Advances in Computer Science : an International Journal
Real-Time Color Coded Object Detection Using a Modular Computer Vision Library
Abstract
In this paper we present a novel computer vision library called UAVision that provides support for different digital cameras technologies, from image acquisition to camera calibration, and all the necessary software for implementing an artificial vision system for the detection of color-coded objects. The algorithms behind the object detection focus on maintaining a low processing time, thus the library is suited for real-world real-time applications. The library also contains a TCP Communications Module, with broad interest in robotic applications where the robots are performing remotely from a basestation or from an user and there is the need to access the images acquired by the robot, both for processing or debug purposes. Practical results from the implementation of the same software pipeline using different cameras as part of different types of vision systems are presented. The vision system software pipeline that we present is designed to cope with application dependent time constraints. The experimental results show that using the UAVision library it is possible to use digital cameras at frame rates up to 50 frames per second when working with images of size up to 1 megapixel. Moreover, we present experimental results to show the effect of the frame rate in the delay between the perception of the world and the action of an autonomous robot, as well as the use of raw data from the camera sensor and the implications of this in terms of the referred delay.
Keywords
Full Text:
PDFReferences
RoboCup. http://www.robocup.org. Last visited - September, 2014.
Aldebaran Robotics oficial website. http://www.aldebaran-robotics.com. Last visited - September, 2014.
A. Neves, J. Azevedo, N. Lau B. Cunha, J. Silva, F. Santos, G. Corrente, D. A. Martins, N. Figueiredo, A. Pereira, L. Almeida, L. S. Lopes, and P. Pedreiras. CAMBADA soccer team: from robot architecture to multiagent coordination, chapter 2. I-Tech Education and Publishing, Vienna, Austria, In Vladan Papic (Ed.), Robot Soccer, 2010.
R. Dias, F. Amaral, J. L. Azevedo, R. Castro, B. Cunha, J. Cunha, P. Dias, N. Lau, C. Magalhaes, A. J. R. Neves, A. Nunes, E. Pedrosa, A. Pereira, J. Santos, J. Silva, and A. Trifan. CAMBADA Team Description. RoboCup 2014, Joao Pessoa, Brazil, 2014.
CMVision. http://www.cs.cmu.edu/~jbruce/cmvision/. Last visited - September, 2014.
Adaptive Vision. https://www.adaptive-vision.com/en/home/. Last vis- ited - September, 2014.ADVANCES IN COMPUTER SCIENCE : AN INTERNATIONAL JOURNAL 12
CCV. http://libccv.org/. Last visited - September, 2014.
Roborealm. http://www.roborealm.com/index.php. Last visited - September, 2014.
Antnio J. R. Neves, Armando J. Pinho, Daniel A. Martins, and Bernardo Cunha. An eficient omnidirectional vision system for soccer robots: from calibration to object detection. Mechatronics, 21(2):399–410, mar 2011.
F.M.W Kanters, R. Hoogendijk, R.J.M. Janssen, K.J. Meessen, J.J.T.H. Best, D.J.H Bruijnen, G.J.L. Naus, W.H.T.M Aangenent, R.B.M. van der Berg, H.C.T. van de Loo, G.M. Heldes, R.P.A. Vugts, G.A. Harkema, P.E.J. van Brakel, B.H.M Bukkums, R.P.T. Soetens, R.J.E. Merry, and M.J.G. can de Molengraft. Tech United Eindhoven Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
U. P. Kappeler, O. Zweigle, H. Rajaie, K. Hausserman, A. Tamke, A. Koch, B. Eckstein, F. Aichele, D. DiMarco, A. Berthelot, T. Walter, and P. Levi. RFC Stuttgart Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
A. Ahmad, J. Xavier, J. Santos-Victor, and P. Lima. 3d to 2d bijection for spherical objects under equidistant fisheye projection. Computer Vision and Image Understanding, 125:172–183, 2014.
M. Huang, X. Ge, S. Hui, X. Wang, S. Chen, X. Xu, W. Zhang, Y. Lu, X. Liu, L. Zhao, M. Wang, Z. Zhu, C. Wang, B. Huang, L. Ma, B. Qin, F. Zhou, and C. Wang. Water Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
H. Lu, Z. Zeng, X. Dong, D. Xiong, and S. Tang. Nubot Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
A.A.F Nassiraei, S. Ishida, N. Shinpuku, M. Hayashi, N. Hirao, K. Fu- jimoto, K. Fukuda, K. Takanaka, I. Godler, K. Ishii, and H. Miyamoto. Hibikino-Musashi Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
A. Trifan, A. J. R. Neves, B. Cunha, and N. Lau. A modular real- time vision system for humanoid robots. In Proceedings of SPIE IS&T Electronic Imaging 2012, January 2012.
T. Rofer, T. Laue, C. Graf, T. Kastner, A. Fabisch, and C. Thedieck. B-Human Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
leader@austrian kangaroos.com. Austrian Kangaroos Team Description. RoboCup 2011, Istanbul, Turkey, 2011.
TJArk.ofice@gmail.com. TJArk Team Description. RoboCup 2014, Joao Pessoa, Brazil, 2014.
H. L. Akin, T. Mericli, E. Ozukur, C. Kavaklioglu, and B. Gokce. Cerberus Team Description. RoboCup 2014, Joao Pessoa, Brazil, 2014.
D. Garcia, E. Carbajal, C Quintana, E. Torres, I. Gonzalez, C. Busta- mante, and L. Garrido. Borregos Team Description. RoboCup 2012, Mexico City, Mexico, 2012.
S. Liemhetcharat, B. Coltin, C. Mericli, and M. Veloso. CMurfs Team Description. RoboCup 2014, Joao Pessoa, Brazil, 2014.
E. Hashemi, O. A. Ghiasvand, M. G. Jadidi, A. Karimi, R. Hashemifard, M. Lashgarian, M. Shafiei, S. Mashhadt, K. Zarei, F. Faraji, M. A. Z. Harandi, and E. Mousavi. MRL Team Description. RoboCup 2014, Joao Pessoa, Brazil, 2014.
Erich Gamma, Richard Helm, Ralph Johnson, and John Vlissides. De- sign Patterns: Elements of Reusable Object-oriented Software. Addison- Wesley Longman Publishing Co., Inc., Boston, MA, USA, 1995.
Microsoft Kinect oficial website. http://www.microsoft.com/en-us/ kinectforwindows/. Last visited - September, 2014.
Alina Trifan A. J. R. Neves and Bernardo Cunha. Self-calibration of colormetric parameters in vision systems for autonomous soccer robots. In in Proc. of RoboCup 2014 Symposium, 2014.
B. Cunha, J. L. Azevedo, N. Lau, and L. Almeida. Obtaining the inverse distance map from a non-svp hyperbolic catadioptric robotic vision system. In Proc. of the RoboCup 2007, Atlanta, USA, 2007.
Zhengyou Zhang. Flexible camera calibration by viewing a plane from unknown orientations. In in ICCV, pages 666–673, 1999.
A. J. R. Neves, G. Corrente, and A. J. Pinho. An omnidirectional vision system for soccer robots. In Proc. of the EPIA 2007, volume 4874 of Lecture Notes in Artificial Inteligence, pages 499–507. Springer, 2007.
IDS. https://en.ids-imaging.com. Last visited - September, 2014.
UAVision. http://sweet.ua.pt/an/uavision/. Last visited - September, 2014.
Pointgrey. http://www.ptgrey.com/products/flea2/flea2 firewire camera. asp. Last visited - September, 2014.
António J. R. Neves, Alina Trifan, José Luís Azevedo. Time-constrained detection of colored objects on raw Bayer data. Proceedings of the 5th Eccomas Thematic Conference on Computational Vision and Medical Image Processing, VipIMAGE 2015, Tenerife, Spain, p. 301-306, October 2015.
