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Method for scheduling message at static segment of automobile FlexRay bus

A scheduling method and static segment technology, applied in bus network, data exchange through path configuration, digital transmission system, etc., can solve the problems that CAN bus communication protocol cannot meet the requirements and lack of comprehensive research on message jitter, etc.

Active Publication Date: 2017-09-26
HEFEI UNIV OF TECH
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AI Technical Summary

Problems solved by technology

People's requirements for vehicle safety and comfort are getting higher and higher, which makes more and more electronic control systems applied to automobiles, and the data transmission volume on the vehicle bus also increases sharply, which also improves vehicle data. The original CAN bus communication protocol gradually fails to meet the requirements of interaction accuracy and transmission timing
[0003] Although the current research work has made a lot of achievements in the parameter design of the static segment of the FlexRay network and the optimal scheduling of messages, there are few comprehensive studies on improving the network bandwidth utilization, the number of frames allocated by messages, and message jitter.
In the case that the repetition period of the message is inconsistent with the communication period of FlexRay, the response time of the message is required to be less than or equal to its deadline and the message jitter is small, but the existing technology cannot achieve this effect

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  • Method for scheduling message at static segment of automobile FlexRay bus
  • Method for scheduling message at static segment of automobile FlexRay bus
  • Method for scheduling message at static segment of automobile FlexRay bus

Examples

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Embodiment Construction

[0046] Referring to accompanying drawing, a kind of automobile FlexRay bus static segment message scheduling method, specifically:

[0047] Given a FlexRay network, including the number of nodes, the set of message flows that nodes need to send, and the sending cycle of all messages;

[0048] Establish an integer linear programming problem model for static segment message design. The model is based on the weighted sum of the number of frames allocated by nodes and the jitter value of node messages as the optimization goal. The smaller the weighted sum of the total number of frames allocated by the network and the jitter value of node messages Well, the message repeat sending period is less than or equal to the message repeat generation period, the node allocation frame number equation of the network static segment and the node message jitter value equation as constraints; the optimal node message repeat sending cycle value is obtained by calculation, and the optimal message is ...

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Abstract

The invention discloses a method for scheduling a message at the static segment of an automobile FlexRay bus and proposes an integral linear programming problem model for solving message parameters. As for a given FlexRay network system, the model takes the weighted sum of the frame number of node allocation and jitter values of node messages as an optimization objective and requests that the smaller the weighted sum of the frame number of network allocation nodes and the jitter values of the node messages, the better, the optimal repeated message sending cycle is solved under the constraint condition of the repeated message sending cycle smaller than or equal to the repeated message generation cycle, a network static segment node allocation frame number equation and a node message jitter value equation, repeated sending cycles corresponding to all messages of the FlexRay network static segment and allocated frames are further obtained, and an algorithm is provided for parameter configuration of the network static segment. The network bandwidth utilization rate can be increased, and the method is applicable to the non-synchronous conditions of the repeated message cycles and the FlexRay communication cycle.

Description

technical field [0001] The invention relates to the technical field of automobile bus network parameter configuration, in particular to a static segment message scheduling method of an automobile FlexRay bus. Background technique [0002] With the development of automotive electronic technology, the control of the body system is gradually changing to automation and intelligence, and the automotive electrical system is becoming increasingly complex. People's requirements for vehicle safety and comfort are getting higher and higher, which makes more and more electronic control systems applied to automobiles, and the data transmission volume on the vehicle bus also increases sharply, which also improves vehicle data. The original CAN bus communication protocol gradually fails to meet the requirements of interaction accuracy and transmission timing. [0003] Although the current research work has made a lot of achievements in the parameter design of the static segment of the Fl...

Claims

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Application Information

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IPC IPC(8): H04L12/24H04L12/40H04L12/885H04L49/9023
CPCH04L12/4013H04L12/40136H04L41/142H04L41/145H04L2012/40273H04L2012/40241
Inventor 王跃飞黄斌吴源郭中飞刘白隽孙召辉
Owner HEFEI UNIV OF TECH
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