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Peer-to-Peer Networking and Applications

Erschienen in:

21.06.2019

Volunteer nodes of ant colony optimization routing for minimizing delay in peer to peer MANETs

verfasst von: N. Noor Alleema, D. Siva Kumar

Erschienen in: Peer-to-Peer Networking and Applications | Ausgabe 2/2020

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Abstract

A Mobile ad hoc Network (MANET) is an infrastructure less network that permits nodes to make a wireless network with mobility. In MANETs, the node linkages breaks are frequent due to all nodes are in movement. When neighbor nodes travel out of other node communication range connection among both mobile nodes breaks. Thus it makes delay and packet loss in the network. In the present Traffic Control method, several times, since the highest traffic, heavy rain, accidents, or other reasons, there may be probabilities of jam on roads. Thus, people could get delay owing to the highest traffic. Therefore, it is highly preferred to have an effective way to track the traffic on roads and thus select the suitable road that is traffic free. To resolve these problems, the volunteer Nodes of Ant Colony Optimization Routing (VNACO) is proposed. The primary objective of VNACO is to reduce both the delay and routing overhead in Peer to Peer (P2P) MANETs. Here, peer node act as a volunteer node and mobile node for transmitting data from source to destination. During data transmission, the relay node moving out of communication range when the volunteer node overheard the dropped data packet then deliver the data to the corresponding relay node. As a result, minimizes both the delay and packet losses. In VNACO, the volunteer’s nodes are elected based on node aptitude. Node aptitude is calculated by iterating node connectivity, transmission processing time, node energy and available bandwidth. In addition, an ant colony optimization algorithm to finds the optimal route and reduce the routing overhead in P2P MANETs. The significant application of this mechanism is utilized for the traffic management system. Network simulation results indicate that the VNACO mechanism is minimizing 22% delay and reducing 14% packet losses compared to the baseline protocol.

Vorheriger Artikel P2P networking based internet of things (IoT) sensor node authentication by Blockchain

Nächster Artikel P2P computing for trusted networking of personalized IoT services

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Ramanathan R, Redi J (2002) A brief overview of ad hoc networks: challenges and directions. IEEE Commun Mag 40(5):20–22CrossRef

Wu F, Xu L, Kumari S, Li X (2017) A privacy-preserving and provable user authentication scheme for wireless sensor networks based on the internet of things security. J Ambient Intell Humaniz Comput 8(1):101–116CrossRef

Chen YH, Hu CC, Wu EHK, Chuang SM, Chen GH (2017) A Delay-Sensitive Multicast Protocol for Network Capacity Enhancement in Multirate MANETs. IEEE Syst J 12(1):926–937CrossRef

Puri S, Arora V (2014) Routing Protocols in MANET: A Survey. Int J Comput Appl 96(13)CrossRef

Jia R, Yang F, Yao S, Tian X, Wang X, Zhang W, Xu J (2017) Optimal Capacity–Delay Tradeoff in MANETs With Correlation of Node Mobility. IEEE Trans Veh Technol 66(2):1772–1785CrossRef

Wang Z, Chen Y, Li C (2014) PSR: A lightweight proactive source routing protocol for mobile ad hoc networks. IEEE Trans Veh Technol 63(2):859–868CrossRef

Al-Karaki JN, Kamal AE (2008) Stimulating node cooperation in mobile ad hoc networks. Wirel Pers Commun 44(2):219–239CrossRef

Chaudhary A, Sachdev S, Pradhan T, Kamath S (2014) Improving performance of MANET via cooperative communication with selective cooperation method considering dynamic traffic pattern using ns2. International Conference on High-Performance Computing and Applications, pp. 1–5

Shan H, Zhuang W, Wang Z (2009) Cooperation or not in mobile ad hoc networks: a MAC perspective. IEEE International Conference on Communications:1–6

10.

Mule R, Patil B (2016) Proactive source routing protocol for opportunistic data forwarding in MANETs. In Automatic Control and Dynamic Optimization Techniques, IEEE International Conference, pp. 227–232

11.

Wang Z, Li C, Chen Y (2011) PSR: Proactive source routing in mobile ad hoc networks. In: Global Telecommunications Conference (GLOBECOM 2011), 2011 IEEE, pp. 1–6

12.

Haseena MK, Philip A (2015) A Fast and Reliable Tree based Proactive Source Routing in Mobile Adhoc Network. International Journal of Engineering and Computer Science 4(7):13422–13425

13.

Acs G, Buttyan L, Vajda I (2006) Provably secure on-demand source routing in mobile ad hoc networks. IEEE Trans Mob Comput 5(11):1533–1546CrossRef

14.

Mueller S, Tsang RP, Ghosal D (2014) Multipath routing in mobile ad hoc networks: Issues and challenges. In: Performance tools and applications to networked systems. Springer, Berlin, Heidelberg, pp. 209–234CrossRef

15.

Feeney LM (2011) An energy consumption model for performance analysis of routing protocols for mobile ad hoc networks. Mobile Networks and Applications 6(3):239–249CrossRef

16.

Yadav AK, Tripathi S (2017) QMRPRNS: Design of QoS multicast routing protocol using reliable node selection scheme for MANETs. Peer-to-Peer Networking and Applications 10(4):897–909CrossRef

17.

Khudayer BH, Kadhum MM, Chee WT (2015) Multi-disjoint Routes Mechanism for Source Routing. Information Science and Applications 339(23):189–204CrossRef

18.

AlQarni BH, AlMogren AS (2016) Reliable and Energy Efficient Protocol for MANET Multicasting. Journal of Computer Networks and Communications

19.

Das SK, Tripathi S (2015) Energy efficient routing protocol for MANET based on vague set measurement technique. Procedia Computer Science 58:348–355CrossRef

20.

Veeresha M, Sugumaran M (2017) Optimal hybrid broadcast scheduling and adaptive cooperative caching for spatial queries in road networks. J Ambient Intell Humaniz Comput 8(4):607–624CrossRef

21.

Abdallah AE (2018) Low overhead hybrid geographic-based routing algorithms with smart partial flooding for 3D ad hoc networks. J Ambient Intell Humaniz Comput 9(1):85–94MathSciNetCrossRef

22.

Gupta AK, Mandal JK, Bhattacharya I, Mondal T, Shaw SS CTMR-collaborative time-stamp based multicast routing for delay tolerant networks in the post-disaster scenario. Peer-to-Peer Networking and Applications 11(1):162–180, 2008

23.

Sharma VK, Kumar M (2017) Adaptive congestion control scheme in mobile ad-hoc networks. Peer-to-Peer Networking and Applications 10(3):633–657CrossRef

24.

Idoudi H, Abderrahim OB, Mabrouk K (2016) Generic links and paths stability model for Mobile Ad Hoc Networks. IEEE International Conference on Wireless Communications and Mobile Computing:394–398

25.

Brahmbhatt S, Kulshrestha A, Singal G (2015) SSLSM: signal strength based link stability estimation in MANETs. IEEE International Conference on Computational Intelligence and Communication Networks:173–177

26.

Yang P, Huang B (2008) QoS routing protocol based on link stability with dynamic delay prediction in MANET. IEEE Conference on Computational Intelligence and Industrial Application 1:515–518

Titel: Volunteer nodes of ant colony optimization routing for minimizing delay in peer to peer MANETs
verfasst von: N. Noor Alleema
D. Siva Kumar
Publikationsdatum: 21.06.2019
Verlag: Springer US
Erschienen in: Peer-to-Peer Networking and Applications / Ausgabe 2/2020
Print ISSN: 1936-6442
Elektronische ISSN: 1936-6450
DOI: https://doi.org/10.1007/s12083-019-00772-w

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