一种基于fpga的实时光流计算体系结构

2003 IEEE International Workshop on Computer Architectures for Machine Perception Pub Date : 2003-05-12 DOI:10.1109/CAMP.2003.1598166

S. Maya-Rueda, C. Torres-Huitzil, M. Arias-Estrada

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引用次数: 5

摘要

场景的运动估计是计算机视觉中一个有趣的问题，因为它是场景动态分析的基础。然而，这项任务对于传统处理器来说是计算密集型的。在这项工作中，提出了一种基于fpga的实时运动估计硬件架构。用于运动估计的技术是光流算法的一种变体，其中问题被重新表述为重叠基函数的和，并作为线性系统解决。所提出的体系结构是基于一种收缩方法，由以规则结构组织的并行模块组成。收缩处理器加速了实现实时性能所需的矩阵操作。给出了系统的体系结构设计。给出了初步结果并进行了讨论

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A real-time FPGA-based architecture for optical flow computation

Motion estimation of a scene is an interesting problem in computer vision since it is the basis for the dynamic analysis of a scene. However this task is computational intensive for conventional processors. In this work, a FPGA-based hardware architecture for real-time motion estimation is proposed. The technique used for motion estimation is a variation of the optical flow algorithm where the problem is reformulated as a sum of overlapped basis functions, and solved as a linear system. The proposed architecture is based on a systolic approach and is composed of parallel modules organized in a regular structure. The systolic processor accelerates the matrix operations required to achieve real-time performance. The architecture design is presented. Preliminary results are shown and discussed

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2003 IEEE International Workshop on Computer Architectures for Machine Perception

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