Computing resource management method and device for 5G ultra-dense network

An ultra-dense network and computing resource technology, which is applied in the field of edge computing resource allocation, can solve problems such as task edge computing delays that cannot satisfy users, complex network environments, etc., to minimize task processing delays, solve resource management problems, and improve The effect of quality of experience

Pending Publication Date: 2021-12-03
BEIJING INFORMATION SCI & TECH UNIV
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

[0003] At present, in the 5G ultra-dense network combined with mobile edge computing, the network environment becomes more complex due to the compactness of various devices and the diversity of system resources
However, the traditional edge server resource allocation scheme only considers the computing power of the current edge server. When the remaining computing resources cannot support the current task computing, the resulting task edge computing delay will not meet the needs of users.

Method used

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  • Computing resource management method and device for 5G ultra-dense network
  • Computing resource management method and device for 5G ultra-dense network
  • Computing resource management method and device for 5G ultra-dense network

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Embodiment 1

[0077] In this embodiment, it should be noted that the edge computing-oriented 5G ultra-dense network system provided in the embodiment of the present application is a 5G ultra-dense network system with multiple base stations, multiple users, and multiple edge servers. In the system, each base station is equipped with an edge server, and the set of base stations and edge servers can be expressed as The set of user equipments (UEs) served by a base station and an edge server n can be expressed as Each UE generates a splittable computing-intensive task per time slot, part of which can be calculated locally on the device, and the rest can be offloaded to the edge server for execution, and the task processing time can exceed the interval length τ of the time slot . The data volume of the task is S u,n (t), the unit is bit, the number of CPU cycles required to calculate the unit bit task is The number of CPU cycles per unit time of the u-th UE served by the base station and t...

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Abstract

The invention provides a computing resource management method and device for a 5G ultra-dense network. The method comprises the following steps: acquiring a system state of a current time slot, wherein the system state comprises the calculation task data volume of all the user equipment and the current residual calculation resource total amount of the edge server; inputting the system state into a deep reinforcement learning model to obtain a system action, wherein the system action comprises an unloading decision of the user equipment and a computing resource allocation strategy of edge server cooperation; the unloading decision is used for determining the amount of the task data unloaded to the edge server by the user, and the computing resource allocation strategy coordinated by the edge server represents the total amount of the remaining computing resources of the edge server according to the current time slot of the system and the computing resources allocated to the user equipment served by the edge server. The problem of resource management in an ultra-dense network environment in which multiple servers are densely deployed is effectively solved, the task processing delay is minimized, and the user experience quality is further improved.

Description

technical field [0001] This application relates to the field of edge computing resource allocation, in particular to a computing resource management method and device for 5G ultra-dense networks. Background technique [0002] Driven by the rapid development of smart devices and the fifth-generation mobile communication technology 5G (fifith-generation), various complex services and emerging businesses such as the Industrial Internet of Things, unmanned driving, and smart fire protection continue to emerge. In increasingly complex network scenarios, user equipment will continuously generate different types of tasks, resulting in a large amount of data traffic. The resulting mission data needs to be processed in a timely, reliable and efficient manner. Generally speaking, resources such as computing power and battery capacity of the user equipment are very limited. In order to solve the problem of limited user equipment resources, tasks can be offloaded to edge servers for e...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04W28/16G06N3/08H04W24/02H04W28/22
CPCH04W28/16H04W28/22G06N3/08H04W24/02
Inventor 陈昕郭东超马卓刘智勇
Owner BEIJING INFORMATION SCI & TECH UNIV
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