Methods for Location and Recognition of Chess Pieces Based on Convolutional Neural Network

Xie Han; Rong Zhao; Fusheng Sun

doi:10.3788/LOP56.081007

[1] Li S G, Yang X L. Design of intelligent line-tracking chess robot based on STM32[J]. Journal of Measurement Science and Instrumentation, 5, 59-63(2014). http://www.cqvip.com/QK/70833X/201402/50270577.html

[2] Liu F, Lü X G. Effects of drug and its packaging on the performance of UHF RFID tag[J]. Journal of Chongqing University of Posts and Telecommunications (Natural Science Edition), 29, 563-568(2017).

[3] Xu F L. The research of the vision algorithm and intelligent control software for chess robot[D]. Haerbin: Harbin Institute of Technology, 9-13(2006).

[4] Xiao K X. Research and development of embedded vision system of chess robot[D]. Beijing: North China University of Technology, 15-26(2010).

[5] Du J L, Zhang J F, Huang X H. Chess-board recognition based on vision[J]. Computer Engineering and Applications, 43, 220-222, 232(2007).

[6] Lou L T, Qian L, Duan S et al. Chessman recognition of Chinese chess based on video image understanding[J]. Journal of South-Central University for Nationalities (Natural Science Edition), 33, 117-122(2014).

[7] Wu G, Tao J. Chinese chess recognition algorithm based on computer vision. [C]∥China Control and Decision-Making Conference, 31 May-2 June 2014, Changsha, China. New York: IEEE, 3375-3379(2014).

[8] Zhu Y F. Visual recognition algorithm of Chinese chess robot[J]. Journal of Jianghan University (Natural Science Edition), 41, 51-56(2013).

[9] Guo X F, Wang Y N, Zhou X E et al. Chess-piece localization and recognition method for Chinese chess robot[J]. CAAI Transactions on Intelligent Systems, 13, 517-523(2018).

[10] Zhai N Q. Improved Chinese chessboard recognition method[J]. Journal of Computer Applications, 30, 980-981(2010).

[11] Feng Y H, Wang S H, Liu N et al. Application of machine vision technology in design of chess playing intelligent robot[J]. Computer Engineering and Design, 30, 3371-3373, 3379(2009).

[12] Dang H S, Zhang C, Pang Y et al. Research of fast recognition and positioning system of chess based on ORB algorithm[J]. Science Technology and Engineering, 17, 52-57(2017).

[13] Guo J X, Chen W Y. Chesslocation and recognition by screening the feature of polar coordinates projection amplitude[J]. Science Technology and Engineering, 18, 268-275(2018).

[14] Wang D J. Recognition andpositioning technique of Chinese chess based on vision[J]. Journal of Tsinghua University(Science and Technology), 53, 1145-1149(2013).

[15] Duan Y T, Li Q, Shen W. Chess identification & location in the system of human-machine interaction based on vision[J]. Computer and Digital Engineering, 43, 1416-1418, 1485(2015).

[16] Panteley E, Loria A. On global uniform asymptotic stability of nonlinear time-varying systems in cascade[J]. Systems & Control Letters, 33, 131-138(1998). http://dl.acm.org/citation.cfm?id=288957

[17] Cao K C, Yang H, Jiang B. Formation tracking control of nonholonomic chained form systems. [C]∥2013 10th IEEE International Conference on Control and Automation (ICCA), 12-14 June 2013, Hangzhou, China. New York: IEEE, 846-851(2013).

[18] Zhou Y, Dong X W, Lu G. et al. Time-varying formation control for unmanned aerial vehicles with switching interaction topologies. [C]∥2014 International Conference on Unmanned Aircraft Systems (ICUAS), 27-30 May 2014, Orlando, FL, USA. New York: IEEE, 1203-1209(2014).

[19] Hua M D, Hamel T, Morin P. et al. Introduction to feedback control of underactuated VTOL vehicles[J]. IEEE Control Systems Magazine, 33, 61-75(2013).