Capture and Feedback in Flying Disc Throw with use of Kinect
This paper proposes a three-dimensional motion capture and feedback system of flying disc throwing action learners with use of Kinect device. Rather than conventional 3-D motion capture system, Kinect has advantages of cost merit, easy system development and operation. A novice learner of flying disc is trained to keep arm movement in steady height, to twist the waist, and to stretch the elbow according to the waist angle. The proposing system captures learners- body movement, checks their skeleton positions in pre-motion / motion / post-motion in several ways, and displays feedback messages to refine their actions.
[1] Barris, S., Button, C., A Review of Vision-based Motion Analysis in
Sport, Sports Medicine, Vol.38, No.12, pp. 1025-1043, 2008.
[2] Moeslund, T.B. et al., A Survey of Advances in Vision-based Human
Motion Capture and Analysis, Computer Vision and Image
Understanding, Vol.104, pp.90-126, 2006.
[3] Miles, H.C. et al., A review of Virtual Environments for Training in Ball
Sports, Computers & Graphics, vol.36, pp.714-726, 2012.
[4] Bideau, B. et al., Using virtual reality to analyze links between handball
thrower kinematics and goalkeeper-s reactions, Neuroscience Letters,
Vol. 372, No.1-2, pp.119-122, 2004.
[5] Brodie, M. et al., Fusion motion capture: a prototype system using inertial
measurement units and GPS for the biomechanical analysis of ski racing,
Sports Technology, Vol.1, No.1, pp. 17-28, 2008.
[6] Corazza, S. et al., A Markerless Motion Capture System to Study
Musculoskeletal Biomechanics: Visual Hull and Simulated Annealing
Approach, Annals of Biomedical Engineering, Vol.34, No.6,
pp.1019-1029, 2006.
[7] Hachimura, K. et al., A Prototype Dance Training Support System with
Motion Capture and Mixed Reality Technologies, Proc. IEEE
International Workshop on Robot and Human Interactive Communication
, pp.20-22, 2004.
[8] Ishii, K. et al., Proposal and development of reversal motion skill leaning
support environment, International Conference on Information
Technology Based Higher Education and Training (ITHET), pp.1-6,
2011.
[9] Kwon, D.Y., Gross, M., Combining Body Sensors and Visual Sensors for
Motion Training, ACM SIGCHI International Conference on Advances in
computer entertainment technology, pp.94-101, 2005.
[10] Soga, A., Myojin, Y., Educational Applications for Learning Rhythmic
Gymnastics Rules Using Motion Data, Journal of Media Information and
Television Engineering, Vol.62, No.2, pp.222-226, 2008 (in Japanese).
[11] Fujimoto.M., Terada.T. & Tsukamoto.M. (2012). A Dance Training
System that Maps Self-Images onto an Instruction Video. ACHI 2012,
The Fifth International Conference on Advances in Computer-Human
Interactions. IARIA, 2012, pp. 309-314.
[12] Hsu, H. J., The Potential of Kinect as Interactive Educational Technology,
2nd International Conference on Education and Management
Technology, Vol. 13, pp. 334-338, 2011.
[13] Kato,K. et al., Exploring Analysis of Football Actions Cosidering
Correlation of Joints in the Body, Ninth International Conference on
Networked Sensing Systems (INSS), pp.11-14, 2012.
[14] Marquardt,Z. et al., Super Mirror: a kinect interface for ballet dancers. In
Proceedings of the 2012 ACM annual conference extended abstracts on
Human Factors in Computing Systems Extended Abstracts (CHI EA '12),
pp.1619-1624, 2012.
[15] Mitchell,G., Clarke, A., Capturing and Visualising Playground Games
and Performance: A Wii and Kinect based Motion Capture System, Proc.
Int'l conf. Electronic Visualisation and the Arts (EVA'11), pp.218-225,
2011.
[16] Ogawa.T., & Kambayashi.Y., Physical Instructional Support System
Using Virtual Avatars. ACHI 2012, The Fifth International Conference on
Advances in Computer-Human Interactions. IARIA, 2012, pp. 262-265.
[17] Chye,C., Nakajima, T., Game based approach to learn Martial Arts for
Beginners, IEEE 18th International Conference on Embedded and
Real-Time Computing Systems and Applications (RTCSA), pp.19-22,
2012.
[18] Shima, Arai, Research on the movement of throwing a flying disc, I:
Backhand throws, Proc. Congress of the Japanese Society of Physical
Education, Vol.43B, p.774 (in Japanese) (1992).
[19] Arai et al., Research on the movement of throwing a flying disc, II:
Comparison of backhand and forehand throws, Proc. Congress of the
Japanese Society of Physical Education, Vol.44B, p.681 (in Japanese)
(1993).
[20] Shima et al., Research on the movement of throwing a flying disc, III:
Comparison of straight and curved throws, Proceedings of the Congress
of the Japanese Society of Physical Education, Vol.45, p.565 (in Japanese) (1994).
[21] Shima et al., Research on the movement of throwing a flying disc, IV:
Characteristics of the long distance throws of top athletes, Proc. Congress
of the Japanese Society of Physical Education, Vol.47, p.555 (in Japanese) (1996).
[22] Shima, A Study on Systematic Coaching Method for Throwing Flying
Disc, Studies in Physical Education (Sophia University), Vol.33, pp.5-21
(in Japanese) (2000).
[23] Shima, Development of digital teaching materials for the flying disc, Proc.
Congress of the Japanese Society of Physical Education, Vol.53, p.589 (in Japanese) (2002).
[24] Shima, Takeshi, A Study on How to Use Multimedia Teaching Materials
in Flying Disc Class (in Japanese), Studies in Physical Education (Sophia
University), Vol.37, pp.33-58 (2004).
[25] Sasakawa, A characteristic of throwing skills for distance of the sidearm
throw motion in view of the change of horizontal velocities and horizontal
accelerations at each joint of throwing arm and a flying disc: A
comparison of skilled and unskilled Ultimate players, Chukyo University
Sports Research Bulletin, Vol.25, pp.1-12 (in Japanese) (2011).
[26] Koyanagi, Reno; Ohgi, Yuji, Estimation of the flying disc dynamics using
the inertia sensor, The Japan Society of Mechanical Engineers Fluids
Engineering Conference, pp.91-92 (in Japanese) (2010).
[27] Murayama et al., (The effects of skills instruction using immediate
feedback with moving images: Case study with flying disc side arm
throws, Proc. Congress of the Japanese Society of Physical Education,
Health and Sport Sciences, Vol.57, p.184 (in Japanese) (2006).
[28] Takeuchi, Masataka, Analysis of a side arm form in the flying disc throw
using motion capture, Proceedings of the IEICE General Conference
2010, Vol.2010 Information Systems (1), p.63 (in Japanese) (2010).
[1] Barris, S., Button, C., A Review of Vision-based Motion Analysis in
Sport, Sports Medicine, Vol.38, No.12, pp. 1025-1043, 2008.
[2] Moeslund, T.B. et al., A Survey of Advances in Vision-based Human
Motion Capture and Analysis, Computer Vision and Image
Understanding, Vol.104, pp.90-126, 2006.
[3] Miles, H.C. et al., A review of Virtual Environments for Training in Ball
Sports, Computers & Graphics, vol.36, pp.714-726, 2012.
[4] Bideau, B. et al., Using virtual reality to analyze links between handball
thrower kinematics and goalkeeper-s reactions, Neuroscience Letters,
Vol. 372, No.1-2, pp.119-122, 2004.
[5] Brodie, M. et al., Fusion motion capture: a prototype system using inertial
measurement units and GPS for the biomechanical analysis of ski racing,
Sports Technology, Vol.1, No.1, pp. 17-28, 2008.
[6] Corazza, S. et al., A Markerless Motion Capture System to Study
Musculoskeletal Biomechanics: Visual Hull and Simulated Annealing
Approach, Annals of Biomedical Engineering, Vol.34, No.6,
pp.1019-1029, 2006.
[7] Hachimura, K. et al., A Prototype Dance Training Support System with
Motion Capture and Mixed Reality Technologies, Proc. IEEE
International Workshop on Robot and Human Interactive Communication
, pp.20-22, 2004.
[8] Ishii, K. et al., Proposal and development of reversal motion skill leaning
support environment, International Conference on Information
Technology Based Higher Education and Training (ITHET), pp.1-6,
2011.
[9] Kwon, D.Y., Gross, M., Combining Body Sensors and Visual Sensors for
Motion Training, ACM SIGCHI International Conference on Advances in
computer entertainment technology, pp.94-101, 2005.
[10] Soga, A., Myojin, Y., Educational Applications for Learning Rhythmic
Gymnastics Rules Using Motion Data, Journal of Media Information and
Television Engineering, Vol.62, No.2, pp.222-226, 2008 (in Japanese).
[11] Fujimoto.M., Terada.T. & Tsukamoto.M. (2012). A Dance Training
System that Maps Self-Images onto an Instruction Video. ACHI 2012,
The Fifth International Conference on Advances in Computer-Human
Interactions. IARIA, 2012, pp. 309-314.
[12] Hsu, H. J., The Potential of Kinect as Interactive Educational Technology,
2nd International Conference on Education and Management
Technology, Vol. 13, pp. 334-338, 2011.
[13] Kato,K. et al., Exploring Analysis of Football Actions Cosidering
Correlation of Joints in the Body, Ninth International Conference on
Networked Sensing Systems (INSS), pp.11-14, 2012.
[14] Marquardt,Z. et al., Super Mirror: a kinect interface for ballet dancers. In
Proceedings of the 2012 ACM annual conference extended abstracts on
Human Factors in Computing Systems Extended Abstracts (CHI EA '12),
pp.1619-1624, 2012.
[15] Mitchell,G., Clarke, A., Capturing and Visualising Playground Games
and Performance: A Wii and Kinect based Motion Capture System, Proc.
Int'l conf. Electronic Visualisation and the Arts (EVA'11), pp.218-225,
2011.
[16] Ogawa.T., & Kambayashi.Y., Physical Instructional Support System
Using Virtual Avatars. ACHI 2012, The Fifth International Conference on
Advances in Computer-Human Interactions. IARIA, 2012, pp. 262-265.
[17] Chye,C., Nakajima, T., Game based approach to learn Martial Arts for
Beginners, IEEE 18th International Conference on Embedded and
Real-Time Computing Systems and Applications (RTCSA), pp.19-22,
2012.
[18] Shima, Arai, Research on the movement of throwing a flying disc, I:
Backhand throws, Proc. Congress of the Japanese Society of Physical
Education, Vol.43B, p.774 (in Japanese) (1992).
[19] Arai et al., Research on the movement of throwing a flying disc, II:
Comparison of backhand and forehand throws, Proc. Congress of the
Japanese Society of Physical Education, Vol.44B, p.681 (in Japanese)
(1993).
[20] Shima et al., Research on the movement of throwing a flying disc, III:
Comparison of straight and curved throws, Proceedings of the Congress
of the Japanese Society of Physical Education, Vol.45, p.565 (in Japanese) (1994).
[21] Shima et al., Research on the movement of throwing a flying disc, IV:
Characteristics of the long distance throws of top athletes, Proc. Congress
of the Japanese Society of Physical Education, Vol.47, p.555 (in Japanese) (1996).
[22] Shima, A Study on Systematic Coaching Method for Throwing Flying
Disc, Studies in Physical Education (Sophia University), Vol.33, pp.5-21
(in Japanese) (2000).
[23] Shima, Development of digital teaching materials for the flying disc, Proc.
Congress of the Japanese Society of Physical Education, Vol.53, p.589 (in Japanese) (2002).
[24] Shima, Takeshi, A Study on How to Use Multimedia Teaching Materials
in Flying Disc Class (in Japanese), Studies in Physical Education (Sophia
University), Vol.37, pp.33-58 (2004).
[25] Sasakawa, A characteristic of throwing skills for distance of the sidearm
throw motion in view of the change of horizontal velocities and horizontal
accelerations at each joint of throwing arm and a flying disc: A
comparison of skilled and unskilled Ultimate players, Chukyo University
Sports Research Bulletin, Vol.25, pp.1-12 (in Japanese) (2011).
[26] Koyanagi, Reno; Ohgi, Yuji, Estimation of the flying disc dynamics using
the inertia sensor, The Japan Society of Mechanical Engineers Fluids
Engineering Conference, pp.91-92 (in Japanese) (2010).
[27] Murayama et al., (The effects of skills instruction using immediate
feedback with moving images: Case study with flying disc side arm
throws, Proc. Congress of the Japanese Society of Physical Education,
Health and Sport Sciences, Vol.57, p.184 (in Japanese) (2006).
[28] Takeuchi, Masataka, Analysis of a side arm form in the flying disc throw
using motion capture, Proceedings of the IEICE General Conference
2010, Vol.2010 Information Systems (1), p.63 (in Japanese) (2010).
@article{"International Journal of Information, Control and Computer Sciences:53225", author = "Yasuhisa Tamura and Koji Yamaoka and Masataka Uehara and Takeshi Shima", title = "Capture and Feedback in Flying Disc Throw with use of Kinect", abstract = "This paper proposes a three-dimensional motion capture and feedback system of flying disc throwing action learners with use of Kinect device. Rather than conventional 3-D motion capture system, Kinect has advantages of cost merit, easy system development and operation. A novice learner of flying disc is trained to keep arm movement in steady height, to twist the waist, and to stretch the elbow according to the waist angle. The proposing system captures learners- body movement, checks their skeleton positions in pre-motion / motion / post-motion in several ways, and displays feedback messages to refine their actions.
", keywords = "Flying disc, throwing movement, Kinect, capture,
feedback", volume = "7", number = "2", pages = "199-5", }
