Real-time image distortion correction based on FPGA

International Conference on Digital Image Processing Pub Date : 2022-10-12 DOI:10.1117/12.2644433

R. Ou, Danni Ai, X. Hu, Zhao Zheng, Yu Qiu, Jian Yang

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Abstract

As the primary method for real-time image processing, a field-programmable gate array (FPGA) is widely used in binocular vision systems. Distortion correction is an important component of binocular stereo vision systems. When implementing a real-time image distortion correction algorithm on FPGA, problems, such as insufficient on-chip storage space and high complexity of coordinate correction calculation methods, occur. These problems are analyzed in detail in this study. On the basis of the reverse mapping method, a distortion correction algorithm that uses a lookup table (LUT) is proposed. A compression with restoration method is established for this LUT to reduce space occupation. The corresponding cache method of LUT and the image data are designed. The algorithm is verified on our binocular stereo vision system based on Xilinx Zynq-7020. The experiments show that the proposed algorithm can achieve real-time and high precision gray image distortion correction effect and significantly reduce the consumption of on-chip resources. Enough to meet the requirements of accurate binocular stereo vision system.

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基于FPGA的实时图像失真校正

现场可编程门阵列(FPGA)作为实时图像处理的主要方法，在双目视觉系统中得到了广泛的应用。畸变校正是双目立体视觉系统的重要组成部分。在FPGA上实现实时图像失真校正算法时，存在片上存储空间不足、坐标校正计算方法复杂等问题。本研究对这些问题进行了详细的分析。在反向映射方法的基础上，提出了一种基于查找表(LUT)的失真校正算法。为减少空间占用，建立了该LUT的压缩恢复方法。设计了相应的LUT缓存方法和图像数据。在基于Xilinx Zynq-7020的双目立体视觉系统上对该算法进行了验证。实验表明，该算法能够实现实时、高精度的灰度图像畸变校正效果，显著降低片上资源的消耗。足以满足高精度双目立体视觉系统的要求。

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International Conference on Digital Image Processing

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