Journal of Bionic Engineering ›› 2021, Vol. 18 ›› Issue (6): 1280-1290.doi: 10.1007/s42235-021-00104-w

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Biomimetic Quadruped Robot with a Spinal Joint and Optimal Spinal Motion via Reinforcement Learning 

 Young Kook Kim 1, Woojin Seol 2, Jihyuk Park 3    

  1. 1 LV R&D Team , Electro-technology R&D Center, LS Electric Co., Ltd , Cheongju   28437 , Republic of Korea 
    2 Digital Innovation Unit , Korea Hydro & Nuclear Power Co., Ltd , 1312-gil Yuseongdaero, Yusung-gu , Daejeon   34101 , Republic of Korea 
     3 Department of Automotive Engineering, College of Mechanical and IT Engineering , Yeungnam University , 280 Daehak-ro , Gyeongsan , Gyeongbuk   38541 , Republic of Korea 
  • 收稿日期:2021-01-27 修回日期:2021-09-09 接受日期:2021-10-06 出版日期:2021-11-10 发布日期:2021-12-21
  • 通讯作者: Jihyuk Park E-mail:jihpark@yu.ac.kr
  • 作者简介: Young Kook Kim 1, Woojin Seol 2, Jihyuk Park 3

Biomimetic Quadruped Robot with a Spinal Joint and Optimal Spinal Motion via Reinforcement Learning 

 Young Kook Kim 1, Woojin Seol 2, Jihyuk Park 3    

  1. 1 LV R&D Team , Electro-technology R&D Center, LS Electric Co., Ltd , Cheongju   28437 , Republic of Korea 
    2 Digital Innovation Unit , Korea Hydro & Nuclear Power Co., Ltd , 1312-gil Yuseongdaero, Yusung-gu , Daejeon   34101 , Republic of Korea 
     3 Department of Automotive Engineering, College of Mechanical and IT Engineering , Yeungnam University , 280 Daehak-ro , Gyeongsan , Gyeongbuk   38541 , Republic of Korea 
  • Received:2021-01-27 Revised:2021-09-09 Accepted:2021-10-06 Online:2021-11-10 Published:2021-12-21
  • Contact: Jihyuk Park E-mail:jihpark@yu.ac.kr
  • About author: Young Kook Kim 1, Woojin Seol 2, Jihyuk Park 3

摘要: Feline animals can run quickly using spinal joints as well as the joints that make up their four legs. This paper describes the development of a quadruped robot including a spinal joint that biomimics feline animals. The developed robot platform consists of four legs with a double 4-bar linkage type and one simplifi ed rotary joint. In addition, Q-learning, a type of machine learning, was used to fi nd the optimal motion profi le of the spinal joint. The bounding gait was implemented on the robot system using the motion profi le of the spinal joint, and it was confi rmed that using the spinal joint can achieve a faster Center of Mass (CoM) forward speed than not using the spinal joint. Although the motion profi le obtained through Q-learning did not exactly match the spinal angle of a feline animal, which is more multiarticular than that of the developed robot, the tendency of the actual feline animal spinal motion profi le, which is sinusoidal, was similar. 

关键词: Quadruped robot system, Bioinspired methods, Legged robots, Machine learning, Q-learning  

Abstract: Feline animals can run quickly using spinal joints as well as the joints that make up their four legs. This paper describes the development of a quadruped robot including a spinal joint that biomimics feline animals. The developed robot platform consists of four legs with a double 4-bar linkage type and one simplifi ed rotary joint. In addition, Q-learning, a type of machine learning, was used to fi nd the optimal motion profi le of the spinal joint. The bounding gait was implemented on the robot system using the motion profi le of the spinal joint, and it was confi rmed that using the spinal joint can achieve a faster Center of Mass (CoM) forward speed than not using the spinal joint. Although the motion profi le obtained through Q-learning did not exactly match the spinal angle of a feline animal, which is more multiarticular than that of the developed robot, the tendency of the actual feline animal spinal motion profi le, which is sinusoidal, was similar. 

Key words: Quadruped robot system, Bioinspired methods, Legged robots, Machine learning, Q-learning  

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