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High-speed Projection Method of Swing Plane for Golf Training

Published: 06 June 2020 Publication History

Abstract

Display technologies that show dynamic information such as club swing motion are useful for golf training, but conventional methods have a large latency from sensing the motion to displaying them for users. In this study, we propose an immediate, high-speed projection method of swing plane geometric information onto the ground during the swing. The method utilizes marker-based clubhead posture estimation and a mirror-based high-speed tracking system. The intersection line with the ground, which is the geometric information of the swing plane, is immediately cast by a high-speed projector. We have experimentally confirmed the sufficiently low latency of the projection itself for swing motions and have demonstrated the temporal convergence and predictive display of the swing plane line projection around the bottom of the swing motion.

References

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Richard Hartley and Andrew Zisserman. 2003. Multiple view geometry in computer vision. Cambridge university press.
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Atsuki Ikeda, Yuka Tanaka, Dong-Hyun Hwang, Homare Kon, and Hideki Koike. 2019. Golf training system using sonification and virtual shadow. In ACM SIGGRAPH 2019 Emerging Technologies. ACM, 14.
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Yuta Itoh, Jason Orlosky, Kiyoshi Kiyokawa, and Gudrun Klinker. 2016. Laplacian vision: Augmenting motion prediction via optical see-through head-mounted displays. In Proceedings of the 7th Augmented Human International Conference 2016. ACM, 16.
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Young-Hoo Kwon, Christopher S Como, Kunal Singhal, Sangwoo Lee, and Ki Hoon Han. 2012. Assessment of planarity of the golf swing based on the functional swing plane of the clubhead and motion planes of the body points. Sports biomechanics 11, 2 (2012), 127--148.
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Yuri Mikawa, Tomohiro Sueishi, Yoshihiro Watanabe, and Masatoshi Ishikawa. 2018. Variolight: Hybrid dynamic projection mapping using high-speed projector and optical axis controller. In SIGGRAPH Asia 2018 Emerging Technologies. ACM, 17.
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Albert Ng, Julian Lepinski, Daniel Wigdor, Steven Sanders, and Paul Dietz. 2012. Designing for low-latency direct-touch input. In Proceedings of the 25th annual ACM symposium on User interface software and technology. ACM, 453--464.
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Shuya Suda, Yasutoshi Makino, and Hiroyuki Shinoda. 2019. Prediction of Volleyball Trajectory Using Skeletal Motions of Setter Player. In Proceedings of the 10th Augmented Human International Conference 2019. ACM, 16.
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Cited By

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  • (2024)Table Tennis Swing Coaching System using Human Motion Prediction and a Fabric Actuator Suit2024 IEEE/SICE International Symposium on System Integration (SII)10.1109/SII58957.2024.10417360(1482-1483)Online publication date: 8-Jan-2024
  • (2023)Dynamic Projection Mapping Technologies Pioneered by High-speed Vision高速ビジョンが開くダイナミックプロジェクションマッピング技術IEICE Communications Society Magazine10.1587/bplus.16.27516:4(275-284)Online publication date: 2023
  • (2023)AI Coach: A Motor Skill Training System using Motion Discrepancy DetectionProceedings of the Augmented Humans International Conference 202310.1145/3582700.3582710(179-189)Online publication date: 12-Mar-2023
  • Show More Cited By

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cover image ACM Other conferences
AHs '20: Proceedings of the Augmented Humans International Conference
March 2020
296 pages
ISBN:9781450376037
DOI:10.1145/3384657
Permission to make digital or hard copies of part or all of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for third-party components of this work must be honored. For all other uses, contact the Owner/Author.

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 06 June 2020

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Author Tags

  1. high-speed image processing
  2. high-speed projection
  3. projection-based augmented reality
  4. sports training

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AHs '20
AHs '20: Augmented Humans International Conference
March 16 - 17, 2020
Kaiserslautern, Germany

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Cited By

View all
  • (2024)Table Tennis Swing Coaching System using Human Motion Prediction and a Fabric Actuator Suit2024 IEEE/SICE International Symposium on System Integration (SII)10.1109/SII58957.2024.10417360(1482-1483)Online publication date: 8-Jan-2024
  • (2023)Dynamic Projection Mapping Technologies Pioneered by High-speed Vision高速ビジョンが開くダイナミックプロジェクションマッピング技術IEICE Communications Society Magazine10.1587/bplus.16.27516:4(275-284)Online publication date: 2023
  • (2023)AI Coach: A Motor Skill Training System using Motion Discrepancy DetectionProceedings of the Augmented Humans International Conference 202310.1145/3582700.3582710(179-189)Online publication date: 12-Mar-2023
  • (2022)Dynamic Projection Mapping for Robust Sphere Posture Tracking Using Uniform/Biased Circumferential MarkersIEEE Transactions on Visualization and Computer Graphics10.1109/TVCG.2021.311108528:12(4016-4031)Online publication date: 1-Dec-2022
  • (2022)Virtual Club Shadow: A Real-time Projection of Golf Club Trajectory2022 IEEE International Symposium on Mixed and Augmented Reality Adjunct (ISMAR-Adjunct)10.1109/ISMAR-Adjunct57072.2022.00177(816-820)Online publication date: Oct-2022
  • (2022)AI Golf: Golf Swing Analysis Tool for Self-TrainingIEEE Access10.1109/ACCESS.2022.321026110(106286-106295)Online publication date: 2022
  • (2021)A Review on Augmented Reality applied to Sports2021 16th Iberian Conference on Information Systems and Technologies (CISTI)10.23919/CISTI52073.2021.9476570(1-6)Online publication date: 23-Jun-2021

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