A Novel Broadcast Network Design for Routing in Mobile Ad-Hoc Network

Dholey, Milan Kumar; Sinha, Ditipriya; Mukherjee, Sankar; Das, Ayan; Sahana, Sudip Kumar

doi:10.1109/access.2020.3030802

Cited by 15 publications

(3 citation statements)

References 23 publications

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“…The drawback of ANTHOCNET [15] is that the huge number of routing messages needs to be sent in the network for establishing routes from source to destination that generates control overhead and also raise the issues of energy efficiency for the routing of MANET. The control overhead can reduces using broadcast network for MANET are proposed [49] by applying classical Kruskals and Dijkstra algorithm. Whereas, a new approach for mobile ad hoc networks combines the idea of Ant Colony Optimization (ACO) with multi-objective constraints applied energy efficient routing technique based on ant colony optimization in mobile Ad-hoc networks (MCER-ACO) are proposed [5].…”

Section: Single Agent Based Acomentioning

confidence: 99%

“…In order to broadcast the control message generated from the source node initially transmitted though their neighbour nodes and so on. According to MANET we know there can be two types of paths/routes So, during route discovery the control messages [49] should transmitted through all the paths broadcasted by the individual nodes and if that can be done through common link shared by adjacent node both will broadcast the control message, hence, in that case using this link two numbers of time control message will transmitted otherwise single broadcast will occur. Let, as per notation table consider total numbers of link for a particular instance of time is R= R S + R C As well as we can say control message broadcast occur via common link is 2 * R C and via single link is R S So, we can say total numbers of control message broadcasting (B T ) can be done for route discovery is,…”

Section: Route Discoverymentioning

confidence: 99%

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ACOLBR: ACO Based Load Balancing Routing In MANET

Dholey

Sinha

2021

Preprint

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Real-time data transmission is one of the objectives of MANET (mobile ad-hoc network) to handle emergencies like a forest fire, flood, and earthquake. In this scenario, quick delivery of data is itself a challenging task for MANET and there is a possibility of load imbalance due to packet transmission in between source-destination pairs via the shortest path due to congestion or control overhead. In this paper, a novel routing protocol, called ACOLBR (ACO based load balancing routing), is design to control the congestion and balancing the load among the multiple paths in between source to destination. The similarity between the environment of Ant Colony and the MANET inspires the authors to apply ACO (Ant colony optimization) technique during routing in MANET to control congestion and balance the load in the network. In our proposal, two colonies of ants (red/blue) carry their packets based on the network condition. A decision variable is designed to select red/blue ant for transferring packets based on different network parameters such as bandwidth, energy, mobility, and distance. The selection of red ant means the route where the concentration of red pheromone is maximum and reverse is true for blue ant. This protocol is also concerns about the link failure during packet transmission in a route. Simulation results using OMNET++ show that ACOLBR outperforms ARA, ANTHOCNET, FACO, AODV, DSDV, DSR, CA-ARTT, and MOAODV in terms of load balancing efficiently in the route for data transmission in between source to destination.

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Section: Single Agent Based Acomentioning

confidence: 99%

Section: Route Discoverymentioning

confidence: 99%

ACOLBR: ACO Based Load Balancing Routing In MANET

Dholey

Sinha

2021

Preprint

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“…The most crucial intention of CC is to restrict the buffer overflow and delay occurred by network congestion and offered improved network performance 6–8 . In WANETs, every mobile node has restricted buffer and transmission capability, and they mainly interact by multi‐hop transmission 9,10 …”

Section: Introductionmentioning

confidence: 99%

A novel congestion control approach for optimal routing in Wireless Adhoc Networks

Kanthimathi

Prathuri

2022

Int J Communication

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Summary Congestion is a demanding issue in WANET owing to dynamic routing and resource constraints. Congestion controlling (CC) is a huge concern in attaining equality among e2e flow control and optimal utilization of network resources. In WANET, with distributed resources, if numerous senders compete for a similar bandwidth link, the data rates should be adjusted to avoid network overload that leads to compromises in QoS. This paper introduces a new routing approach with CC model that deployed MAODV for WANETs. Initially, the destination and source nodes are initialized, and subsequently, the MAODV find out the various routing path. Consequently, SGD‐DLNN recognizes all nodes' congestion status in revealed paths. Further, the MAODV assigns traffic in optimal congestion‐less paths if congestion occurs. Here, the black widow‐mutated cat swarm (BWM‐CS) model is deployed to choose the optimal paths based on traffic load density, life span of path, traffic load, remaining energy, link cost, and path distance. Eventually, the advantage of the suggested model is proven.

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