OFDM Relay Cognitive Radio Multiple Antennas Resource Allocation Full Duplex Spectrum Sensing Synchronization Spectrum Sharing Channel Estimation Interference Cancellation Stochastic Geometry Energy Harvesting Feedback Bi-directional Heterogeneous Networks Equalization HetNet relay networks FBMC Ultra Low Power SC-FDMA TVWS Duplex Reliability CDMA MIMO interference channel capacity in-band full-duplex system interference suppression 5G C-V2V reinforcement learning RSRP weighting non-orthogonal multiple access (NOMA) health care 5G mobile communication indoor positioning Vehicle-to-vehicle communication estimated position overlapping Resource sharing Power allocation multi-access edge computing control overhead hybrid Rat-dependent positioning NR positioning smart factory UFMC Handoff Femtocell QAM CoMP power uncertainty - Computation offloading amplify and forward communication Zigbee body area networks resource block management frame structure WVAN inter user interference GFDM mode selection antenna arrays partial overlap LTE-based V2V resource selection maximum likelihood method Communication range Number of training blocks Vehicular communication Uplink SCMA system Dynamic TDD QR Factorization Metaheuristics FS-NOMA cross-link interference user fairness Multi-user Receiver Mode 3 V2X P-NOMA dynamic HetNet spectrum partitioning DQN D-TDD CLI massive connectivity and 5G networks. OTDOA estimated position updating distributed mode non-orthogonal multiple access Spatial capacity LTE-TDD —Device-to-device (D2D) Location-based overloading
Status : Presented 
Date : 2012-02 
Title : On the Feasibility of a Overlay Cellular System for Future Military Networks 
Authors : Dongkyu Kim, Hano Wang, and Daesik Hong 
Conference : ICEIC2012 
Abstract : Due to the moving nature of military communication units, there should be overlaid regions where a conventional macro-cell and the moving military units represented by microcell use the same frequency band. Therefore, co-channel interference (CCI) might result in severe capacity degradation of the MWiMAX system. For a performance metric to evaluate the overlay M-WiMAX system, we define exclusion region where the frequency reuse between the macro-cell and micro-cell is prohibited because the sum capacity of the macro-cell and the micro-cell is less than the capacity of only the macro-cell due to increase in CCI caused by the micro-cell. In our result, it is shown that the exclusion region can be reduced up to 84.6% by utilizing sectorization antenna and the FFR techniques. 
Download : http://mirinae.yonsei.ac.kr/?module=file...a10fc4b7b1 

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» [ICEIC] Dongkyu Kim, Hano Wang, and Daesik Hong, "On the Feasibility of a Overlay Cellular System for Future Military Networks," ICEIC2012, Feb. 2012 file Presented  2012-02