OFDM Multiple Antennas Cognitive Radio Relay CDMA Synchronization Channel Estimation Spectrum Sharing Interference Cancellation Full duplex Spectrum Sensing Resource Allocation Neural Networks Stochastic Geometry Equalizer Bi-Directional Feedback Femtocell Energy Harvesting Heterogeneous Networks Device-to-Device (D2D) Cross-link interference Cell Search SINR mismatch problem Ultra-dense small cell networks HetNet Idle cells Spectral efficiency Dynamic TDD interference management NOMA FBMC selection diversity Handoff outage probability mode selection B5G multi-spectral achievable sum rate Grant-free Transmission Filtered OFDM tabu-search bursty traffic model flexible duplex 5G Asynchronous Transmission Preamble Deep learning Shortened TTI automatic repeat request (ARQ) Two-way communications transmission capacity (TC) in-band full-duplex system self-interference cancellation Complexity Ultra-dense small cell sensing duration Correlated MIMO Cognitive relay networks Heterogeneous channel estimation capability Bi-directional full-duplex full-duplex cellular full-duplex relay Simultaneous Sensing and Transmission UWB OQAM Windowing Vehicle-to-vehicle communication prototype filter pilot signal LTE-based V2V link reliability resource size control interference to noise ratio eigen decomposition TS-W-OFDM C-V2V massive connectivity Reliability Vehicle-to-Vehicle full-spreading NOMA Resource management Cooperative systems Coexistence scenarios mixed numerology 6G Cell-free Coexisting network Multiple access Railway CP-OFDM MLP Edge computing Full-duplex Mobility non-orthogonal multiple access HST interference mitigation Computation offloading TDD configuration Singular Vale Decomposition
Status : Published 
Date : 2011-12 
Title : Capacity Enhancement Using an Interference Limited Area for Device-to-Device Uplink Underlaying Cellular Networks 
Authors : Hyunkee Min, Jemin Lee, Sungsoo Park and Daesik Hong 
Journal : IEEE Transactions on Wireless Communications 
Abstract : A new interference management strategy is proposed to enhance the overall capacity of cellular networks (CNs) and device-to-device (D2D) systems. We consider M out of K cellular user equipments (CUEs) and one D2D pair exploiting the same resources in the uplink (UL) period under the assumption of M multiple antennas at the base station (BS). First, we use the conventional mechanism which limits the maximum transmit power of the D2D transmitter so as not to generate harmful interference from D2D systems to CNs. Second, we propose a D-interference limited area (ILA) control scheme to manage interference from CNs to D2D systems. The method does not allow the coexistence (i.e., use of the same resources) of CUEs and a D2D pair if the CUEs are located in the D-ILA defined as the area in which the interference to signal ratio (ISR) at the D2D receiver is greater than the predetermined threshold, D. Next, we analyze the coverage of the D-ILA and derive the lower bound of the ergodic capacity as a closed form. Numerical results show that the D-ILA based D2D gain is much greater than the conventional D2D gain, whereas the capacity loss to the CNs caused by using the D-ILA is negligibly small. 
URL : http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6047553 
Download : http://mirinae.yonsei.ac.kr/?module=file...53359d8e35 
Hyunkee Min; Jemin Lee; Sungsoo Park; Daesik Hong; , "Capacity Enhancement Using an Interference Limited Area for Device-to-Device Uplink Underlaying Cellular Networks," Wireless Communications, IEEE Transactions on , vol.10, no.12, pp.3995-4000, December 2011
doi: 10.1109/TWC.2011.100611.101684
URL: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6047553&isnumber=6107468
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» [IEEE Trans. Wireless Commun.] Hyunkee Min, Jemin Lee, Sungsoo Park, and Daesik Hong, "Capacity Enhancement Using an Interference Limited Area for Device-to-Device Uplink Underlaying Cellular Networks" IEEE Trans. Wireless Comm., Dec 2011 file Published  2011-12 
1 [IEEE Trans. Wireless Commun.] Hyunkee Min, Woohyun Seo, Jemin Lee, Sungsoo Park, and Daesik Hong,"Reliability Improvement Using Receive Mode Selection in the Device-to-Device Uplink Period Underlaying Cellular Networks," IEEE Trans. Wireless Commun., Feb. 2011 file Published  2011-02