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A d2d resource allocation method based on joint multiplexing of uplink and downlink spectrum

A resource allocation and frequency spectrum technology, which is applied in the field of D2D resource allocation based on joint multiplexing of uplink and downlink spectrum, can solve problems such as single spectrum multiplexing mode, inability to fully utilize spectrum resources, and inability to maximize network throughput, so as to achieve reasonable allocation , low time complexity, and reasonable channel effects

Active Publication Date: 2022-08-02
HARBIN ENG UNIV
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Problems solved by technology

The first type of research proposes to reuse the uplink resources of cellular users. Most of these studies use game theory or auction mechanism to determine the transmission power between cellular users and D2D users, but they do not consider the impact of shared spectrum resources on cellular users. The impact of communication quality (Li Y, Jinn D, Yuan J, et al. Coalitional games for resource allocation in the device-to-device uplink undelaying cellular networks [J]. IEEE Transactions on wireless communications, 2014,13(7):3965- 3977.)
The second type of research proposes to reuse the downlink resources of cellular users, allowing D2D users to reuse the downlink spectrum resources of multiple cellular users or microcellular users, and proposes corresponding improved algorithms for channel selection, but does not consider the impact of user power on The impact of system throughput does not maximize the throughput of the network
The third type of research proposes to jointly reuse the uplink and downlink resources of cellular users, but only allows each pair of D2D users to jointly reuse the uplink and downlink spectrum resources of a single cellular user, which cannot make full use of the spectrum resources in the system
[0005] (1) Most studies on D2D resource allocation only consider a single spectrum multiplexing method, and do not consider joint multiplexing of uplink and downlink spectrum
[0006] (2) Most studies only allow each pair of D2D users to reuse the spectrum resources of a single cellular user
[0007] (3) Many studies only roughly considered the influence of D2D user power on D2D network throughput, and did not consider the influence of cellular user transmission power on it

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  • A d2d resource allocation method based on joint multiplexing of uplink and downlink spectrum
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  • A d2d resource allocation method based on joint multiplexing of uplink and downlink spectrum

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Embodiment Construction

[0070] The technical solutions of the present invention are further described in detail through the following specific embodiments. It should be understood that the specific examples described herein are only used to explain the present invention, but not to limit the present invention.

[0071] figure 1 It is a scene diagram of D2D resource allocation based on joint multiplexing of uplink and downlink spectrum. This scenario represents that in a single-cell system using frequency division duplexing (FDD), m cellular users and n pairs of D2D users coexist, and the number of cellular users is much larger than the number of D2D pairs of users. The role of the base station is to allocate one uplink and one downlink resource to each cellular user, and it is assumed that the frequency spectrum of the uplink and the downlink each account for half of the total frequency spectrum. At the same time, since the number of cellular users is much larger than the number of D2D users, the p...

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Abstract

The invention discloses a D2D resource allocation method based on uplink and downlink spectrum joint multiplexing, and belongs to the technical field of wireless communication. The invention firstly models the D2D channel allocation variables and related constraints; respectively models the transmission rates of the D2D users and the cellular users in the multiplexing mode, aiming at maximizing the throughput of the D2D network, the D2D resources are allocated The problem is constructed as a mixed integer nonlinear programming problem Φ; the problem Φ is decomposed into a power allocation problem Φ 1 and the channel assignment problem Φ 2 ; use Lagrange duality theory to convert the problem Φ 1 Converted to a convex optimization problem; the problem Φ 1 Substitute the solution into Φ to get the problem Φ 2 , transform it into a bipartite graph maximum weight matching problem, and then use the Hopcroft-Karp algorithm to solve until the optimal channel resource allocation for all D2D users is achieved, thereby maximizing the throughput of the D2D network.

Description

technical field [0001] The invention belongs to the technical field of wireless communication, and in particular relates to a D2D resource allocation method based on uplink and downlink spectrum joint multiplexing. Background technique [0002] The popularization of smart terminals and the vigorous development of mobile 5G networks have promoted the development of mobile multimedia services, such as online live broadcasting, interactive online games, etc. These services play a very important role in people's daily life. However, the operation of these multimedia services requires a large amount of spectrum resources for support, which brings great challenges to base stations with limited spectrum resources. In order to solve the contradiction between multimedia services requiring spectrum resources and base stations with shortage of spectrum resources, D2D spectrum sharing technology (device-to-device spectrum sharing technology), that is, D2D users can choose to share the s...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L47/70H04W4/70H04W16/14H04W52/38H04W72/04
CPCH04W4/70H04W16/14H04W52/383H04W72/0453
Inventor 冯光升何迪吕宏武王慧强郭方方李冰洋王瑞妮苑莹莹
Owner HARBIN ENG UNIV
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