Avian-Inspired Perching Mechanism for Jumping Robots

The integration of multiple locomotion strategies and behaviors allows robots to extend the working environment and enhance the performance of each motion. This work integrates perching to a jumping robot to improve the jumping performance. The developed avian-inspired perching device has a shock-absorbing mechanism, which consist of a 3D printable flexible polymer material that absorbs the perching impact. This work characterizes the shock-absorbing performance of the viscoelastic material as a function of hardness and thickness of the material, initial angles of a mechanism, mechanism length, perching speed, and perching angle. This work also characterizes the performance of mechanical interlocking and penetration as the engagement strategies for vertical surfaces. The performance of perching mechanism as a function of hardness of the target surface, contact angle of the claw, and performance of the shock absorption is observed. Finally, demonstrations to evaluate the perching mechanism's performance on the complete system are conducted, and the robot's performance enhancement with an integrated perching motion is shown. This work provides a design methodology to develop and integrate a perching mechanism into jumping robots.

Automated summary

This study integrates perching technology into a jumping robot to improve its jumping performance. A shock-absorbing mechanism is developed, which utilizes a 3D printable flexible polymer material to absorb impact. The performance of the viscoelastic material is characterized based on various parameters, and the engagement strategies for vertical surfaces are also evaluated. Demonstrations show the enhanced performance of the robot with the integrated perching motion. This study provides a design methodology for developing and integrating perching mechanisms into jumping robots.