Performance evaluation of a feature-preserving filtering algorithm for removing additive random noise in digital images
We evaluate the performance of a feature-preserving filtering algorithm over a range of images corrupted by typical additive random noise against three common spatial filter algorithms: median, sigma and averaging. The concept of the new algorithm is based on a corrupted-pixel identification methodo...
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| Published in | Optical Engineering Vol. 35; no. 7; pp. 1871 - 1885 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
01.07.1996
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| Online Access | Get full text |
| ISSN | 0091-3286 1560-2303 |
| DOI | 10.1117/1.600769 |
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| Abstract | We evaluate the performance of a feature-preserving filtering algorithm over a range of images corrupted by typical additive random noise against three common spatial filter algorithms: median, sigma and averaging. The concept of the new algorithm is based on a corrupted-pixel identification methodology over a variable subimage size. Rather than processing every pixel indiscriminately in a digital image, this corrupted-pixel identification algorithm interrogates the image in variable-sized subimage regions to determine which are the corrupted pixels and which are not. As a result, only the corrupted pixels are being filtered, whereas the uncorrupted pixels are untouched. Extensive evaluation of the algorithm over a large number of noisy images shows that the corrupted-pixel identification algorithm exhibits three major characteristics. First, its ability in removing additive random noise is better visually (subjective) and has the smallest mean-square errors (objective) in all cases compared with the median filter, averaging filter and sigma filter. Second, the effect of smoothing introduced by the new filter is minimal. In other words, most edge and line sharpness is preserved. Third, the corrupted-pixel identification algorithm is consistently faster than the median and sigma filters in all our test cases. © |
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| AbstractList | We evaluate the performance of a feature-preserving filtering algorithm over a range of images corrupted by typical additive random noise against three common spatial filter algorithms: median, sigma and averaging. The concept of the new algorithm is based on a corrupted-pixel identification methodology over a variable subimage size. Rather than processing every pixel indiscriminately in a digital image, this corrupted-pixel identification algorithm interrogates the image in variable-sized subimage regions to determine which are the corrupted pixels and which are not. As a result, only the corrupted pixels are being filtered, whereas the uncorrupted pixels are untouched. Extensive evaluation of the algorithm over a large number of noisy images shows that the corrupted-pixel identification algorithm exhibits three major characteristics. First, its ability in removing additive random noise is better visually (subjective) and has the smallest mean-square errors (objective) in all cases compared with the median filter, averaging filter and sigma filter. Second, the effect of smoothing introduced by the new filter is minimal. In other words, most edge and line sharpness is preserved. Third, the corrupted-pixel identification algorithm is consistently faster than the median and sigma filters in all our test cases. © A feature-preserving filtering algorithm is proposed which is based on a corrupted-pixel identification (CPI) methodology over a variable subimage size rather than every pixel. With this algorithm, only corrupted pixels are filtered, whereas the uncorrupted pixels remain untouched. The performance of the CPI algorithm is evaluated in terms of impulse noise and Gaussian white noise removal from lightly to heavily degraded images, and the results are compared with those for the median, averaging, and sigma filters. The CPI algorithm consistently scores the lowest mean-square error. (AIAA) |
| Author | Yung, Nelson H. C Lai, Andrew H. S |
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| Title | Performance evaluation of a feature-preserving filtering algorithm for removing additive random noise in digital images |
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