Estado actual de los algoritmos de Reconocimiento de Rostro usando Tecnologı´a GPU
Gerard Medoni. Identifying noncooperative subjects at a distance using fce images and inferred three- dimensional face models. 39, January 2009.
P. J. Mucci, S. Browne, C. Deane, and G. Ho. Papi: a portable interface to hardware performance counters. pages 7–10, 1999.
Bohm C. Noll, R. Plant C., and Zherdin A. Index supported similarity join on graphics processors.
Sabzmeydani P. and Mori G. Detecting pedestrians by learning shapelet feature. 2007.
Gustavo Poli, Jose Hiroki Saito, Joao F. Mari, and Marcelo R. Zorzan. Processing neocognitron of face recognition on high performance environment based on gpu with cuda architecture. 2008.
Manavski S. and Valle G. Cuda compatible gpu cards as e ecient hardware accelerators for smith- waterman sequence alignment. 2008.
Arul Shalom, Manoranjan Dash, and Minh Tue. Efficient k-means clustering using accelerated graphics processors. 2008.
Sudipta N. Sinha, Jan michael Frahm, Marc Pollefeys, and Yakup Genc. Gpu-based video feature tracking and matching. Technical report, in Workshop on Edge Computing Using New Commodity Architectures (EDGE 2006), Chapel, 2006.
George Toderici, Georgios Passalis, Theoharis Theoharis, and Ioannis A. Kakadiaris. An automated method for human face modeling and relighting with application to face recognition. March 2008.
Richard Viney and R. Green. Gpu-accelerated computer vision on the linux platform. 2007.
Liu W., Schmidt B., Voss G., and Muller Wittig W. Molecular dynamics simulations on commodity gpus with cuda. 2007.
Li Zhang and R. Nevatia. Efficient scan-window based object detection using gpgpu. 2008.