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Local path planning algorithm and device

A local path planning and algorithm technology, applied in two-dimensional position/course control, vehicle position/route/height control, instruments, etc., can solve robot obstacle collision, robot falling into local minimum, no direct exclusion of speed, etc. question

Active Publication Date: 2020-10-23
UNIV OF SCI & TECH OF CHINA
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Problems solved by technology

The dynamic window method mainly uses the evaluation function to evaluate each trajectory, and then selects the velocity corresponding to a trajectory with the highest evaluation as the velocity input. Therefore, the selection of the final velocity has a direct relationship with the The smaller the direction angle, the higher the evaluation, which makes the dynamic window method more inclined to choose the trajectory moving towards the target direction. However, when there are obstacles in front of the robot, the desired trajectory not only needs to move towards the target, but also needs to be away from the obstacle. , the emergence of this contradiction makes the robot fall into a local minimum point, which is manifested as a continuous cycle or even stagnation near this position; in addition, when the dynamic window method evaluates the trajectory, it does not directly exclude the trajectory that crosses obstacles. The corresponding speed is given a low evaluation, which may lead to the situation that the evaluation of other evaluation function items is still high, and then it is concluded that the optimal trajectory will be generated by this group of speeds, resulting in a robot with a high probability of being similar to obstacles. Collide

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Embodiment Construction

[0027] In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be described in further detail below in conjunction with specific embodiments and with reference to the accompanying drawings.

[0028] The mobile device will be equipped with a 360-degree scanning sensor, such as a laser radar, to perceive the local environment. In the embodiment of the present invention, the mobile device is used as a robot as an example to describe the solution in detail. When the robot moves on the ground, the surrounding environment There are often many scattered obstacles (such as figure 1shown), so the robot needs to effectively avoid these obstacles and reach the destination during the movement process.

[0029] In the first aspect, the present invention provides a local path planning algorithm for path planning of mobile devices, the mobile devices are loaded with sensors, see figure 2 and image 3 , the algorithm inclu...

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Abstract

The invention provides a local path planning algorithm and device, which are used for path planning of mobile equipment that is provided with a sensor. The algorithm comprises the following steps: S1,judging whether the mobile equipment reaches a destination or not, and if so, ending a process, or if not, executing step S2; S2, acquiring a candidate gap set according to sensor data; S3, selectinga nearest gap from the candidate gap set as a target gap; S4, determining the moving direction of the mobile equipment according to the target gap; S5, controlling the mobile equipment to move alongthe target direction by adopting an improved dynamic window method; and S6, repeating the steps S1 to S5 until the mobile equipment reaches the destination or no feasible gap exists. The path of the mobile equipment is planned based on gaps and an improved dynamic window method so as to reduce the condition of local extreme value and improve obstacle avoidance performance.

Description

technical field [0001] The invention relates to the technical field of path planning for mobile devices, in particular to a local path planning algorithm and device. Background technique [0002] The path planning algorithm is mainly divided into global path planning and local path planning. The dynamic window method is a typical local path planning algorithm. The dynamic window method takes into account the actual dynamic constraints and kinematic constraints of the robot, and samples the velocity window in the velocity space. Multiple sets of velocities within the model, and predict the trajectories formed within a certain period of time, and then use the evaluation function to evaluate these trajectories, and finally select the velocity corresponding to the highest evaluated trajectory as the velocity input at the current moment. The dynamic window method mainly uses the evaluation function to evaluate each trajectory, and then selects the velocity corresponding to a traj...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05D1/02
CPCG05D1/0212
Inventor 秦家虎高炤王帅
Owner UNIV OF SCI & TECH OF CHINA
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