DocumentCode :
2151588
Title :
Mode selection and transceiver design for rate maximization in underlay D2D MIMO systems
Author :
Tolli, Antti ; Kaleva, Jarkko ; Komulainen, Petri
Author_Institution :
Centre for Wireless Communications, Univ. of Oulu, P.O. Box 4500, 90014, Finland
fYear :
2015
fDate :
8-12 June 2015
Firstpage :
4822
Lastpage :
4827
Abstract :
Linear coordinated transmit-receive beamforming methods are proposed for spatial underlay direct device-to-device (D2D) communication in cellular networks where both user terminals (UT) and base stations (BS) employ multiple antenna elements. For a D2D terminal pair, direct communication is a beneficial alternative compared to the cellular mode, where the direct data is relayed via BS. The transmitter and receiver design is formulated as a weighted sum-rate (WSR) maximization problem subject to individual transmit power constraints at BSs and users, where the utility is the aggregate sum of end-to-end data rates carried via uplink, downlink, and D2D links. The direct D2D links are allowed to co-exist with the cellular connections. The original problem is reformulated as an equivalent log-MSE minimization problem allowing alternating optimization of the transmit and receive beamformers. The precoder optimization step is efficiently solved using successive convex approximation (SCA) of the non-convex objective and constraints. According to the results, the system performance can be significantly improved with efficient mode selection between the BS and D2D transmission as opposed to solely serving all the users via D2D links or BS. Also, in certain scenarios, it is beneficial to allow a multi-route connection between the UTs.
Keywords :
Approximation methods; Downlink; Interference; Optimization; Receivers; Transmitters; Uplink;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Communications (ICC), 2015 IEEE International Conference on
Conference_Location :
London, United Kingdom
Type :
conf
DOI :
10.1109/ICC.2015.7249086
Filename :
7249086
Link To Document :
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