论文信息 - Rapid prototyping of an automated video surveillance system: a hardware-software co-design approach

Rapid prototyping of an automated video surveillance system: a hardware-software co-design approach

FPGA devices with embedded DSP and memory blocks, and high-speed interfaces are ideal for real-time video processing applications. In this work, a hardware-software co-design approach is proposed to effectively utilize FPGA features for a prototype of an automated video surveillance system. Time-critical steps of the video surveillance algorithm are designed and implemented in the FPGAs logic elements to maximize parallel processing. Other non timecritical tasks are achieved by executing a high level language program on an embedded Nios-II processor. Pre-tested and verified video and interface functions from a standard video framework are utilized to significantly reduce development and verification time. Custom and parallel processing modules are integrated into the video processing chain by Altera's Avalon Streaming video protocol. Other data control interfaces are achieved by connecting hardware controllers to a Nios-II processor using Altera's Avalon Memory Mapped protocol.

Hau T. Ngo | Ryan N. Rakvic | Randy P. Broussard | Robert W. Ives

[1] Brian C. Lovell,et al. Face detection system design for real time high resolution smart camera , 2009, 2009 Third ACM/IEEE International Conference on Distributed Smart Cameras (ICDSC).

[2] Hau T. Ngo,et al. Comparing an FPGA to a Cell for an Image Processing Application , 2010, EURASIP J. Adv. Signal Process..

[3] Wayne Luk,et al. Performance Comparison of Graphics Processors to Reconfigurable Logic: A Case Study , 2010, IEEE Transactions on Computers.

[4] Vijayan K. Asari,et al. Design of a high performance architecture for real-time enhancement of video stream captured in extremely low lighting environment , 2009, Microprocess. Microsystems.

[5] Senem Velipasalar,et al. Resource-Efficient Salient Foreground Detection for Embedded Smart Cameras br Tracking Feedback , 2010, 2010 7th IEEE International Conference on Advanced Video and Signal Based Surveillance.

[6] Hui Zhang,et al. A Multiwindow Partial Buffering Scheme for FPGA-Based 2-D Convolvers , 2007, IEEE Transactions on Circuits and Systems II: Express Briefs.

[7] Vijayan K. Asari,et al. A High Performance Architecture for Implementation of 2-D Convolution with Quadrant Symmetric Kernels , 2008 .

[8] Randy P. Broussard,et al. Using a commercial graphical processing unit and the CUDA programming language to accelerate scientific image processing applications , 2011, Electronic Imaging.