Abstract
This paper proposes a heuristic resource block allocation using complete graphs (abbreviated to RACG) mechanism for device-to-device (D2D) communication. RACG not only can reduce the cochannel interference but also can improve the overall system capacity. For RACG, we define two pieces of user equipment in the D2D communication as one D2D pair and use the interference between each D2D pair to establish an interference graph model, which is then used to identify all complete graphs with different numbers of vertices. The innovation of RACG is right that it begins with resource block (RB) allocation for the D2D pairs in the complete graph with the largest number of vertices and considers three additional parameters to determine the allocation sequence for the D2D pairs. The three additional parameters are the frequency at which D2D pairs appear in complete graphs, the interference level of a D2D pair to other D2D pairs, and the number of RBs required. Furthermore, RACG prioritizes the reuse of allocated RB chunks during RB allocation. When a D2D pair and other D2D pairs with allocated RBs do not have mutual interference, the allocated RB chunk that has the closest number of RBs to the number of RBs required is selected and reused. We conduct performance analysis and compare the proposed RACG with a resource allocation of degree-based greedy (RADG) approach. The performance measures include the RB usage rate and occupied rate in a frame.
Highlights
The development of mobile communication technology brings about massive increases of user equipment (UE) such as smart phones, machine-to-machine modules, and tablets, which in turn cause sudden increases in bandwidth demand in mobile communication networks
The allocation sequence for D2D pairs is determined according to three additional parameters, namely, the number of times D2D pairs appear in different complete graphs, the interference effect of a D2D pair on other D2D pairs, and the number of resource block (RB) required by a D2D pair
This paper proposes a heuristic RB allocation mechanism using complete graphs for D2D communication in LongTerm Evolution-Advanced (LTE-A) and beyond mobile communication networks
Summary
The development of mobile communication technology brings about massive increases of user equipment (UE) such as smart phones, machine-to-machine modules, and tablets, which in turn cause sudden increases in bandwidth demand in mobile communication networks. The D2D pairs that do not have mutually overlapping transmission ranges can use the same bandwidth resource to transmit simultaneously; through frequency reuse, the overall system capacity can be enhanced. Aiming to maximize the benefits of frequency reuse and reduce the interference level among adjacent D2D pairs, this paper proposes a heuristic RB allocation mechanism using complete graphs (abbreviated to RACG).
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