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Disambiguation of "López, María T."

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Accumulative Computation Method for Motion Features Extraction in Active Selective Visual Attention.

, , , , , and . WAPCV, volume 3368 of Lecture Notes in Computer Science, page 206-215. Springer, (2004)

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María Fernanda López Sandoval

Margarita López López

Maria-Dolores Soriano López

Claudia Carolina López Yomayuza

Charakterisierung der Tollwutvakzinen Rabipur und Rabivac und der enthaltenen Virusstämme FluryLEP und PM 1503. Uni Gießen, (2009)

Fátima López López Pielow

Metamorfosis y metáfora: mito y discurso en Pedro Calderón de la Barca y Ovidio. Uni Wuppertal, (2008)
 

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Optimization of lateral interaction in accumulative computation on GPU-based platform., , , , and . J. Supercomput., 75 (3): 1670-1685 (2019)Length-speed ratio (LSR) as a characteristic for moving elements real-time classification., , , and . Real Time Imaging, 9 (1): 49-59 (2003)A conceptual frame with two neural mechanisms to model selective visual attention processes., , , , and . Neurocomputing, 71 (4-6): 704-720 (2008)Thermal-Infrared Pedestrian ROI Extraction through Thermal and Motion Information Fusion., , and . Sensors, 14 (4): 6666-6676 (2014)Algorithmic lateral inhibition method in dynamic and selective visual attention task: Application to moving objects detection and labelling., , , , and . Expert Syst. Appl., 31 (3): 570-594 (2006)Facial expression recognition in ageing adults: from lab to ambient assisted living., , , and . J. Ambient Intelligence and Humanized Computing, 8 (4): 567-578 (2017)Visual surveillance by dynamic visual attention method., , , , and . Pattern Recognit., 39 (11): 2194-2211 (2006)Neurally Inspired Mechanisms for the Dynamic Visual Attention Map Generation Task., , , and . IWANN (1), volume 2686 of Lecture Notes in Computer Science, page 694-701. Springer, (2003)Feature and Time Series Extraction in Artificial Neural Networks for Arousal Detection from Electrodermal Activity., , , , and . IWANN (1), volume 12861 of Lecture Notes in Computer Science, page 265-276. Springer, (2021)Deep Support Vector Machines for the Identification of Stress Condition from Electrodermal Activity., , , and . Int. J. Neural Syst., 30 (7): 2050031:1-2050031:16 (2020)