A method for multi-service coexistence and ip-layer data packet scheduling in industrial internet of things

An industrial Internet of Things and data packet technology, applied in the direction of data exchange network, digital transmission system, electrical components, etc., can solve the problems that the real-time performance of data packets cannot be guaranteed, reduce the network packet loss rate, etc., and achieve the goal of overcoming real-time performance. The effect of reducing the packet loss rate

Active Publication Date: 2021-11-16
DALIAN UNIV OF TECH
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This method considers the priority and transmission time of data packets at the same time, and obtains the partial switching conditions of the hybrid switching system through the calculation formula of the maximum transmission delay of data packets of each priority, and uses the hybrid switching system model to analyze the packet scheduling process , so as to design the data packet scheduling algorithm of IP layer, to overcome the problem that the real-time performance of data packets with high requirements on delay such as control class in the current industrial Internet of Things cannot be guaranteed, and also reduce the packet loss rate of the network

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  • A method for multi-service coexistence and ip-layer data packet scheduling in industrial internet of things
  • A method for multi-service coexistence and ip-layer data packet scheduling in industrial internet of things
  • A method for multi-service coexistence and ip-layer data packet scheduling in industrial internet of things

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[0036] In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings.

[0037] see figure 2 , introduces an applicable network topology diagram of a data packet scheduling algorithm based on data priority, transmission time and maximum transmission delay in the present invention. The algorithm can run on network terminals and forwarding nodes that need to send data packets. The invention uniformly schedules data packets from different types of networks in the IP layer, and realizes multi-network fusion. At the same time, the present invention uses a hybrid switching system model to analyze the data packet scheduling process, while ensuring the quality of service of various types of data in the network, it overcomes the fact that the real-time performance of data packets with high requirements on delay, such as control types in the cu...

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Abstract

An IP layer data packet scheduling algorithm oriented to multi-service coexistence and deterministic network requirements in the Industrial Internet of Things belongs to the technical field of real-time data transmission and multi-network integration of the Industrial Internet of Things. Current packet scheduling algorithms lack the analysis of the coexistence of continuous periodic data and discrete control data in the Industrial Internet of Things. The algorithm considers the priority and transmission delay of the data packets at the same time, and obtains the partial switching conditions of the hybrid switching system through the calculation formula of the maximum transmission delay of the data packets of each priority, and uses the hybrid switching system model to carry out the packet scheduling process Based on the analysis, the packet scheduling algorithm of IP layer is designed. The algorithm of the invention can be used to schedule data packets from different types of networks, realize multi-network integration, meet the real-time requirements of data packets in the industrial internet of things, and reduce the packet loss rate.

Description

technical field [0001] The invention belongs to the technical field of industrial Internet of Things data real-time transmission and multi-network integration, and relates to a scheduling algorithm for data packet scheduling at the IP layer according to data packet priority, transmission time and based on a hybrid switching system model. Background technique [0002] With the development of wireless networks and 5G technologies, multi-network integration and multi-service coexistence have become issues that must be overcome in the field of industrial Internet of Things research. At the same time, with the introduction of deterministic network application requirements, how to ensure that each data packet can be sent on the network in a timely manner as required in this hybrid network application scenario has become the key. In order to meet the end-to-end low-latency requirements of industrial IoT data packets, the IEEE802.1 working group released a series of time-sensitive n...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L29/08H04L12/865H04L47/6275
CPCH04L67/12H04L47/6275
Inventor 丁男王艳红吴迪孙希明
Owner DALIAN UNIV OF TECH
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