywordsIEEE 802.15.4 Wireless Personal Area Network (WPAN) Superframe Beacon-enabled Quality of service
- 1.LAN/MAN Standards Committee. (2003). Part 15.4: Wireless medium access control (MAC) and physical layer (PHY) specifications for low-rate wireless personal area networks (LR-WPANs). Washington: IEEE Computer Society.Google Scholar
- 4.Nourildean, S. W. (2012). A study of zigbee network topologies for wireless sensor network with one coordinator and multiple coordinators. Tikrit Journal of Engineering Sciences, 19(4), 64–80.Google Scholar
- 5.Ajgaonkar, P., Wang, L., & Alam, M. (2010). Simulation studies on ZigBee communications for home automation and networking. In AUTOTESTCON (proceedings) (pp. 329–334). IEEE. https://doi.org/10.1109/autest.2010.5613588.
- 7.Perkins, C. E., & Royer, E. M. (1999). Ad hoc on-demand distance vector routing. In Proceedings of the 2nd IEEE workshop on mobile computing systems and applications (pp. 90–100).Google Scholar
- 8.Chakeres, I. D., & Belding-Royer, E. M. (2004). AODV routing protocol implementation design. In Proceedings of the 24th international conference on distributed computing systems workshops, 2004 (pp. 698–703).Google Scholar
- 9.Kanthe, A. M., Šimunić, D., & Prasad, R. (2012). Comparison of AODV and DSR on-demand routing protocols in mobile ad hoc networks. 1st International Conference on Emerging Technology Trends in Electronics, Communication and Networking (ET2ECN), 1–5. doi:10.1109/ET2ECN.2012.6470118Google Scholar
- 10.Al Rasyid, M. U. H., Saputra, F. A., & Ismar, M. R. (2015). Performance of multi-hop networks using beacon and non-beacon scheduling in Wireless Sensor Network (WSN). In 2015 international electronics symposium (IES) (pp. 195–199). IEEE. https://doi.org/10.1109/elecsym.2015.7380840.
- 11.Rao, V. P. (2005). The simulative investigation of Zigbee/IEEE 802.15.4. Master Thesis (M.Sc.). Dresden University of Technology. Retrieved September 10, 2018, from http://www.vaddina.com/images/ZIGBEE_zigbee.pdf.
- 13.Sheraz, A., Khan, W., Bangash, J., Ullah, S., & Salam, A. (2018). Impact of Beacon Order and Superframe Order on IEEE 802.15. 4 for Nodes Association in WBAN. researchgate.net. Retrieved September 15, 2018, from https://www.researchgate.net/profile/Adil_Sheraz4/publication/322796899_Impact_of_Beacon_Order_and_Superframe_Order_on_IEEE_802154_for_Nodes_Association_in_WBAN/links/5a7065e8aca272e425ec0822/Impact-of-Beacon-Order-and-Superframe-Order-on-IEEE-802154-for-Nodes-Association-in-WBAN.pdf
- 14.Sari, R. F. (2012). Analysis of the effect of beacon order and Superframe order value to the performance of multihop wireless networks on IEEE 802.15.4 protocol. In 2012 international conference on advanced computer science and information systems (ICACSIS) (pp. 89–94).Google Scholar