Abstract
Using ad hoc information amid of adaptable terminals, mobile ad hoc networks (MANETs) are absolute of any kind of communication infrastructure even though the communication quality might be degrade, since the mobile nodes roam in the service area and therefore the route paths have been disconnected frequently and re-established later. This has been considered as a major problem for quality metric and this proposes non uniformity in route path. To overcome this unstable state this paper introduces a new metric called route availability (RA). This paper proposes a new abstraction of RA as a metric for route non uniformity in a MANET and verifies how efficiently it represents the quality of service of a mobile network or the quality of experience of audio and video streaming. This concept is experimented with environment support and congenital ambience that emulates a MANET able of audio and video streaming. An additional parameter is developed for measuring route availability of two routing techniques are ad hoc on-demand distance vector routing and destination sequenced distance vector. This RA has been observed with metrics of quality of service like packet loss ratio, throughput. Finally the availability of the route is estimated by quality assessment test. The quality of audio and video streaming is increased with experimental results.
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References
Todoroki, H., & Takami, K. (2015). MANETs routing scheme considering remaining battery power to achieve the user requested call duration time in multimedia communication. In Proceedings of the 2nd international conference on mobile and wireless technology (ICMWT2015), Bangkok, Thailand, 22–24 June 2015.
Quang, P. T. A., Piamrat, K., Singh, K. D., & Viho, C. (2017). Video streaming over ad hoc networks: A QoE-based optimal routing solution. IEEE Transactions on Vehicular Technology, 66, 1533–1546.
Yashima, T., & Takami, K. (2016). Method of determining the relationship between audio/video QoE and route availability in a MANET. In Proceedings of the IEEE region 10 conference (TENCON), Singapore, 22–25 November 2016 (pp. 1344–1347).
International Telecommunication Union (ITU). Subjective video quality assessment methods for multimedia applications. ITU Recommendation: 1–37.
Networking:netem. Retrieved on April 10, 2018, from https://wiki.linuxfoundation.org/networking/netem.
RFC 3651—Ad hoc on-demand distance vector (AODV) routing. Retrieved February 26, 2018, from https://www.ietf.org/rfc/rfc3561.txt.
Jiang, J., Sekar, V., Milner, H., Shepherd, D., Stoica, I., & Zhang, H. (2016). CFA: A practical prediction system for video QoE optimization. In 13th USENIX symposium on networked systems design and implementation (NSDI), (Berkeley, 2016) (pp. 137–150).
Su, Z., Xu, Q., & Qi, Q. (2016). Big data in mobile social networks: A QoE-oriented framework. IEEE Network, 30(1), 52–57.
Linux Bridge and Virtual Networking. Retrieved April 15, 2018, from http://www.innervoice.in/blogs/2013/12/02/linux-bridge-virtual-networking/.
Cisco Visual Networking Index: Global Mobile Data Traffic Forecast Update, 2016–2021 White Paper. Retrieved on December 2, 2017, from https://www.cisco.com/c/en/us/solutions/collateral/service-provider/visualnetworking-index-vni/mobile-white-paper-c11-520862.html.
Wireshark. Retrieved February 20, 2018, from https://www.wireshark.org/.
RFC 7181—The optimized link state routing protocol version 2. Retrived February 26, 2018, from https://tools.ietf.org/html/rfc7181.
Su, Z., Xu, Q., Hou, F., Yang, Q., & Qi, Q. (2017). Edge caching for layered video contents in mobile social networks. IEEE Transactions on Multimedia, 19(10), 2210–2221.
Huawei. (2016). Requirements of mobile bearer network for mobile video service. White Paper, 1–8.
Scenargie. Retrieved December 28, 2017, from https://www.spacetime-eng.com/.
Big Buck Bunny. Retrieved January 10, 2018, from https://peach.blender.org/.
Okamoto, J., & Hayashi, T. (2012). Latest trends in image media quality assessment technologies. IEICE Fundamentals Review, 6, 276–284.
Purohit, K. C., Dimri, S. C., & Jasola, S. (2017). Performance evaluation of various MANET routing protocols for adaptability in VANET environment. International Journal of System Assurance Engineering and Management, 8(Suppl. 2), 690–702.
Gupta, U. S., Soni, A., & Pahare, T. (2016). Performance evaluation of routing protocols on MANET. International Journal of Engineering Trends and Technology (IJETT), 31, 153–158.
Arora, S. K., & Monga, H. (2016). Performance evaluation of MANET on the basis of knowledge base algorithm. Optik - International Journal for Light and Electron Optics, 127, 7283–7291.
Singh, G., & Kaur, K. (2012). Performance evaluation of MANET (Mobile Ad hoc Network) metrics: A comparative analysis. Saarbrucken: LAP LAMBERT Academic Publishing. ISBN: 978-3848449194.
Gupta, P., & Gupta, S. (2013). Performance evaluation of mobility models on MANET routing protocols. In Proceedings of the third international conference on advanced computing and communication technologies (ACCT), Rohtak, India, 6–7 April 2013 (pp. 248–253).
Asif, H. M., Sheltami, T. R., & Shakshuki, E. E. (2008). Power consumption optimization and delay minimization in MANET. In Proceedings of the 6th international conference on advances in mobile computing and multimedia, Linz, Austria, 24–26 November 2008.
Lal, C., Laxmi, V., Gaur, M. S., & Conti, M. (2018). Enhancing QoE for video streaming in MANETs via multi-constraint routing. Wireless Networking, 24, 235–256.
Er-rouidi, M., Moudni, H., Faouzi, H., Mouncif, H., & Merbouha, A. (2017). A fuzzy-based routing strategy to improve route stability in MANET based on AODV. In Proceedings of the international conference on networked systems, Marrakech, Morocco, 17–19 May 2017 (pp. 40–48).
Goudarzi, P., & Hosseinpour, M. (2012). QoE enhancement for video transmission over MANETs using distortion minimization. Scientia Iranica, 19, 696–706.
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Kalpana, V., Karthik, S. Route Availability with QoE and QoS Metrics for Data Analysis of Video Stream Over a Mobile Ad Hoc Networks. Wireless Pers Commun 114, 2591–2612 (2020). https://doi.org/10.1007/s11277-020-07491-z
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DOI: https://doi.org/10.1007/s11277-020-07491-z