Abstract
Many solutions about the teleoperation of unmanned robotic excavators have been studied continuously. However, if excavators that are remotely controlled were employed, the probability of an accident would be higher. For this reason, there have been many ways proposed to attempt to reduce accidents in these dangerous situations. In this paper, a novel methodology will be introduced with a focus on the multiple excavators themselves. The proposed method details how one excavator can be generated or expressed as an obstacle in the Configuration-Space (C-space) with respect to another excavator’s side for collision avoidance each other. This method is based on kinematics information which is measurable and given. Therefore, this method can be used or applied independently by using widely used pose sensors and wireless communication devices. The phase of mathematical derivation about obstacle sets is described in detail. The results are shown in accompanying figures and tables for demonstrating that the proposed method detected the proximity and found the collision-free zone accurately. The proposed system can be powerful when applied to a teleoperation system, where it would be particularly useful and helpful to the operator.
Highlights
The typical excavator uses a hydraulic actuator and variable attachments, so its applications are unlimited
The obstacles are generated in the three defined types of C-space as images so that they could be used as a supplementary index for workers or multiple robotic excavators in avoiding a collision more precisely
Simulation parameters for obstacle creation for driving guidance are described in Tables 1 and 2
Summary
The typical excavator uses a hydraulic actuator and variable attachments, so its applications are unlimited. The obstacles are generated in the three defined types of C-space as images so that they could be used as a supplementary index for workers or multiple robotic excavators in avoiding a collision more precisely Most of all, this method is based on kinematics information, which is measurable and given. In the case of role of an index, the proposed method can be used independently or in combination with existing warning and detection solutions by using widely used sensor devices. This is the reason why this paper developed the kinematics-based method to achieve the objective.
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