PlayChessWithAWebCam/Papers: Difference between revisions
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see also {{Link|target=PlayChessWithAWebCam}} | see also {{Link|target=PlayChessWithAWebCam}} | ||
= Robust Computer Vision Chess Analysis and Interaction with a Humanoid Robot = | = Papers = | ||
== Robust Computer Vision Chess Analysis and Interaction with a Humanoid Robot == | |||
[[CiteRef::Chen 2019]] | [[CiteRef::Chen 2019]] | ||
<pdf>computers-08-00014-v2.pdf</pdf> | <pdf>computers-08-00014-v2.pdf</pdf> | ||
= Chessboard and chess piece recognition with the support of neural networks = | == Chessboard and chess piece recognition with the support of neural networks == | ||
[[CiteRef::Czyzewski 2018]] | [[CiteRef::Czyzewski 2018]] | ||
| Line 20: | Line 21: | ||
}} | }} | ||
= Chess Piece Recognition Using Oriented Chamfer Matching with a Comparison to CNN = | == Chess Piece Recognition Using Oriented Chamfer Matching with a Comparison to CNN == | ||
[[CiteRef::Xie 2018-03]] | [[CiteRef::Xie 2018-03]] | ||
<pdf>Chess_Piece_Recognition_Using_Oriented_Chamfer_Mat.pdf</pdf> | <pdf>Chess_Piece_Recognition_Using_Oriented_Chamfer_Mat.pdf</pdf> | ||
= CV Chess = | == CV Chess == | ||
[[CiteRef::Goodloe 2018]] | [[CiteRef::Goodloe 2018]] | ||
<pdf>CVChess-ESE205Wiki.pdf</pdf> | <pdf>CVChess-ESE205Wiki.pdf</pdf> | ||
= A New Chessboard Corner Detection Algorithm with Simple Thresholding = | == A New Chessboard Corner Detection Algorithm with Simple Thresholding == | ||
[[CiteRef::Qi 2017-08]] | [[CiteRef::Qi 2017-08]] | ||
<pdf>chessboard_corner_detection.pdf</pdf> | <pdf>chessboard_corner_detection.pdf</pdf> | ||
= Geometry-Based Populated Chessboard Recognition = | == Geometry-Based Populated Chessboard Recognition == | ||
[[CiteRef::Xie 2017]] | [[CiteRef::Xie 2017]] | ||
<pdf>Geometry-Based_Populated_Chessboard_Recognition.pdf</pdf> | <pdf>Geometry-Based_Populated_Chessboard_Recognition.pdf</pdf> | ||
= A Computer Vision System for Chess Game Tracking = | == A Computer Vision System for Chess Game Tracking == | ||
[[CiteRef::Koray 2016]] | [[CiteRef::Koray 2016]] | ||
<pdf>https://vision.fe.uni-lj.si/cvww2016/proceedings/papers/21.pdf</pdf> | <pdf>https://vision.fe.uni-lj.si/cvww2016/proceedings/papers/21.pdf</pdf> | ||
| Line 50: | Line 51: | ||
|in=21stComputer Vision Winter WorkshopLukaˇCehovin, Rok Mandeljc, VitomirˇStruc (eds.)Rimske Toplice, Slovenia, February 3–5, 2016 | |in=21stComputer Vision Winter WorkshopLukaˇCehovin, Rok Mandeljc, VitomirˇStruc (eds.)Rimske Toplice, Slovenia, February 3–5, 2016 | ||
}} | }} | ||
= ChessVision: Chess Board and Piece Recognition = | == ChessVision: Chess Board and Piece Recognition == | ||
[[CiteRef::Ding 2016]] | [[CiteRef::Ding 2016]] | ||
| Line 63: | Line 64: | ||
|in=Standford University CS 231a 2016 Final Report | |in=Standford University CS 231a 2016 Final Report | ||
}} | }} | ||
= Magnus the Chess Robot = | == Magnus the Chess Robot == | ||
[[CiteRef::Unger 2014-07]] | [[CiteRef::Unger 2014-07]] | ||
| Line 78: | Line 79: | ||
}} | }} | ||
= CVChess: Computer Vision Chess Analytics = | == CVChess: Computer Vision Chess Analytics == | ||
[[CiteRef::Hack 2014]] | [[CiteRef::Hack 2014]] | ||
| Line 91: | Line 92: | ||
}} | }} | ||
= Chess State Detection = | == Chess State Detection == | ||
[[CiteRef::Bhavani 2014]] see also https://web.stanford.edu/class/ee368/Project_Spring_1415/index.html | [[CiteRef::Bhavani 2014]] see also https://web.stanford.edu/class/ee368/Project_Spring_1415/index.html | ||
| Line 106: | Line 107: | ||
[https://web.stanford.edu/class/ee368/Project_Winter_1819/Code/huang.zip Zip file of code (321 Lines of MatLab)] | [https://web.stanford.edu/class/ee368/Project_Winter_1819/Code/huang.zip Zip file of code (321 Lines of MatLab)] | ||
= Visual Chess Recognition = | == Visual Chess Recognition == | ||
[[CiteRef::Danner 2014]] | [[CiteRef::Danner 2014]] | ||
<pdf>http://web.stanford.edu/class/ee368/Project_Spring_1415/Reports/Danner_Kafafy.pdf</pdf> | <pdf>http://web.stanford.edu/class/ee368/Project_Spring_1415/Reports/Danner_Kafafy.pdf</pdf> | ||
| Line 118: | Line 119: | ||
}} | }} | ||
= Chessboard and Pieces Detection for Janggi Chess Playing Robot = | == Chessboard and Pieces Detection for Janggi Chess Playing Robot == | ||
[[CiteRef::Nhat 2013]] | [[CiteRef::Nhat 2013]] | ||
<pdf>https://pdfs.semanticscholar.org/5b75/30ac4aebf6da936aea31f5c24ac80bf1e557.pdf</pdf> | <pdf>https://pdfs.semanticscholar.org/5b75/30ac4aebf6da936aea31f5c24ac80bf1e557.pdf</pdf> | ||
| Line 130: | Line 131: | ||
}} | }} | ||
= A Simple Autonomous Chess Playing Robot for playing Chess against any opponent in Real Time = | == A Simple Autonomous Chess Playing Robot for playing Chess against any opponent in Real Time == | ||
[[CiteRef::Banerjee 2012]] | [[CiteRef::Banerjee 2012]] | ||
<pdf>ICCVR-08AUG12-011paper.pdf</pdf> | <pdf>ICCVR-08AUG12-011paper.pdf</pdf> | ||
= Gambit: An autonomous chess-playing robotic system = | == Gambit: An autonomous chess-playing robotic system == | ||
[[CiteRef::Matuszek 2011]] | [[CiteRef::Matuszek 2011]] | ||
<pdf>Gambit_An_autonomous_chess-playing_robotic_system.pdf</pdf> | <pdf>Gambit_An_autonomous_chess-playing_robotic_system.pdf</pdf> | ||
= Probabilistic Location of a Populated Chessboard Using Computer Vision = | == Probabilistic Location of a Populated Chessboard Using Computer Vision == | ||
[[CiteRef::Neufeld 2010]] | [[CiteRef::Neufeld 2010]] | ||
<pdf>10.1.1.409.799.pdf</pdf> | <pdf>10.1.1.409.799.pdf</pdf> | ||
| Line 151: | Line 152: | ||
|in=53rd IEEE International Midwest Symposium on Circuits and Systems | |in=53rd IEEE International Midwest Symposium on Circuits and Systems | ||
}} | }} | ||
= Automatic Grid Segmentation of Populated Chessboard Taken at a Lower Angle View = | == Automatic Grid Segmentation of Populated Chessboard Taken at a Lower Angle View === | ||
[[CiteRef::Tam 2008-01]] | [[CiteRef::Tam 2008-01]] | ||
| Line 162: | Line 163: | ||
|in=Proceedings of the International Conference on Digital Image Computing: Techniques and Applications, DICTA 2008, Canberra, ACT, Australia, 1-3 December 2008 | |in=Proceedings of the International Conference on Digital Image Computing: Techniques and Applications, DICTA 2008, Canberra, ACT, Australia, 1-3 December 2008 | ||
}} | }} | ||
= Simple Computer Vision System for Chess Playing Robot Manipulator as a Project-based Learning Example = | == Simple Computer Vision System for Chess Playing Robot Manipulator as a Project-based Learning Example == | ||
[[CiteRef::Sokic 2008]] | [[CiteRef::Sokic 2008]] | ||
| Line 175: | Line 176: | ||
|year=2008 | |year=2008 | ||
}} | }} | ||
= Chess Vision - Real-time tracking of board configuration and chess moves = | == Chess Vision - Real-time tracking of board configuration and chess moves == | ||
[[CiteRef::Huiyan 2007]] | [[CiteRef::Huiyan 2007]] | ||
| Line 188: | Line 189: | ||
}} | }} | ||
= MarineBlue: A Low-cost Chess Robot = | == MarineBlue: A Low-cost Chess Robot == | ||
[[CiteRef::Urting 2003]] | [[CiteRef::Urting 2003]] | ||
<pdf>MarineBlue_A_Low-cost_Chess_Robot.pdf</pdf> | <pdf>MarineBlue_A_Low-cost_Chess_Robot.pdf</pdf> | ||
= Autonomous Chess-playing Robot = | == Autonomous Chess-playing Robot == | ||
[[CiteRef::Cour 2002-07]] | [[CiteRef::Cour 2002-07]] | ||
<pdf>https://pdfs.semanticscholar.org/57e7/9b85d53597d59a1009ea964876de260935ea.pdf</pdf> | <pdf>https://pdfs.semanticscholar.org/57e7/9b85d53597d59a1009ea964876de260935ea.pdf</pdf> | ||
| Line 203: | Line 204: | ||
|year=2002 | |year=2002 | ||
}} | }} | ||
= References = | |||
Revision as of 08:53, 12 November 2019
see also PlayChessWithAWebCam
Papers
Robust Computer Vision Chess Analysis and Interaction with a Humanoid Robot
Chessboard and chess piece recognition with the support of neural networks
{{#scite:Czyzewski 2018 |type=article |in=Computer Vision and Image Understanding |title=Chessboard and chess piece recognition with the support of neural networks |arxiv=1708.03898v2 |authors=Maciej A. Czyzewski, Artur Laskowski, Szymon Wasik |year=2018 |pages=11 }}
Chess Piece Recognition Using Oriented Chamfer Matching with a Comparison to CNN
CV Chess
A New Chessboard Corner Detection Algorithm with Simple Thresholding
Geometry-Based Populated Chessboard Recognition
A Computer Vision System for Chess Game Tracking
Koray 2016 {{#scite:Koray 2016
|type=article |url=https://vision.fe.uni-lj.si/cvww2016/proceedings/papers/21.pdf |authors=Can Kory, Emre Sümer |year=2016 |title=A Computer Vision System for Chess Game Tracking |in=21stComputer Vision Winter WorkshopLukaˇCehovin, Rok Mandeljc, VitomirˇStruc (eds.)Rimske Toplice, Slovenia, February 3–5, 2016
}}
ChessVision: Chess Board and Piece Recognition
{{#scite:Ding 2016
|type=article |url=https://web.stanford.edu/class/cs231a/prev_projects_2016/CS_231A_Final_Report.pdf |authors=Jialin Ding |year=2016 |title=ChessVision: Chess Board and Piece Recognition |in=Standford University CS 231a 2016 Final Report
}}
Magnus the Chess Robot
{{#scite:Unger 2014-07
|type=article |title=Magnus the Chess Robot |authors=Tobias Helstad Unger |year=2014 |url=https://pdfs.semanticscholar.org/1da7/c5c137d5822d4eba5a93b0e2d8d497b822bd.pdf |in=Norwegian University of Science and Technology, Department of Engineering Cybernetics, Master Thesis 2014-07 | pages=111 | retrieved=2019-11-11
}}
CVChess: Computer Vision Chess Analytics
{{#scite:Hack 2014
|type=article |title=CVChess: Computer Vision Chess Analytics |authors=Jay Hack, Prithvi Ramakrishnan |year=2014 |url=http://cvgl.stanford.edu/teaching/cs231a_winter1415/prev/projects/chess.pdf |in=in=Standford University CS 231a Winter 2014/2015 Final Report
}}
Chess State Detection
Bhavani 2014 see also https://web.stanford.edu/class/ee368/Project_Spring_1415/index.html
{{#scite:Bhavani 2014
|type=article |title=Chess State Detection |authors=Bhavani B S |year=2014 |url=https://web.stanford.edu/class/ee368/Project_Spring_1415/Reports/Bhavani.pdf |in=Standford University ee368/cs232 Digital Image Processing Spring 2014/2015
}}
Zip file of code (321 Lines of MatLab)
Visual Chess Recognition
Danner 2014 {{#scite:Danner 2014
|type=article |title=Visual Chess Recognition |authors=Cheryl Danner, Mai Kafafy |year=2014 |url=http://web.stanford.edu/class/ee368/Project_Spring_1415/Reports/Danner_Kafafy.pdf |in=Standford University ee368/cs232 Digital Image Processing Spring 2014/2015
}}
Chessboard and Pieces Detection for Janggi Chess Playing Robot
Nhat 2013 {{#scite:Nhat 2013
|type=article |title=Chessboard and Pieces Detection for Janggi Chess Playing Robot |authors=Vo Quang Nhat, GueeSang Lee |year=2013 |doi=10.5392/IJoC.2013.9.4.016 |in=Korea Science 2013
}}
A Simple Autonomous Chess Playing Robot for playing Chess against any opponent in Real Time
Gambit: An autonomous chess-playing robotic system
Probabilistic Location of a Populated Chessboard Using Computer Vision
Neufeld 2010 {{#scite:Neufeld 2010
|type=article |doi=10.1109/MWSCAS.2010.5548901 |authors=Jason E. Neufeld and Tyson S. Hall |year=2010 |title=Probabilistic Location of a Populated Chessboard Using Computer Vision |in=53rd IEEE International Midwest Symposium on Circuits and Systems
}}
Automatic Grid Segmentation of Populated Chessboard Taken at a Lower Angle View =
{{#scite:Tam 2008-01
|type=article |doi=10.1109/DICTA.2008.40 |authors=K. Y. Tam, Jose A. Lay, David C Levy |year=2008 |title=Automatic Grid Segmentation of Populated Chessboard Taken at a Lower Angle View |in=Proceedings of the International Conference on Digital Image Computing: Techniques and Applications, DICTA 2008, Canberra, ACT, Australia, 1-3 December 2008
}}
Simple Computer Vision System for Chess Playing Robot Manipulator as a Project-based Learning Example
{{#scite:Sokic 2008
|type=article |title=Simple Computer Vision System for Chess Playing Robot Manipulator as aProject-based Learning Example |authors=Emir Sokic, Melita Ahic-Djokic |in=Signal Processing and Information Technology, 2008. ISSPIT 2008. Signal Processingand Information Technology (ISSPIT), Sarajevo, Bosnia and Herzegovina, 16–19 December 2008; pp. 75–79. |doi=10.1109/ISSPIT.2008.4775676 |url=http://people.etf.unsa.ba/~esokic/mypapers/2008ISSPIT.pdf |year=2008
}}
Chess Vision - Real-time tracking of board configuration and chess moves
{{#scite:Huiyan 2007
|type=article |title=Chess Vision - Real-time tracking of board configuration and chess moves |authors=Chua Huiyan, Le Vinh, Wong Lai Kuan |in=CS4243 Computer Vision & Pattern Recognition, National University of Signapore, 2007 |url=https://www.comp.nus.edu.sg/~cs4243/showcase/chess_vision/chess_vision.html |year=2007
}}
MarineBlue: A Low-cost Chess Robot
Autonomous Chess-playing Robot
Cour 2002-07 {{#scite:Cour 2002-07
|type=article |title=Autonomous Chess-playing Robot |authors=Timothée Cour, Rémy Lauranson, Matthieu Vachette |in=Ecole Polytechnique |url=https://pdfs.semanticscholar.org/57e7/9b85d53597d59a1009ea964876de260935ea.pdf |year=2002
}}