Embedded architecture for noise-adaptive video object detection using parameter-compressed background modeling

Autor: Kumara Ratnayake, Aishy Amer
Rok vydání: 2014
Předmět:
Zdroj: Journal of Real-Time Image Processing. 13:397-414
ISSN: 1861-8219
1861-8200
DOI: 10.1007/s11554-014-0418-x
Popis: Video processing algorithms are computationally intensive and place stringent requirements on performance and efficiency of memory bandwidth and capacity. As such, efficient hardware accelerations are inevitable for fast video processing systems. In this paper, we propose resource- and power-optimized FPGA-based configurable architecture for video object detection by integrating noise estimation, Mixture-of-Gaussian background modeling, motion detection, and thresholding. Due to large amount of background modeling parameters, we propose a novel Gaussian parameter compression technique suitable for resource- and power-constraint embedded video systems. The proposed architecture is simulated, synthesized and verified for its functionality, accuracy and performance on a Virtex-5 FPGA-based embedded platform by directly interfacing to a digital video input. Intentional exploitation of heterogeneous resources in FPGAs, and advanced design techniques such as heavy pipelining and data parallelism yield real-time processing of HD-1080p video streams at 30 frames per second. Objective and subjective evaluations to existing hardware-based methods show that the proposed architecture obtains orders of magnitude performance improvements, while utilizing minimal hardware resources. This work is an early attempt to devise a complete video surveillance system onto a stand-alone resource-constraint FPGA-based smart camera.
Databáze: OpenAIRE
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