Abstract
As a key technology of the 5G communication system, device-to-device (D2D) communications have drawn significant research interests. However, the advantage of D2D communications may be limited when D2D users are far away from each other or the communication environments are harsh. In order to extend the range of D2D communications, a promising way is to use relaying technique to assist the communications. In this paper, we use a two-way amplify-and-forward (AF) relay to assist the underlay D2D communications and investigate the power control problem. Specifically, we formulate the power control problem as the optimization of the performance of the D2D link while fulfilling the quality-of-service (QoS) requirement of the cellular link. Two optimization objectives are considered for the D2D link, i.e., maximization of the minimum SINR at D2D users and maximization of the sum-rate of D2D users. For the first optimization objective, we can compare the possible optimal solutions for the three boundary conditions and obtain the optimal solutions. For the second optimization objective, we can convert the objective function into a concave function based on difference of convex (D. C.) structure, and use an iterative algorithm to solve the optimization problem. The simulation results show that the proposed power control scheme can improve the performance of the D2D link.
Highlights
I N recent years, the fifth-generation (5G) mobile communication system has attracted worldwide research interests and begun to be deployed all over the world [1]–[6]
We propose a two-way AF relaying scheme to assist the underlay D2D communications and investigate the power control problems, which are formulated as the optimization of the performance of the D2D link while fulfilling the QoS requirement of the cellular link
Since the power control algorithms are similar for all the possible transmission schemes, this paper focuses on one specific transmission scheme, as shown in Fig. 1, where the first phase of the two-way D2D communication shares the downlink resource of the cellular communications, while the second phase of the two-way D2D communication shares the uplink resource of the cellular communications
Summary
I N recent years, the fifth-generation (5G) mobile communication system has attracted worldwide research interests and begun to be deployed all over the world [1]–[6]. Underlay D2D communications can improve the spectrum efficiency by reusing spectrum resources, but it will cause interference between D2D and cellular users This interference can be mitigated by power control and resource allocation [11]–[13]. L. Han et al.: Power Control for Two-Way AF Relay Assisted D2D Communications Underlaying Cellular Networks cations may be limited when D2D users are far away from each other or the communication environments are harsh. In [16], the authors investigated the performance trade-off between spectral efficiency and energy efficiency in relay-assisted D2D-cellular networks, where D2D users reuse the resource of cellular uplink transmissions. We propose a two-way AF relaying scheme to assist the underlay D2D communications and investigate the power control problems, which are formulated as the optimization of the performance of the D2D link while fulfilling the QoS requirement of the cellular link.
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