精确检测彩色和多光谱图像的边缘方向

Proceedings 2001 International Conference on Image Processing (Cat. No.01CH37205) Pub Date : 2001-10-07 DOI:10.1109/ICIP.2001.959188

F. Porikli

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引用次数: 5

摘要

图像的频域特性用于彩色和多光谱图像边缘方向的精确检测。将方向估计建立为最小化问题，用张量法表示，并通过求解图像的空间偏导数来简化其对偶。首先，得到每个像素周围的光谱密度分布。边缘的方向是通过对这个分布拟合一条直线来确定的。以张量形式设计匹配误差，并通过旋转频域主轴最小化匹配误差。通过将频域操作转置到空间域，从空间导数计算方向。将不同波段估计的边缘方向和大小转换为矢量，并在矢量域中求和。将该方法与目前广泛使用的估计方法进行了比较，结果表明，即使在存在极端噪声的情况下，自适应张量方法也能提高估计精度。

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Accurate detection of edge orientation for color and multi-spectral imagery

The frequency domain properties of an image are used for precise detection of edge orientation in color and multi-spectral imagery. The orientation estimation is established as a minimization problem, formulated as a tensor method, and simplified by solving its dual in terms of spatial partial derivatives of the image. First, the spectral density distribution around each pixel is obtained. The edge orientation is determined by fitting a straight line to this distribution. A matching error is devised in tensor form, and minimized by rotating the frequency domain principal axes. The orientation is computed from the spatial derivatives by transposing frequency domain operations to the spatial domain. The estimated edge orientations and magnitudes for different bands are converted to vectors and summed in the vector domain. A comparison of this method with the widely used estimators shows that the adapted tensor method improves the estimation precision even in the presence of extreme noise.

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Proceedings 2001 International Conference on Image Processing (Cat. No.01CH37205)

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