Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots

T. Hsiao; S. C. Wu

doi:10.23919/ACC50511.2021.9482718

Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Ball-batting tasks requires tight integration of high-speed visual tracking of the flying ball, immediate decision making on when and how to hit the ball, and precise and agile motion control. The so-called 'precision ball-batting' in this paper means not only to hit the ball, but also to send the rebounding ball to a specified target location. It is challenging for robots, but professional human players can do it very well. Therefore, precision ball-batting can serve as a testbed for modern eye-hand coordinate techniques of robots. This paper extends the authors' previous work on the precision ball-batting robot by upgrading the vision system and proposing a novel decision making procedure that combines the advantages of the physical rebounding model and the neural network model. Experimental results show that the successful rate of precision ball-batting increases from 13.75% in the previous work to more than 60% in this paper, while the rate of swing and miss decreases from 11.25% in the previous work to 0% in this paper.

Original language	English
Title of host publication	2021 American Control Conference, ACC 2021
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	3787-3792
Number of pages	6
ISBN (Electronic)	9781665441971
DOIs	https://doi.org/10.23919/ACC50511.2021.9482718
State	Published - 25 May 2021
Event	2021 American Control Conference, ACC 2021 - Virtual, New Orleans, United States Duration: 25 May 2021 → 28 May 2021

Publication series

Name	Proceedings of the American Control Conference
Volume	2021-May
ISSN (Print)	0743-1619

Conference

Conference	2021 American Control Conference, ACC 2021
Country/Territory	United States
City	Virtual, New Orleans
Period	25/05/21 → 28/05/21

Access to Document

10.23919/ACC50511.2021.9482718

Cite this

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title = "Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots",

abstract = "Ball-batting tasks requires tight integration of high-speed visual tracking of the flying ball, immediate decision making on when and how to hit the ball, and precise and agile motion control. The so-called 'precision ball-batting' in this paper means not only to hit the ball, but also to send the rebounding ball to a specified target location. It is challenging for robots, but professional human players can do it very well. Therefore, precision ball-batting can serve as a testbed for modern eye-hand coordinate techniques of robots. This paper extends the authors' previous work on the precision ball-batting robot by upgrading the vision system and proposing a novel decision making procedure that combines the advantages of the physical rebounding model and the neural network model. Experimental results show that the successful rate of precision ball-batting increases from 13.75% in the previous work to more than 60% in this paper, while the rate of swing and miss decreases from 11.25% in the previous work to 0% in this paper.",

author = "T. Hsiao and Wu, {S. C.}",

note = "Publisher Copyright: {\textcopyright} 2021 American Automatic Control Council.; null ; Conference date: 25-05-2021 Through 28-05-2021",

year = "2021",

month = may,

day = "25",

doi = "10.23919/ACC50511.2021.9482718",

language = "English",

series = "Proceedings of the American Control Conference",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Hsiao, T & Wu, SC 2021, Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots. in 2021 American Control Conference, ACC 2021., 9482718, Proceedings of the American Control Conference, vol. 2021-May, Institute of Electrical and Electronics Engineers Inc., pp. 3787-3792, 2021 American Control Conference, ACC 2021, Virtual, New Orleans, United States, 25/05/21. https://doi.org/10.23919/ACC50511.2021.9482718

Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots. / Hsiao, T.; Wu, S. C.

2021 American Control Conference, ACC 2021. Institute of Electrical and Electronics Engineers Inc., 2021. p. 3787-3792 9482718 (Proceedings of the American Control Conference; Vol. 2021-May).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots

AU - Hsiao, T.

AU - Wu, S. C.

PY - 2021/5/25

Y1 - 2021/5/25

N2 - Ball-batting tasks requires tight integration of high-speed visual tracking of the flying ball, immediate decision making on when and how to hit the ball, and precise and agile motion control. The so-called 'precision ball-batting' in this paper means not only to hit the ball, but also to send the rebounding ball to a specified target location. It is challenging for robots, but professional human players can do it very well. Therefore, precision ball-batting can serve as a testbed for modern eye-hand coordinate techniques of robots. This paper extends the authors' previous work on the precision ball-batting robot by upgrading the vision system and proposing a novel decision making procedure that combines the advantages of the physical rebounding model and the neural network model. Experimental results show that the successful rate of precision ball-batting increases from 13.75% in the previous work to more than 60% in this paper, while the rate of swing and miss decreases from 11.25% in the previous work to 0% in this paper.

AB - Ball-batting tasks requires tight integration of high-speed visual tracking of the flying ball, immediate decision making on when and how to hit the ball, and precise and agile motion control. The so-called 'precision ball-batting' in this paper means not only to hit the ball, but also to send the rebounding ball to a specified target location. It is challenging for robots, but professional human players can do it very well. Therefore, precision ball-batting can serve as a testbed for modern eye-hand coordinate techniques of robots. This paper extends the authors' previous work on the precision ball-batting robot by upgrading the vision system and proposing a novel decision making procedure that combines the advantages of the physical rebounding model and the neural network model. Experimental results show that the successful rate of precision ball-batting increases from 13.75% in the previous work to more than 60% in this paper, while the rate of swing and miss decreases from 11.25% in the previous work to 0% in this paper.

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M3 - Conference contribution

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PB - Institute of Electrical and Electronics Engineers Inc.

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ER -

Decision Making Based on Physical and Neural Network Models for Precision Ball-Batting Robots

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