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A digital twin-based optimal trajectory generation method and system

A trajectory generation, digital technology, applied in control/adjustment systems, two-dimensional position/channel control, instruments, etc., can solve problems such as unrealistic collision prediction, time overhead, and difficulty in applying obstacles to work scenarios, achieving both efficiency and efficiency. , Improve performance and improve work accuracy

Active Publication Date: 2022-01-25
武汉鼎元同立科技有限公司
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AI Technical Summary

Problems solved by technology

The traditional motion planning method executes the path planning program and the collision detection program in sequence; or introduces the "pruning" operation to execute the two programs alternately, which belongs to an "online" collision detection method, resulting in a certain time overhead
The optimal control method needs to predict the position or time when the collision may occur, and then avoid the collision point by adding a penalty item to the objective function or in a staged manner; however, for different planning tasks, it is unrealistic to predict the collision, that is, It cannot be explicitly integrated into the problem description of optimal control, and the distance between the robot and obstacles can only be guaranteed in an additional way; therefore, the current trajectory planning based on the optimal control method is difficult to apply to the work scene with dense obstacles

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  • A digital twin-based optimal trajectory generation method and system
  • A digital twin-based optimal trajectory generation method and system
  • A digital twin-based optimal trajectory generation method and system

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Embodiment Construction

[0028] In order to make the purpose, technical solution and advantages of the present invention clearer, the embodiments of the present invention will be further described below in conjunction with the accompanying drawings.

[0029] Please refer to figure 1 , figure 1 It is a system structure diagram of the present invention applied to industrial robots; the present invention provides an optimal trajectory generation system based on digital twins, including: data transmission interface, data interaction interface, trajectory planning module and digital mapping module;

[0030] The trajectory planning module includes: a planner component and a robot physical model component; the digital mapping module includes: an environment model and an agent model;

[0031] Among them, one of the main functions of the data transmission interface is to obtain the current state information of the robot, such as joint angular displacement, angular velocity, angular acceleration, etc. These st...

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Abstract

The invention discloses a digital twin-based optimal trajectory generation method and system. The system includes: a data transmission interface, a data interaction interface, a trajectory planning module, and a digital mapping module; the trajectory planning module includes: a planner component and a robot physics module. Model assembly; The digital mapping module includes: an environment model and an agent model; the main function of the trajectory planning module is to generate a corresponding optimal control problem according to the planning task, and solve the problem through a numerical algorithm; one of the main functions of the digital mapping module It is to quickly generate the control quantity trajectory and state quantity trajectory without collision and satisfy the robot dynamics constraints; the second function is to quickly realize the deviation evaluation and collision detection of the target trajectory. The beneficial effects are: it can take into account energy consumption while improving work precision and efficiency; it can be applied to work scenes with higher motion speed and stricter control precision requirements; optimization.

Description

technical field [0001] The present invention relates to the fields of optimal control and digital twins, in particular to a digital twin-based optimal trajectory generation method and system. Background technique [0002] Motion planning can be divided into path planning and trajectory planning, where path planning refers to the calculation of the entire collision-free state transition process from the initial state to the target state; trajectory planning is based on path planning for each intermediate state Added time-of-arrival information, which calculates the time history of all state changes. The result of path planning needs to be realized by the path tracking method of the controller, and trajectory planning can usually directly or indirectly calculate the control law. [0003] Currently popular path planning methods include heuristic search algorithms represented by A*, D* and their variants. This algorithm is a grid-based search method and is suitable for low-dime...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05D1/02
CPCG05D1/0223G05D1/0221G05D1/0276
Inventor 周冲史世杰张良
Owner 武汉鼎元同立科技有限公司
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