en | de | ru )

 

Disambiguation

From post

копироватьудалитьдобавить публикацию в буфер
Speeding-Up Differential Motion Detection Algorithms Using a Change-Driven Data Flow Processing Strategy.

, и . CAIP, том 4673 из Lecture Notes in Computer Science, стр. 77-84. Springer, (2007)

Please choose a person to relate this publication to

To differ between persons with the same name, the academic degree and the title of an important publication will be displayed.

José Antonio Grifols

Antônio José Sandmann

José Antonio Almeida

José Antonio Zamora

Josè-Antonio Rubio

 

Другие публикации лиц с тем же именем

On the Advantages of Asynchronous Pixel Reading and Processing for High-Speed Motion Estimation., , , и . ISVC (1), том 5358 из Lecture Notes in Computer Science, стр. 205-215. Springer, (2008)A Pipelined Reconfigurable Architecture for Visual-Based Navigation., , , и . EUROMICRO, стр. 1071-1074. IEEE Computer Society, (1999)High-speed Motion Detection using Event-based Sensing., , и . VISIGRAPP (4: VISAPP), стр. 246-253. SciTePress, (2017)Selective Change-Driven Image Processing: A Speeding-Up Strategy., , , и . CIARP, том 5856 из Lecture Notes in Computer Science, стр. 37-44. Springer, (2009)Feature Extraction and Correlation for Time-to-Impact Segmentation Using Log-Polar Images., , и . ICCSA (4), том 3046 из Lecture Notes in Computer Science, стр. 887-895. Springer, (2004)Change-driven Image Architecture on FPGA with adaptive threshold for Optical-Flow Computation., , , и . ReConFig, стр. 237-243. IEEE Computer Society, (2006)Synthesizing on a Reconfigurable Chip an Autonomous Robot Image Processing System., и . FPL, том 2778 из Lecture Notes in Computer Science, стр. 458-467. Springer, (2003)A new foveated space-variant camera for robotic applications., , , , и . ICECS, стр. 680-683. IEEE, (1996)Selective Change Driven Vision Sensor With Continuous-Time Logarithmic Photoreceptor and Winner-Take-All Circuit for Pixel Selection., , и . IEEE J. Solid State Circuits, 50 (3): 786-798 (2015)Space Variant Vision and Pipelined Architecture for Time to Impact Computation., , , и . CAMP, стр. 122-126. IEEE Computer Society, (2000)