Design and development of Muay Thai posture 3D animation by controlling the inverse kinematics movement

Main Article Content

Karn Kumpai
Thanut Sangking
Panadda Jaibun-lue

Abstract

          Controlling the movement of the animation characters is an important step in the animation production process. The article emphasized on study the joint rotation robot arm inverse kinematics principles to apply the controlling of Muay Thai posture animation characters. The objectives of this research were: 1) To evaluate the quality of design and development of Muay Thai posture 3D animation by controlling the inverse kinematics movement; and 2) To study the satisfaction with 3D animation named “The secret weapons”. The results of the research were as follows: 1) The completed quality Muay Thai posture 3D animation by controlling the inverse kinematics movement divided into the results of design and development of animation composition for 3D animation and the result of inverse kinematics character motion control technique were at high level. 2) The satisfaction of this 3D animation was at high level.

Article Details

How to Cite
Kumpai, K., Sangking, T., & Jaibun-lue, P. (2021). Design and development of Muay Thai posture 3D animation by controlling the inverse kinematics movement. RMUTSB ACADEMIC JOURNAL, 9(2), 250–262. Retrieved from https://li01.tci-thaijo.org/index.php/rmutsb-sci/article/view/249676
Section
Research Article

References

Panomruttanarug, B., Pornsukvitoon, W., & Pakkawanit, J. (2017). A study of forward and inverse kinematics for 6-link robot arm (Staubli RX 90). The Journal of King Mongkut’s University of Technology North Bangkok, 27(2), 241-252. (in Thai)

Panyawanan, N. (2019). Character model design and 3D animation creation. Executive Journal, 39(1), 67-81. (in Thai)

Phunsa, S. (2019). The development of augmented reality for creative learning martial art of Thai boxing. Journal of Innovative Technology Management, 5(2), 146-154. (in Thai)

Poodchakarn, S., Thongsa-ard, K., Sae-eaw, C., Lim, J., & Primee, S. (2012). The development of 3-axis robot arm for material handling. Proceeding of the Industrial Engineering Annual Conference 2555 (pp. 1248-1253). Phetchaburi: Sripatum University. (in Thai)

Spong, W. M., Hutchinson, S., & Vidyasagar, M. (2006). Robot modeling and control. New York: John Wiley & Sons.

Sutapan, A., & Sangveraphunsiri, V. (2017). Upper-limb exoskeleton robot with rehabilitation activities for stroke rehabilitation. Srinakharinwirot Engineering Journal, 12(2), 178-188. (in Thai)