Method for selecting proxy nodes to manage fog computing network based on slime mould algorithm

A proxy node and fog computing technology, which is applied in the direction of data exchange network, digital transmission system, electrical components, etc., can solve the problems of high delay of proxy nodes, ineffective use of fog computing, high delay, etc., and optimize resource access , high-efficiency edge computing capabilities, and the effect of optimizing the scheduling distance

Active Publication Date: 2021-11-02
CHINA UNIV OF GEOSCIENCES (WUHAN)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Due to the fact that the location layout of the large nodes is far and uneven from the terminal, the resulting proxy nodes will also have high delays and uneven loads on the fog nodes. At the same time, some fog nodes cannot pass through the proxy nodes due to the distance. Connecting to the fog network to play a role, resulting in a waste of fog resources
With the massive access of IoT devices, the task load of fog computing is increasing rapidly, and more and more fog node resources can be connected to the fog network. However, the current fog network management methods cannot adapt to this expansion and cause certain high Delay problem, can not effectively play the advantages of fog computing

Method used

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  • Method for selecting proxy nodes to manage fog computing network based on slime mould algorithm
  • Method for selecting proxy nodes to manage fog computing network based on slime mould algorithm
  • Method for selecting proxy nodes to manage fog computing network based on slime mould algorithm

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Embodiment 1

[0076] The smaller the distance, the better the transmission delay. The slime mold algorithm can effectively reduce the long distance caused by the insufficient number of agents when the number of traditional agent nodes is small. After conversion, in the case of insufficient number of traditional nodes (5-9) , using the slime mold algorithm can shorten the scheduling distance by an average of 86.2%. In the case of a suitable number of traditional agents (10-18), it also has an optimization effect.

[0077] By considering how many nodes can form scheduling and process tasks, it reflects the size of computing resources connected to the fog network.

Embodiment 2

[0079] The slime mold algorithm can comprehensively increase the number of fog nodes connected to the fog network, effectively utilize the resources of fog nodes, and in the case of a suitable number of traditional agents, the improvement is more obvious. After conversion, the average overall situation (5-18), The slime mold algorithm can increase the amount of resource access by 97%, especially in the case of a large number of traditional nodes (10-18), using the slime mold algorithm can increase the amount of resource access by an average of 1.25 times.

[0080] When the number of connected fog nodes is small, the average scheduling distance is also small, because the nearest node is selected, and the node with a larger distance cannot be connected. As the access volume increases, the scheduling distance also increases. At the same time, it can be seen that the slime mold fog network generation algorithm has different optimization emphases on the two performance evaluation in...

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Abstract

The invention discloses a method for selecting proxy nodes to manage a fog computing network based on a slime mould algorithm, and relates to the technical field of fog computing and computer networks. The problems that an existing fog network management method cannot adapt to expansion, causes certain high time delay, and cannot effectively exert the advantages of fog computing are solved. The method comprises a fog network information acquisition module, a proxy node selection module and a proxy node working module, wherein the fog network information acquisition module simulates an information acquisition mode of slime mould on a surrounding overall environment; the proxy node selection module selects,as proxy nodes,a certain number of nodes meeting a selection standard from fog nodes by using the slime mould algorithm. According to the method, the number of the proxy nodes is reduced, the behaviors that the large nodes are directly selected as the proxy nodes are reduced, the selection of the proxy nodes, including positions capabilities, and quantity, can be controlled by the slime mould algorithm, the good load balance of the management of the fog network is always kept, and the more efficient edge computing capability is exerted.

Description

technical field [0001] The present invention relates to the field of fog computing and computer network technology, in particular to a method for selecting agent nodes to manage fog computing network based on slime mold algorithm. Background technique [0002] Domestic scholars have proposed the method of using the master node to establish a fog group to form a fog network management framework. The current technical solution is to mechanically select proxy nodes to manage nodes in the fog network according to large nodes (gateways, routers, and small servers). After the proxy node is selected, it is only responsible for the information processing of task offloading, and the real task scheduling operation still needs to occupy fog node resources. Due to the fact that the location layout of the large nodes is far and uneven from the terminal, the resulting proxy nodes will also have high delays and uneven loads on the fog nodes. At the same time, some fog nodes cannot pass thr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04L29/08H04L12/24
CPCH04L67/1008H04L41/145H04L41/50H04L67/56H04L67/60
Inventor 赵一石董晋良陈佳凯
Owner CHINA UNIV OF GEOSCIENCES (WUHAN)
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