Distance-Based Inter-Cell Interference Coordination in Small Cell Networks: Stochastic Geometry Modeling and Analysis - 2018 PROJECT TITLE :Distance-Based Inter-Cell Interference Coordination in Small Cell Networks: Stochastic Geometry Modeling and Analysis - 2018ABSTRACT:We tend to propose a distance-primarily based inter-cell interference coordination (ICIC) scheme in little cell networks (SCNs). Whereas most of the previous works focus on a randomly selected user referred to as a typical user, we have a tendency to specialize in a foothold user as a result of the main purpose of ICIC is to boost the performance of a foothold user. Since there are a number of inactive small cell base stations (SBSs) in SCNs, a straightforward criterion for an edge user such as being located near a cell boundary isn't appropriate for SCNs. To accurately detect edge users experiencing severe performance degradation, we newly define a foothold user in SCNs based mostly on the closest active neighbor SBS. We tend to then apply our scheme only to edge users where SBSs at intervals therefore-known as the cooperation radius from every edge user cooperate. With the help of the stochastic geometry we tend to get a semi-closed expression for the coverage probability of an edge user with our scheme. We tend to investigate 2 tradeoffs on the resource efficiency of a network and therefore the coverage probability of an internal user. We tend to then confirm the optimal cooperation radius that maximizes the coverage probability of a grip user considering the two tradeoffs. Our analytical results are validated through simulations. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest D-FROST: Distributed Frequency Reuse-Based Opportunistic Spectrum Trading via Matching With Evolving Preferences - 2018 Distributed Power Control for Multi-Hop Energy Harvesting Links With Retransmission - 2018