69, 46–61 (2014).The evolution of broadband access networks toward bimodal fiber-wireless (FiWi) access networks, described in this book, may be viewed as the endgame of broadband access. Upadhyay et al., Fiber wireless (FiWi) access network: ONU placement and reduction in average communication distance using whale optimization algorithm. Upadhyay, Performance evaluation of fiber wireless (FiWi) access network using position optimization of ONUs. in Proceedings of Recent Advances in Interdisciplinary Trends in Engineering and Applications (RAITEA), (SSRN Elseveir, Indore, India< 2019). Upadhyay, Potential sites searching for ONUs in FiWi network.
#Fiwi access network series#
in Proceeding of Progress in Advanced Computing and Intelligent Engineering, Advances in Intelligent Systems and Computing AISC series of Springer (2016). Upadhyay et al., Efficient placement of ONUs via ant colony optimization algorithm in FiWi access networks. in Proceeding of 3rd International Conference on Computational Intelligence and Communication Technology (CICT), (Ghaziabad, India, 2017). Agrawal, ONU Placement in FiWi access network using teacher phase of TLBO algorithm. Chouhan, Cost efficient low convergence ONU placement algorithm for deployment of FiWi network. Upadhyay, Hybrid algorithm: a cost efficient solution for ONU placement in fiber-wireless (FiWi) network. Li et al., Load balanced optical network unit (ONU) placement in cost-efficient fiber-wireless (FiWi) access network. in Proceedings of GLOBECOM, IEEE Conference (2009), pp. Wang, ONU placement in fiber-wireless (FiWi) networks considering peer-to-peer communications. in Proceedings of Wireless Communications Networks Conference WCNC, IEEE Conference, (2007), pp. Mukherjee, A mixed integer programming model for optimum placement of base stations and optical network units in a hybrid wireless-optical broadband access network (WOBAN). Dixit et al., Hybrid wireless-optical broadband access network (WOBAN): network planning and setup. Upadhyay, Cost efficient algorithm for ONU placement in fiber-wireless (FiWi) access networks.
in Proceeding Of Nirma University International Conference on Engineering (NUiCONE ), IEEE Conference, (Ahmedabad, India, 2013). Chouhan, ONU placement in fiber wireless (FiWi) networks. Maier, Fiber-wireless (FiWi) access networks: challenges and opportunities. Upadhyay, An optimization framework for FiWi access network: comprehensive solution for green and survivable deployment. in Proceeding of International Wireless Communications and Mobile Computing (IWCMC), IEEE Conference, (Limassol, Cyprus, 2020), pp. Cheriet, Throughput-oriented power allocation scheme based on convex optimization for cache-enabled FiWi access network in 5G IoT scenario. Assi, Fiber-wireless (FiWi) access networks: a survey. Elmagzoub et al., A survey on access technologies for broadband optical and wireless networks. Gong et al., Green survivability in fiber-wireless (FiWi) broadband access network. Hence, to deploy a cost-efficient FiWi network, proposed work may be one of the best solutions. The result shows the reduction in ADC after applying the GWO algorithm than the initial placement and TLBO algorithm for all the cases considered for simulation. The proposed work is compared with well-known algorithm, namely teaching learning-based optimization (TLBO) algorithm. To check the effectiveness of the proposed work, simulation is done for varying numbers of wireless routers. ADC is the average of the distance of ONU and its associated wireless routers. GWO provides the optimum position of every ONU, where the average distance cost (ADC) is minimum. To the best of our knowledge, this algorithm has not been used for the ONU placement problem in the FiWi network. For this, a nature-inspired grey wolf optimization (GWO) algorithm is applied in the FiWi network. The present research work considers the ONU placement issue and proposes a novel algorithm for finding an optimum position of ONUs. ONU placement is the most important issue in FiWi as it affects the network cost and network performance. FiWi integrates the technical merits of the optical access network and wireless access network. Fiber-Wireless is the promising next generation broadband access network.
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