Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks

Mobile ad hoc network (MANET) can be described as a group of wireless mobile nodes that form a temporary dynamic and independent infrastructure network or a central administration facility. High energy consumption is one of the main problems associated with the MANET technology. The wireless mobile...

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Main Authors: Jubair, M.A., Mostafa, S.A., Muniyandi, R.C., Mahdin, H., Mustapha, A., Hassan, M.H., Mahmoud, M.A., Al-Jawhar, Y.A., Al-Khaleefa, A.S., Mahmood, A.J.
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Language:English
Published: 2020
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spelling my.uniten.dspace-127952020-07-07T08:33:19Z Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks Jubair, M.A. Mostafa, S.A. Muniyandi, R.C. Mahdin, H. Mustapha, A. Hassan, M.H. Mahmoud, M.A. Al-Jawhar, Y.A. Al-Khaleefa, A.S. Mahmood, A.J. Mobile ad hoc network (MANET) can be described as a group of wireless mobile nodes that form a temporary dynamic and independent infrastructure network or a central administration facility. High energy consumption is one of the main problems associated with the MANET technology. The wireless mobile nodes used in this process rely on batteries because the network does not have a steady power supply. Thus, the rapid battery drain reduces the lifespan of the network. In this paper, a new Bat Optimized Link State Routing (BOLSR) protocol is proposed to improve the energy usage of the Optimized Link State Routing (OLSR) protocol in the MANET. The symmetry between OLSR of MANET and Bat Algorithm (BA) is that both of them use the same mechanism for finding the path via sending and receiving specific signals. This symmetry resulted in the BOLSR protocol that determines the optimized path from a source node to a destination node according to the energy dynamics of the nodes. The BOLSR protocol is implemented in a MANET simulation by using MATLAB toolbox. Different scenarios are tested to compare the BOLSR protocol with the Cellular Automata African Buffalo Optimization (CAABO), Energy-Based OLSR (EBOLSR), and the standard OLSR. The performance metric consists of routing overhead ratios, energy consumption, and end-to-end delay which is applied to evaluate the performance of the routing protocols. The results of the tests reveal that the BOLSR protocol reduces the energy consumption and increases the lifespan of the network, compared with the CAABO, EBOLSR, and OLSR. © 2019 by the authors. 2020-02-03T03:26:52Z 2020-02-03T03:26:52Z 2019 Article 10.3390/sym11111409 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
description Mobile ad hoc network (MANET) can be described as a group of wireless mobile nodes that form a temporary dynamic and independent infrastructure network or a central administration facility. High energy consumption is one of the main problems associated with the MANET technology. The wireless mobile nodes used in this process rely on batteries because the network does not have a steady power supply. Thus, the rapid battery drain reduces the lifespan of the network. In this paper, a new Bat Optimized Link State Routing (BOLSR) protocol is proposed to improve the energy usage of the Optimized Link State Routing (OLSR) protocol in the MANET. The symmetry between OLSR of MANET and Bat Algorithm (BA) is that both of them use the same mechanism for finding the path via sending and receiving specific signals. This symmetry resulted in the BOLSR protocol that determines the optimized path from a source node to a destination node according to the energy dynamics of the nodes. The BOLSR protocol is implemented in a MANET simulation by using MATLAB toolbox. Different scenarios are tested to compare the BOLSR protocol with the Cellular Automata African Buffalo Optimization (CAABO), Energy-Based OLSR (EBOLSR), and the standard OLSR. The performance metric consists of routing overhead ratios, energy consumption, and end-to-end delay which is applied to evaluate the performance of the routing protocols. The results of the tests reveal that the BOLSR protocol reduces the energy consumption and increases the lifespan of the network, compared with the CAABO, EBOLSR, and OLSR. © 2019 by the authors.
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author Jubair, M.A.
Mostafa, S.A.
Muniyandi, R.C.
Mahdin, H.
Mustapha, A.
Hassan, M.H.
Mahmoud, M.A.
Al-Jawhar, Y.A.
Al-Khaleefa, A.S.
Mahmood, A.J.
spellingShingle Jubair, M.A.
Mostafa, S.A.
Muniyandi, R.C.
Mahdin, H.
Mustapha, A.
Hassan, M.H.
Mahmoud, M.A.
Al-Jawhar, Y.A.
Al-Khaleefa, A.S.
Mahmood, A.J.
Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
author_facet Jubair, M.A.
Mostafa, S.A.
Muniyandi, R.C.
Mahdin, H.
Mustapha, A.
Hassan, M.H.
Mahmoud, M.A.
Al-Jawhar, Y.A.
Al-Khaleefa, A.S.
Mahmood, A.J.
author_sort Jubair, M.A.
title Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
title_short Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
title_full Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
title_fullStr Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
title_full_unstemmed Bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
title_sort bat optimized link state routing protocol for energy-aware mobile ad-hoc networks
publishDate 2020
_version_ 1672614176574406656
score 13.211869