Design and Analysis of Jittering Mitigator for Robot Arm-Tip

To tackle the jittering of a robot arm-tip, a novel method of the jittering mitigation is proposed. The key idea is to transmit the jittering to vibration of a mass block nested inside the jittering-mitigator. This method only requires the frequency of the jittering at the arm-tip. To verify the practicability of the method, a practical robot was applied through simulations and physical experiments. The jittering mitigator device can be directly attached to or detached from the arm-tip. The jittering at the arm-tip was first measured through experiments using accelerometers connected to the vibration and noise testing system. Then, the dominant frequency was identified through fast Fourier transform analysis. The theoretical parameters of the jittering mitigator were calculated accordingly. A model was established to simulate the jitter reduction effect of the mitigator. The results revealed a 68% reduction in the average amplitude of the jittering vibration at the arm-tip, which is corroborated by the experiment results. The proposed method could be applicable to all types of robots theoretically because it only requires computing the frequency of jitter.

Automated summary

A novel method for mitigating the jittering of a robot arm-tip is proposed, which involves transmitting the jittering to a vibration of a mass block inside a jittering mitigator. This method only requires the frequency of the jittering at the arm-tip. The feasibility of the method is verified through simulations and physical experiments with a practical robot, resulting in a significant reduction in the amplitude of the jittering vibration at the arm-tip.