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This paper introduces a new innovation for the analytical model to improve the throughput performance and energy efficiency for ideal channel conditions by the integration which challenges both fountain code and Markov chain modeling. In this context, the energy consumption is a critical resource that can be saved by minimizing the number of transmissions to be performed in the network. Channel contention...
This work aims at understanding and evaluating the impact of using different path loss models in the optimization trade-off of small cell (SC) networks. In LTE-A, the more realistic propagation models are the more efficient the radio and network optimization becomes. In this work we compare four urban path loss models: the urban/vehicular and pedestrian test environment from the ITU-R M. 1255 Report...
This paper presents a new innovation network architecture for the analytical model by the integration which challenges both fountain code and Markov chain modeling to improve the throughput performance for ideal channel conditions. In this context, the collision result in corrupted packets and the following MAC layer retransmissions consume extra energy. Channel contention is a serious problem in...
In this paper, we consider the throughput performance of secondary networks in Dynamic Spectrum Access (DSA) networks. We present analytical models to quantify the impact of both primary network settings and secondary network settings on the performance of a secondary network. The correlation between primary and secondary networks is captured by the incorporation of spectrum sensing and interference...
The aim of this paper is to use analytical means to discover the effective functional range of a node in Wireless Mesh Networks (WMNs) and to determine the optimized position of the relaying node when placed between two mesh routers in WMNs. A simple source to destination model with two transmission distance schemes and simple relaying node model with three relaying node position schemes were designed...
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