Abstract
The advancement of wireless technology is affected by Spectrum scarcity and the overcrowding of free spectrum. Cognitive Radio Ad Hoc Networks (CRAHNs) have emerged as a possible solution to both the scarcity and overcrowding challenges of the spectrum. The CRAHNs ensure that the Secondary Users (SUs) do co-exist with Primary Users (PUs) in a non-interfering manner. The SUs access the licensed spectrum opportunistically when they are idle. CRAHNs have many use cases which include intermittent networks here referred to as intermittent CRAHNs (ICRAHNs). For example, the Military (MCRAHNs). MCRAHN is complex and characterized by a dynamic topology which is subject to frequent partitioning and route breakages due to attacks and destruction in combat.
This study optimizes the routing protocols for intermittent networks such as the MCRAHNs. ICRAHN routing is a challenge due to the network’s intermittent attribute, which is subject to destruction in the case of MCRAHN which is characterized by frequent link breakages. The performance of the proposed routing scheme was evaluated through network simulations using the following metrics: throughput, and Routing Path delay, Node Relay delay, Spectrum Mobility delay. The simulation results show that the MAODV is the best-performing algorithm.
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References
An, B.: A stability-based spectrum-aware routing protocol in mobile cognitive radio ad-hoc networks. In: 2014 International Symposium on Computer, Consumer and Control, pp. 1014–1017. IEEE (2014)
Liu, C., Zhang, G., Guo, W., He, R.: Kalman prediction-based neighbor discovery and its effect on routing protocol in vehicular ad hoc networks. IEEE Trans. Intell. Transp. Syst. 21(1), 159–169 (2019)
Tang, F., et al.: Delay-minimized routing in mobile cognitive networks for time-critical applications. IEEE Trans. Industr. Inf. 13(3), 1398–1409 (2017)
Huang, J., Wang, S., Cheng, X., Liu, M., Li, Z., Chen, B.: Mobility-assisted routing in intermittently connected mobile cognitive radio networks. IEEE Trans. Parallel Distrib. Syst. 25(11), 2956–2968 (2014)
Zhang, L., Zhuo, F., Bai, C., Xu, H.: Analytical model for predictable contact in intermittently connected cognitive radio ad hoc networks. Int. J. Distrib. Sens. Netw. 12(7), 1–12 (2016)
Ghafoor, H., Koo, I.: Spectrum and connectivity aware anchor-based routing in cognitive vehicular ad hoc networks. In: 2016 Eighth International Conference on Ubiquitous and Future Networks (ICUFN), pp. 679–684. IEEE (2016)
Velempini, M., Dlodlo, M.E.: A multiple channel selection and coordination MAC scheme. In: 2009 Second International Conference on Advances in Mesh Networks, pp. 126–131 (2009). https://doi.org/10.1109/MESH.2009.30
Landmark, L., Larsen, E., Hauge, M., Kure, Ø.: Resilient internetwork routing over heterogeneous mobile military networks. In: MILCOM 2015–2015 IEEE Military Communications Conference, pp. 388–394. IEEE (2015)
Vang, Y., Saavedra, A., Yang, S.: Ferry enhanced improved PRoPHET routing protocol. In: 2015 IEEE 12th International Conference on Mobile Ad Hoc and Sensor Systems, pp. 567–572. IEEE (2015)
Melvin, S., Lin, J., Kim, S., Gerla, M.: Hitchhiker: a wireless routing protocol in a delay tolerant network using density-based clustering. In: 2018 IEEE 88th Vehicular Technology Conference (VTC-Fall), pp. 1–5. IEEE (2019)
Wu, Y., Deng, S., Huang, H.: Control of message transmission in delay/disruption tolerant network. IEEE Trans. Comput. Soc. Syst. 5(1), 132–143 (2018)
Chen, Y.H., Wu, E.H.K., Lin, C.H., Chen, G.H.: Bandwidth-satisfied and coding-aware multicast protocol in MANETs. IEEE Trans. Mob. Comput. 17(8), 1778–1790 (2018)
Huang, W., Ma, Z., Dai, X., Xu, M.: Connectivity probability based spray and wait routing algorithm in mobile opportunistic networks. In: 2018 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computing, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI), pp. 1636–1642. IEEE (2018)
Alresaini, M., Wright, K.L., Krishnamachari, B., Neely, M.J.: Backpressure delay enhancement for encounter-based mobile networks while sustaining throughput optimality. IEEE/ACM Trans. Netw. 24(2), 1196–1208 (2016)
Hai, L., Gao, Q., Wang, J., Zhuang, H., Wang, P.: Delay-optimal back-pressure routing algorithm for multihop wireless networks. IEEE Trans. Veh. Technol. 67(3), 2617–2630 (2018)
Patel, R., Patel, N., Patel, S.: An approach to analyze behavior of network events in NS2 and NS3 using AWK and Xgraph. In: Fong, S., Akashe, S., Mahalle, P.N. (eds.) Information and Communication Technology for Competitive Strategies. LNNS, vol. 40, pp. 137–147. Springer, Singapore (2019). https://doi.org/10.1007/978-981-13-0586-3_14
Prashanthi, G., Rao, A.V.: A survey on relay selection for geographical forwarding in sleep-wake cycling wireless sensor networks. Int. J. Res. 5(7), 229–237 (2018)
Malhotra, S., Trivedi, M.C.: Authentication, KDC, and key pre-distribution techniques-based model for securing AODV routing protocol in MANET. In: Panigrahi, B., Trivedi, M., Mishra, K., Tiwari, S., Singh, P. (eds.) Smart Innovations in Communication and Computational Sciences. Advances in Intelligent Systems and Computing, vol. 669, pp. 175–186. Springer, Singapore (2019). https://doi.org/10.1007/978-981-10-8968-8_15
Jhajj, H., Datla, R., Wang, N.: Design and implementation of an efficient multipath AODV routing algorithm for MANETs. In: 2019 IEEE 9th Annual Computing and Communication Workshop and Conference (CCWC), Las Vegas, NV, USA, pp. 0527–0531 (2019)
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This work was supported by the National Research Foundation of South Africa (Grant Number: 114155).
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Phaswana, P., Velempini, M. (2023). Centralized Multicasting AODV Routing Protocol Optimized for Intermittent Cognitive Radio Ad Hoc Networks. In: Taheri, J., Villari, M., Galletta, A. (eds) Mobile Computing, Applications, and Services. MobiCASE 2022. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol 495. Springer, Cham. https://doi.org/10.1007/978-3-031-31891-7_3
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