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Performance Enhancement of MANET Based on Cross-Layered Reconfigurable Hierarchical Routing Protocol


Affiliations
1 Department of Electronics and Communication Engineering, KCG College of Technology, Karapakkam 600 097, Chennai, Tamil Nadu, India
2 Department of Computer science engineering, B V Raju Institute of Technology, Narsapur 502 313, Telangana, India
3 Department of Networking and Communications School of Computing, SRM Institute of Science and Technology, Kattankulathur 603 203, Tamil Nadu, India
4 School of Computer Science and Engineering, Vellore Institute of Technology (VIT), Chennai, 600 127, India
 

High speed data communication is the demanding factor in both commercial and defence applications. Several algorithms are proposed to support the high-speed data exchange while ensuring the quality, performance and reliability. However, there is still a gap, citing various compatibility issues with variety of transceiver technologies. This paper proposes a novel algorithm for enhancing the performance of mobile ad-hoc networks using Free-Space Optics (FSO). The FSO has the natural ability to the interference while capable of large bandwidth and excellent compatibility. Low power and adaptability are the features with which it has contributed to the latest technologies like storage area network, wireless area network etc. The proposed work uses optical spheres with a multi-transceiver system and a cross-layered reconfigurable routing mechanism. Parameters such as delay, residual energy, throughput, and drop are verified for the Crosslayered Reconfigurable Hierarchical Routing Optical Sphere (CRHROS) protocol for varying numbers of optical transceivers. The proposed work also compares the performance of two traffic sources, Constant Bit Rate (CBR) and Variable Bit Rate (VBR), for the proposed algorithm.

Keywords

Free-Space Optics, Mobile Ad Hoc Network, Optical Sphere, Routing Protocol.
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  • Malik A & Singh P, Free space optics: current applications and future challenges, Int J Opt, (2015).

  • Sharma V & Kaur G, High speed, long reach OFDM-FSO transmission link incorporating OSSB and OTSB schemes, Optik, 124(23) (2013) 6111–6114.

  • Naik K K, Balaswamy C, Prabhakar D, Kandula S & Begum S, Performance of Various Ad Hoc Routing Protocols Using NS-3 Simulator, Ann Romanian Soc Cell Bio, (2021) 13–138.

  • Kumar S & Sharma D, Performance evaluation of routing protocols in MANETs with variation in pause time, Opt Wirel Technol, (2022) 105–113.

  • Singh G & Dhir V, an efficient routing protocol for shortest path selection in mobile Ad Hoc networks, Nimitmai Rev J, 3(1) (2020) 30–41.

  • Nallusam C & Sabari A, Particle swarm-based resource optimized geographic routing for improved network lifetime in MANET, Mob Netw Appl, 24(2) (2019) 375–385.

  • Aveta F, Chan S & Refai H H, Cognitive multi-user free space optical communication testbed, In Free-Space Laser Communications XXXIII (SPIE) 11678 (2021) 1167804.

  • Wang Q, He X & Chen N, A cross-layer neighbour discovery algorithm in Ad Hoc networks based on hexagonal clustering and GPS, In IOP Conf Series: Earth Environ Sci, 234(1) (2019) 012050.

  • Pathak S & Sonal J, A novel weight-based clustering algorithm for routing in MANET, Wirel Netw, 22(8) (2016) 2695–2704.

  • Pandey P & Raghuraj S, Efficient route selection scheme in MANET using enhanced AODV protocol, Wirel Pers Commun, (2021) 1–16.

  • Zhang H, Li H & Hao C, Performance analysis for BPSK, DPSK and OOK-Based FSO system in atmospheric turbulence conditions, Int J Simul Syst Sci Technol, 17 (2016) 1–6.

  • Kumar J, Annapurna S & Bhadauria H S, Link discontinuity and optimal route data delivery for random waypoint model, J Ambient Intell Humaniz Comput (2021) 1–15.

  • Musolesi M & Cecilia M, Mobility models for systems evaluation, in Middl Netw Eccen Mob Appl, (2009) 43–62.

  • Rakesh K, Manoj M & Anil K S, A simplified analytical model for end-to-end delay analysis in MANET, Int J Comput Appl, 4(6) (2010) 195–199.

  • Yang B, Chen Y, Cai Y & Jiang X, Packet delivery ratio/cost in MANETs with erasure coding and packet replication, IEEE Trans Veh Technol, 64(5) (2014) 2062–2070.

  • Patel Kajal S & Shah J S, Study the effect of packet drop attack in AODV routing and MANET and detection of such node in MANET, In Proc Int Conf ICT Sust Dev, (2016) 135–142.

  • Kousar R, Alhaisoni M, Akhtar S A, Shah N, Qamar A & Karim A, A secure data dissemination in a DHT-based routing paradigm for wireless Ad Hoc network, Wirel Commun Mob Comput, 2020 (2020) 1–32.

  • Kunz T, Echegini S & Esfandiari B, A P2P approach to routing in hierarchical MANETs, Commun Netw, 12 (2020) 99–121.

  • Sindhanaiselvan K, Mannan J M & Aruna S K, Designing a dynamic topology (DHT) for cluster head selection in mobile Adhoc network, Mob Netw Appl, 25 (2020) 576–584.

  • Tahir A, Shah N, Abid S A, Khan W Z, Bashir A K & Zikria Y B, A three-dimensional clustered peer-to-peer overlay protocol for mobile ad hoc networks, Comput Electr Eng, 94 (2021) 107364.

  • Ameur A I, Lakas A, Bachir Y M & Oubbati O S, Peer-to-peer overlay techniques for vehicular ad hoc networks: Survey and challenges, Veh Commun, 34 (2022) 100455.

  • Kumar D & Pandey M, An optimal load balancing strategy for P2P network using chicken swarm optimization, Peer-to-Peer NetwAppl, 15 (2022) 666–688.

  • Deshai N, Sekhar, B V D S Reddy, P V G D & Chakravarthy V V S S S, Processing real world datasets using big data hadoop tools, J Sci Ind Res, 79(7) (2020) 631–635.


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  • Performance Enhancement of MANET Based on Cross-Layered Reconfigurable Hierarchical Routing Protocol

Abstract Views: 114  |  PDF Views: 76

Authors

Kavitha Balamurugan
Department of Electronics and Communication Engineering, KCG College of Technology, Karapakkam 600 097, Chennai, Tamil Nadu, India
R Pitchai
Department of Computer science engineering, B V Raju Institute of Technology, Narsapur 502 313, Telangana, India
Supraja P
Department of Networking and Communications School of Computing, SRM Institute of Science and Technology, Kattankulathur 603 203, Tamil Nadu, India
R Dhanalakshmi
School of Computer Science and Engineering, Vellore Institute of Technology (VIT), Chennai, 600 127, India

Abstract


High speed data communication is the demanding factor in both commercial and defence applications. Several algorithms are proposed to support the high-speed data exchange while ensuring the quality, performance and reliability. However, there is still a gap, citing various compatibility issues with variety of transceiver technologies. This paper proposes a novel algorithm for enhancing the performance of mobile ad-hoc networks using Free-Space Optics (FSO). The FSO has the natural ability to the interference while capable of large bandwidth and excellent compatibility. Low power and adaptability are the features with which it has contributed to the latest technologies like storage area network, wireless area network etc. The proposed work uses optical spheres with a multi-transceiver system and a cross-layered reconfigurable routing mechanism. Parameters such as delay, residual energy, throughput, and drop are verified for the Crosslayered Reconfigurable Hierarchical Routing Optical Sphere (CRHROS) protocol for varying numbers of optical transceivers. The proposed work also compares the performance of two traffic sources, Constant Bit Rate (CBR) and Variable Bit Rate (VBR), for the proposed algorithm.

Keywords


Free-Space Optics, Mobile Ad Hoc Network, Optical Sphere, Routing Protocol.

References