A Generalised Approach to the use of Sampling for Rapid Object Location

Ballard D.H. (1981). Generalizing the Hough transform to detect arbitrary shapes, Pattern Recognition13(2): 111-122.10.1016/0031-3203(81)90009-1Search in Google Scholar

Davies E.R. (1987a). A high speed algorithm for circular object location, Pattern Recognition Letters6(5): 323-333.10.1016/0167-8655(87)90015-8Search in Google Scholar

Davies E.R. (1987b). Lateral histograms for efficient object location: Speed versus ambiguity, Pattern Recognition Letters6(3): 189-198.10.1016/0167-8655(87)90007-9Search in Google Scholar

Davies E.R. (1988). A modified Hough scheme for general circle location, Pattern Recognition Letters7(1): 37-43.10.1016/0167-8655(88)90042-6Search in Google Scholar

Davies E.R. (1997). Lower bound on the processing required to locate objects in digital images, Electronics Letters33(21): 1773-1774.10.1049/el:19971182Search in Google Scholar

Davies E.R. (1998). Rapid location of convex objects in digital images, Proceedings of the European Signal and Image Processing Conference (EUSIPCO'98), Rhodes, Greece, pp. 589-592.Search in Google Scholar

Davies E.R. (1999). Algorithms for ultra-fast location of ellipses in digital images, Proceedings of 7th IEE Int. Conference on Image Processing and Its Applications, Manchester, UK, pp. 542-546.10.1049/cp:19990381Search in Google Scholar

Davies E.R. (2000a). Low-level vision requirements, Electronics and Communication Engineering Journal12(5): 197-210.10.1049/ecej:20000502Search in Google Scholar

Davies E.R. (2000b). Image Processing for the Food Industry, World Scientific, Singapore.10.1142/4182Search in Google Scholar

Davies E.R. (2001). A sampling approach to ultra-fast object location, Real-Time Imaging7(4): 339-355.10.1006/rtim.2000.0240Search in Google Scholar

Davies E.R. (2003). Design of real-time algorithms for food and cereals inspection, Imaging Science51(2): 63-78.10.1080/13682199.2003.11784414Search in Google Scholar

Davies E.R. (2005). Machine Vision: Theory, Algorithms, Practicalities, 3rd, Ed. Morgan Kaufmann, San Francisco.Search in Google Scholar

Davies E.R. (2007). Guided sampling for rapid object location using biologically motivated model, Electronics Letters43(9): 508-510.10.1049/el:20070113Search in Google Scholar

Itti L., Koch C. and Niebur E. (1998). A model of saliency-based visual attention for rapid scene analysis, IEEE Transactions on Pattern Analysis and Machine Intelligence20(11): 1254-1259.10.1109/34.730558Search in Google Scholar

Nagel R.N. and Rosenfeld A. (1972). Ordered search techniques in template matching, Proceedings IEEE60(2), 242-244.10.1109/PROC.1972.8611Search in Google Scholar

Palmer S.E. (1999). Visual selection: Eye movements and attention, In S.E. Palmer, (Vision Science: Photons to Phenomenology), Bradford Books/MIT Press, Cambridge, MA, pp. 519-571.Search in Google Scholar

Rosenfeld A. and VanderBrug G.J. (1977a). Coarse-fine template matching, IEEE Transactions on Systems, Man and Cybernetics7(4): 104-107.10.1109/TSMC.1977.4309663Search in Google Scholar

VanderBrug G.J. and Rosenfeld A. (1977b). Two-stage template matching, IEEE Transactions on Computers26(2): 384-393.10.1109/TC.1977.1674847Search in Google Scholar