Abstract
Device-to-device (D2D) communications in cellular spectrum have the potential of increasing the spectral and energy efficiency by taking advantage of the proximity and reuse gains. Although several resource allocation (RA) and power control (PC) schemes have been proposed in the literature, a comparison of the performance of such algorithms as a function of the available channel state information has not been reported. In this paper, we examine which large scale channel gain knowledge is needed by practically viable RA and PC schemes for network assisted D2D communications. To this end, we propose a novel near-optimal and low-complexity RA scheme that can be advantageously used in tandem with the optimal binary power control scheme and compare its performance with three heuristics-based RA schemes that are combined either with the well-known 3GPP Long-Term Evolution open-loop path loss compensating PC or with an iterative utility optimal PC scheme. When channel gain knowledge about the useful as well as interfering (cross) channels is available at the cellular base station, the near-optimal RA scheme, termed Matching, combined with the binary PC scheme is superior. Ultimately, we find that the proposed low-complexity RA + PC tandem that uses some cross-channel gain knowledge provides superior performance.
Highlights
Device-to-device (D2D) communications in cellular spectrum assisted by a cellular network can increase the spectrum and energy efficiency of mobile broadband services, facilitate low latency machine type communications, and help extend the cellular coverage
For Each physical resource blocks (PRB)-j in each cell do Something if PRB-j is used by a cellular user equipment (UE) only (i.e. PRB-j is not reused by a D2D pair) Let the cellular UE using PRB-j transmit with maximum power else Assume PD2D = PDm2aDx and PUE = PUmEax Estimate SNRD2D, SINRD2D, SNRUE and SINRUE sMAX = maximize{s(SNRD2D), s(SNRUE), s(SINRD2D) + s(SINRUE)} if sMAX == s(SNRD2D) PD2D = PDm2aDx, PUE = 0 else if sMAX == s(SNRUE) PD2D = 0, PUE = PUmEax end if else PD2D = PDm2aDx, PUE = PUmEax end if end if end for Algorithm 4: Binary power control for D2D communications
We considered a small set of viable resource allocation (RA) and power control (PC) schemes for cellular network assisted D2D communications and compared their performance
Summary
Device-to-device (D2D) communications in cellular spectrum assisted by a cellular network can increase the spectrum and energy efficiency of mobile broadband services, facilitate low latency machine type communications, and help extend the cellular coverage. Feasible MS, RA, and PC algorithms for D2D communications often rely on the availability of large scale channel state information, such as the large scale channel gains between transmitters and intended receivers [24, 25] as it will be discussed in detail . We will discuss the suitability of RA and PC algorithms depending on the availability of these channel gains and investigate the performance of practically feasible resource management schemes. To this end, we model the hybrid cellular-D2D network as a set of L transmitter-receiver pairs.
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