Geometric Path Planning Without Maneuvers for Nonholonomic Parallel Orienting Robots

Grosch, Patrick; Thomas, Federico

doi:10.1109/lra.2016.2529688

Cited by 15 publications

(15 citation statements)

References 13 publications

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“…The combined field is 7) in which, the attractive function is T att ðq r ; q g Þ and the repulsive function is T rep ðq r ; q i Þ, q g denotes the location of target, q r is the location of a mobile robot, and q i denotes the location of a charge. According to the attractive function and repulsive function in Ge and Sui' study, 23 an improved attractive function is…”

Section: Apf Trajectory Planningmentioning

confidence: 99%

“…Target search refers to search for one or several targets in an environment with one or more robots, which involves image processing and computer vision, [1][2][3] path planning, 4,5 simultaneous localization and mapping, and so on. 6,7 During the past decade, path planning for target search is one of the most interesting and challenging problems. Different planning methods have been proposed to deal with target search problems for various applications, such as home service, plant and deep sea exploration, autonomous rescue and security patrol.…”

Section: Introductionmentioning

confidence: 99%

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A path planning strategy for searching the most reliable path in uncertain environments

Zhang

Liu

et al. 2016

International Journal of Advanced Robotic Systems

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A path planning method for searching the most reliable path in uncertain environments is proposed in this article. When a robot chases a target in a semi-structured workspace with hazards and uncertainty, which path it takes is of great matter as different paths can lead to diverse risks. To “enlighten” the robot on a wiser choice, a reliability-based topological map is built, in which it is possible to add uncertainty information such as threats and road condition to topological nodes. With this map, the robot is possible to minimize risks in carrying out a target search task. Further simulation and physical-world experiments indicate that the most reliable path method generates a path a bit longer, following which the robot encounters less risks.

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Section: Apf Trajectory Planningmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A path planning strategy for searching the most reliable path in uncertain environments

Zhang

Liu

et al. 2016

International Journal of Advanced Robotic Systems

View full text Add to dashboard Cite

show abstract

“…The actual control of non-holonomic system suffers from various disturbances, due to the error in the fabrication and assembly of non-holonomic machines, the insufficient resolution of the transmission system, and the uncertain accuracy of the measuring instrument [1,2]. As a result, the actual result of motion control often deviates from the theoretical simulation value, that is, the final configuration of the system does not coincide with the target configuration [3]. The most direct solution is to plan the path again for the system to move from the actual configuration to the target configuration [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Path Planning for Chainable Non-holonomic System Based on Iterative Learning Control

Li¹,

Zhao²,

Li³

2020

JESA

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Non-holonomic path planning is to solve the two point boundary value problem under constraints. Since it is offline and open-loop, the path planning cannot compensate for the disturbances and eliminate the errors. To solve the problems, this paper puts forward an iterative learning control algorithm that adjusts the control parameters of the path planner online through the multiple iterative computations of the target configuration error equation, under the initial configuration error and model error, and thus enhancing the accuracy of non-holonomic system path planning. Then, a simulation experiment on path planning was carried out for a chainable three-joint, non-holonomic manipulator. The results show that the iterative learning controller can eliminate the interference of initial configuration error and model error, such that each joint can move to the target configuration.

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“…Robot path planning is one of the basic contents of robot strategy research, and it is a key technology to realize robot intelligence. Its task is to find a collision-free path from the initial state (including position and attitude) to the target state (including position and attitude) in an environment with obstacles and according to certain evaluation criteria [5][6]. Path planning is mainly used in the underlying strategy of robots.…”

Section: Introductionmentioning

confidence: 99%

Motion Control and Path Planning and Tracking Algorithm of Football Robot

2020

IJMC

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In robotic football, the effectiveness of robot actions and behaviors is completely based on accurate prediction and effective planning of future walking paths and correct adjustment of the posture of the robot when it collides with the football. The purpose of path planning is mainly to plan a collision-free path that meets an evaluation index on a competition-filled field. As the basis for the realization of the basic action of a soccer robot, its pros and cons will directly affect the real-time and accuracy of the action. Therefore, every soccer robot researcher has made it a research focus. This paper mainly studies the motion control and path planning tracking algorithms of soccer robots. In the simulation experiment of this paper, at the end of the interpolation, each joint of the soccer robot has a sudden change in speed from 0.1 rad / s to 0.5 rad / s. Comparing the two speed planning interpolation methods, the speed of the forward segmented speed planning interpolation is more stable. Compared with the trapezoidal speed planning, the speeds jitter of each joint when the robot stops is reduced by more than 90%. This paper proposes the theory of computational verbs combined with the area search method to solve the problem of real-time image information acquisition of small football robotic systems, template matching and similarity solution for robot identification, and decomposing the computational verbs into action words and column verbs to reduce the system's calculation load. It improves the accuracy and stability of image information and lays a foundation for path planning and other research.

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Geometric Path Planning Without Maneuvers for Nonholonomic Parallel Orienting Robots

Cited by 15 publications

References 13 publications

A path planning strategy for searching the most reliable path in uncertain environments

A path planning strategy for searching the most reliable path in uncertain environments

Path Planning for Chainable Non-holonomic System Based on Iterative Learning Control

Motion Control and Path Planning and Tracking Algorithm of Football Robot

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