Sports Biomechanics

Active pole bending effect in pole support phase

Globally explore sensitivities and interacteve effects of motion parameters during pole support phase to increase vaulting height

Toshihiko Fukushima, Satoshi Nishikawa, Yasuo Kuniyoshi

Active pole bending effect in pole support phase

Pole vaulting robot with dual articulated arms that can change reaching position using active bending motion

A dual hand robot achieves pole vaulting to jump 1.67m.

Satoshi Nishikawa, Tomohiro Kobayashi, Toshihiko Fukushima, Yasuo Kuniyoshi

Pole vaulting robot with dual articulated arms that can change reaching position using active bending motion

🏃 Pole vaulting robots

Sports Biomechanics from the Perspective of Robotics

Last updated on Mar 1, 2025 Project

🏃 Pole vaulting robots

Active bending motion of pole vault robot to improve reachable height

Robotic active bending motion during pole support phase improves reachable height of the robot.

Toshihiko Fukushima, Satoshi Nishikawa, Yasuo Kuniyoshi

Active bending motion of pole vault robot to improve reachable height

Effective timing of swing-up motion by a pole-vaulting robot

The swing-up motion in pole vaulting inertially generates bending moment on the pole.

Satoshi Nishikawa, Toshihiko Fukushima, Yasuo Kuniyoshi

Effective timing of swing-up motion by a pole-vaulting robot

Transitional buckling model for active bending effect in pole vault

Pole vaulters actively bend the poles to improve vaulting height.

Toshihiko Fukushima, Satoshi Nishikawa, Kazutoshi Tanaka, Yasuo Kuniyoshi

Transitional buckling model for active bending effect in pole vault