. "Current video surveillance applications put higher demand both on processing power and personal privacy. This results in new video processing solutions being based on smart cameras. This paper presents a sample implementation of a system that implements core functions of a smart camera - motion detection and labelling - in an FPGA. The implementation is based on the data-flow ASVP platform extended with a number of selection operations that enable to implement constructs with conditional branching. Experimental performance results and power consumption data are presented for an actual implementation in the Xilinx SP605 board." . . "Gi\u00E8res" . . "978-2-9539987-2-6" . . . "Karlsruhe" . . "Video Surveillance Application Based on Application Specific Vector Processors"@en . "I, P(7H10001)" . "5"^^ . . "Electronic Chips & Systems design Initiative" . "Video Surveillance Application Based on Application Specific Vector Processors" . "8"^^ . "video surveillance; smart camera; custom accelerators; vector processing; FPGA"@en . "Honz\u00EDk, P." . "177447" . "Video Surveillance Application Based on Application Specific Vector Processors"@en . "Bartosinski, Roman" . "RIV/67985556:_____/12:00382184!RIV13-MSM-67985556" . "S\u00FDkora, Jaroslav" . . . . "Proceedings of the 2012 Conference on Design & Architectures for Signal & Image Processing" . "RIV/67985556:_____/12:00382184" . "4"^^ . . . . "[8E5B6B1F01BB]" . . . . "Dan\u011Bk, Martin" . . "Video Surveillance Application Based on Application Specific Vector Processors" . . "Kohout, Luk\u00E1\u0161" . . . "2012-10-23+02:00"^^ . "Current video surveillance applications put higher demand both on processing power and personal privacy. This results in new video processing solutions being based on smart cameras. This paper presents a sample implementation of a system that implements core functions of a smart camera - motion detection and labelling - in an FPGA. The implementation is based on the data-flow ASVP platform extended with a number of selection operations that enable to implement constructs with conditional branching. Experimental performance results and power consumption data are presented for an actual implementation in the Xilinx SP605 board."@en . . . .