584 513
Full Length Article
International Journal of Wireless and Ad Hoc Communication
Volume 5 , Issue 2, PP: 50-63 , 2022 | Cite this article as | XML | Html |PDF

Title

A Proposed Optimization Framework for the Routing Protocols in Adhoc networks

  Pavan Kumar V. 1 * ,   Naveen K. 2 ,   Deva Krupakaram S. 3 ,   Mohan Reddy D. 4

1  Department of Electrical and Electronics Engineering, QIS College of Engineering and Technology, QISCET, India
    (drdmohanreddy@qiscet.edu.in)

2  Department of Electrical and Electronics Engineering, QIS College of Engineering and Technology, QISCET, India
    (devakirubakaran.s@qiscet.edu.in)

3  Department of Electrical and Electronics Engineering, QIS College of Engineering and Technology, QISCET, India
    (naveen.k@qiscet.edu.in)

4  Department of Electrical and Electronics Engineering, QIS College of Engineering and Technology, QISCET, India
    (pavankumar.v@qiscet.edu.in)

Full Text Download


Doi   :   https://doi.org/10.54216/IJWAC.050204

Received: April 12, 2022 Accepted: November 02, 2022

Abstract :

Because of recent advancements in wireless communication and networking, it is now much simpler for people to continue cultivating meaningful connections with one another. After the evolution of the IEEE 802.15.4 standard and Mobile IPv6, which is described in IETF RFC 4068, there is a demand for the design of a routing protocol based on the new architecture of wireless networks that can facilitate efficient communication. This is because the design of a routing protocol that is based on the new architecture of wireless networks is required to meet this demand. This desire has surfaced as a direct result of the necessity to design a protocol that is suitable for usage with the recently developed architecture of wireless networks. Wireless sensor networks, abbreviated as WSN for convenience, are one kind of wireless network that might run into problems with its physical layout. Scalability, energy efficiency, and efficient routing throughout the network are the three problems that need to be addressed here. It changes the way sensing operations are performed from those that can only be done on a small scale, in a centralized location, and at a high cost into those that can be done on a large scale, in a dispersed location, and at a lower cost. This is accomplished by combining extremely small battery-powered sensors with wireless networks. There are literally hundreds of different applications for wireless sensor networks that may be utilized to make complex problems easier to handle. When it comes to the great majority of applications for wireless sensor nodes, the key concern of engineers is the conservation of energy in these nodes. This becomes very important because the amount of energy consumption in sensor nodes should be maintained to a minimum in order to maximize the amount of time that a network can continue to function normally. The creation of a routing algorithm that consumes the least amount of energy possible is the major challenge presented by WSN. Clustering techniques are necessary for the maintenance of the network's available energy, and the k means clustering strategy is used during the formation of clusters in wireless sensor networks (WSN). When there is growth in the network and the topology formation changes because of scalability in the network, a new routing technique has been proposed with a k-means clustering algorithm using IPv6. The goal of this technique is to minimize energy consumption among the nodes while also maintaining a balanced distribution of energy use across the network. This was carried out with the goal of using IPv6, which has already been accomplished. The method of routing that has been presented is suitable for implementation in settings that support not only unicast and multicast routing but also any cast and multicast routing as well as multipath routing. This is done so that load balancing may be implemented successfully inside the network. In addition, research has been done to investigate the problem of finding bottleneck nodes within a WSN in order to make the process of energy conservation easier.

Keywords :

wireless sensor networks; K-Means Clustering; IPv6; the IEEE 802.15.4; routing technique; multipath routing

References :

[1] A. M. A. Z i T. G. V sis , ―Cus S g i Usi g RFM A ysis: R izi g Th ugh

Py h I i ,‖ Pacific Bus. Rev. Int., vol. 13, no. 11, pp. 24-36 WE-Emerging Sources Citation

Index (ESCI), 2021.

[2] J. Wu et al., ―A E i i S u y Customer Segmentation by Purchase Behaviors Using an RFM

Model and K -M s A g i h ,‖ Math.

Probl. Eng., vol. 2020, no. November 2017, 2020, doi:

10.1155/2020/8884227.

[3] O. D ğ , E. Ayçi , Z. A. Bu u , ―Cus S g i by Usi g RFM M C us i g

M h s: A C s S u y i R i I us y,‖ Int. J. Contemp. Econ. Adm. Sci., vol. 8, no. 1, pp. 1–19, 2018,

[Online]. Available: www.ijceas.com

[4] G. N i , ―Cus S g i Usi g,‖ . 1–7.

[5] C. P s , S. Ozu b , C. k u, ―A i i f K-Means Algorithm for Efficient Customer

S g i : A S gy f T g Cus S vi s,‖ Int. J. Adv. Res. Artif. Intell., vol. 4, no. 10, pp.

40–44, 2015, doi: 10.14569/ijarai.2015.041007.

[6] S. I wu, ―Cus S g i B s RFM M Usi g K-Means, Hierarchical and Fuzzy CM

s C us i g A g i h s,‖ . Augus 2019, 2020, i: 10.13140/RG.2.2.15379.71201.

[7] D. Devarapalli, S. Veera, V. Satya, S. Gedda , A. S. S vy , A. P. D vi, ―A ysis f RFM

Cus S g i Usi g C us i g A g i h s,‖ . F b u y 2022.

[8] R. Shi , L. S kh , S. J h v, ―Cus S g i usi g RFM M K-Means

C us i g,‖ Int. J. Sci. Res. Sci. Technol., pp. 591–597, 2021, doi: 10.32628/ijsrst2183118.

[9] Ibrahim, S. Jafar Ali, and M. Thangamani. "Prediction of Novel Drugs and Diseases for

Hepatocellular Carcinoma Based on Multi-Source Simulated Annealing Based Random Walk." Journal of

medical systems 42, no. 10 (2018): 188. https://doi.org/10.1007/s10916-018-1038-y

[10] S. J f A i Ib hi Th g i, M ―P if s I hibi s Of H u C ,‖

S ,‖ International Journal of Pure and Applied Mathematics (IJPAM) Special Issue of Mathematical

Modelling of Engineering Problems Vol 119 Issue. 15. July 2018 ISSN 1311-8080,

https://acadpubl.eu/hub/2018-119-16/1/94.pdf

[11] Bleiholder, J., & Naumann, F. (2009). Internet of Things. ACM computing surveys (CSUR), 41(1), 1-

41.

[12] Castanedo, F. (2013). A review of Internet of Things techniques. The scientific world journal, 2013.

[13] Khaleghi, B., Khamis, A., Karray, F. O., & Razavi, S. N. (2013). Multisensor Internet of Things: A

review of the state-of-the-art. Information fusion, 14(1), 28-44.

[14] Bar-Shalom, Y., Willett, P. K., & Tian, X. (2011). Tracking and Internet of Things (Vol. 11). Storrs,

CT, USA:: YBS publishing.

[15] Hall, D. L., & Llinas, J. (1997). An introduction to multisensor Internet of Things. Proceedings of the

IEEE, 85(1), 6-23.

[16] Wald, L. (1999). Some terms of reference in Internet of Things. IEEE Transactions on geoscience and

remote sensing, 37(3), 1190-1193.

[17] Meng, T., Jing, X., Yan, Z., & Pedrycz, W. (2020). A survey on machine learning for Internet of

Things. Information Fusion, 57, 115-129.

Cite this Article as :
Style #
MLA Pavan Kumar V., Naveen K., Deva Krupakaram S., Mohan Reddy D.. "A Proposed Optimization Framework for the Routing Protocols in Adhoc networks." International Journal of Wireless and Ad Hoc Communication, Vol. 5, No. 2, 2022 ,PP. 50-63 (Doi   :  https://doi.org/10.54216/IJWAC.050204)
APA Pavan Kumar V., Naveen K., Deva Krupakaram S., Mohan Reddy D.. (2022). A Proposed Optimization Framework for the Routing Protocols in Adhoc networks. Journal of International Journal of Wireless and Ad Hoc Communication, 5 ( 2 ), 50-63 (Doi   :  https://doi.org/10.54216/IJWAC.050204)
Chicago Pavan Kumar V., Naveen K., Deva Krupakaram S., Mohan Reddy D.. "A Proposed Optimization Framework for the Routing Protocols in Adhoc networks." Journal of International Journal of Wireless and Ad Hoc Communication, 5 no. 2 (2022): 50-63 (Doi   :  https://doi.org/10.54216/IJWAC.050204)
Harvard Pavan Kumar V., Naveen K., Deva Krupakaram S., Mohan Reddy D.. (2022). A Proposed Optimization Framework for the Routing Protocols in Adhoc networks. Journal of International Journal of Wireless and Ad Hoc Communication, 5 ( 2 ), 50-63 (Doi   :  https://doi.org/10.54216/IJWAC.050204)
Vancouver Pavan Kumar V., Naveen K., Deva Krupakaram S., Mohan Reddy D.. A Proposed Optimization Framework for the Routing Protocols in Adhoc networks. Journal of International Journal of Wireless and Ad Hoc Communication, (2022); 5 ( 2 ): 50-63 (Doi   :  https://doi.org/10.54216/IJWAC.050204)
IEEE Pavan Kumar V., Naveen K., Deva Krupakaram S., Mohan Reddy D., A Proposed Optimization Framework for the Routing Protocols in Adhoc networks, Journal of International Journal of Wireless and Ad Hoc Communication, Vol. 5 , No. 2 , (2022) : 50-63 (Doi   :  https://doi.org/10.54216/IJWAC.050204)