Performance analysis of dynamic source routing protocol in mobile ad hoc network

Ambekar, Rahul K.; Karlekar, N. P.; Waykar, Sanjay B.; Vinod, Alone; Anil, Kale

doi:10.1145/1741906.1742246

Cited by 2 publications

(4 citation statements)

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“…Furthermore, the two main operating models in the DSR are route search and route guard. DSR allows the node to discover the route to any destination along with multiple network tabs [13]. In DSR there is no obligation to send and receive ad messages, battery power is maintained in the mobile hosts and the host machine enters the sleep state instead of transmitting a signal.…”

Section: Dsr Protocol Definitionmentioning

confidence: 99%

Analysis and simulation of three MANET routing protocols: A research on AODV, DSR & DSDV characteristics and their performance evaluation

Alabdullah

Atiyah

Khalaf

et al. 2019

PEN

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Mobile ad-hoc network allows electronic devices to independently configure the communication; even if the device changes its position, the (MANET) can maintain the connectivity among the devices since it has the capability to arrange a temporary network dynamically. The lack of central infrastructure and the freedom of mobile nodes to move randomly will create several problems, like routing and security issues. MANET requires a stable routing algorithm to adapt to the network that changes its topology randomly at any time. Several studies were conducted with different scenarios to suggest the best protocol for routing. However, a clear performance evaluation is still a missing part, because the dissimilarities in the mechanism of the protocol can lead to important performance differences. This article provides a performance assessment of (DSR), (DSDV), and (AODV) protocols. Research results and the evaluation of the network are made based on network size, mobility, and variable network load by using NS2 application for simulation. The results reveal that the (AODV, DSR) are more efficient than DSDV and reasonably more proper for ad-hoc applications and projects.

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Section: Dsr Protocol Definitionmentioning

confidence: 99%

Analysis and simulation of three MANET routing protocols: A research on AODV, DSR & DSDV characteristics and their performance evaluation

Alabdullah

Atiyah

Khalaf

et al. 2019

PEN

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“…Research has shown that DSR shows good results in terms of packet loss, while AODV shows stronger efficiency than DSR when there is an enormous effort to send TCP packets. 6) Amer O. Abu Salem et al [9] evaluated the performance of DSR depending on the study of two factors; cache size and simulation speed; the delivery ratio, end-to-end delay, and throughput were studied. Depending on different cache sizes and speeds, they showed DSR has a reasonable performance in terms of data packet transmission ratio, latency and end-to-end delay at speeds below 15 m/s, and the cache size did not play a critical role in network performance.…”

Section: )mentioning

confidence: 99%

“…The wireless communication conditions, like nodes moving in the network, joining the network or dropping the network, and interference of resources, the DSR protocol determines and automatically performs all routings. To achieve any goal, the number or order of the medium may change [9]. Each sent data packet carries the list of the order in which the nodes should pass on the header.…”

Section: Dynamic Source Routing Protocol (Dsr)mentioning

confidence: 99%

“…The transmission route for each data can be inserted to the header of the packet, and when using it to forward it to other nodes, it can easily store this routing information in the future. In wireless networks, DSR allows connections to be used as directional connections when needed and overall performance improves network connectivity [9].…”

Section: Dynamic Source Routing Protocol (Dsr)mentioning

confidence: 99%

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Unicast based reactive & proactive routing simulation in MANET: A comparative study for protocols in mobility scenarios

Yadgar

Alabdullah

Atiyah

et al. 2019

PEN

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A challenging issue for Ad-Hoc network is finding an effective routing mechanism, the wireless connection must have the capability to interact while traveling randomly. Although MANETs are self-configuring mobile node networks, the mobility of the nodes imposes some limitations on the power capacity of the nodes and thus on the transmission ranges. Many studies have investigated the protocols of Ad-Hoc networks, but this study has made a comprehensive investigation by using different scenarios among the studied protocols, particularly (DSR), (AODV) and (DSDV). The different numbers of deployed nodes with a mobile target node in the network have been analyzed with various important metrics such as; Generated, sent and received packet, lost and discarded packets, throughput, and the end to end latency with different packet sizes. Simulations are carried out in the simulation environment (NS2), and several comparisons were made among different metrics and scenarios by using different utilities. The results obtained showed interesting findings particularly when the scenario became more complex and the number of nodes increased. The number of packets received decreases by the mobile target node with the increasing number of nodes in the network. AODV showed better efficiency than the DSR and table-based DSDV protocol especially when a large number of nodes deployed. Furthermore, the average of the received packets to the sent packet ratio decreases proportionally as the number of nodes increases while the average end-to-end delay increases with the increasing number of nodes.

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Performance analysis of dynamic source routing protocol in mobile ad hoc network

Cited by 2 publications

References 0 publications

Analysis and simulation of three MANET routing protocols: A research on AODV, DSR & DSDV characteristics and their performance evaluation

Analysis and simulation of three MANET routing protocols: A research on AODV, DSR & DSDV characteristics and their performance evaluation

Unicast based reactive & proactive routing simulation in MANET: A comparative study for protocols in mobility scenarios

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