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TSMC
2002
2002
Complexity reduction for "large image" processing
We present a method for sampling feature vectors in large (e.g., 2000 5000 16 bit) images that finds subsets of pixel locations which represent "regions" in the image. Samples are accepted by the chi-square ( 2) or divergence hypothesis test. A framework that captures the idea of efficient extension of image processing algorithms from the samples to the rest of the population is given. Computationally expensive (in time and/or space) image operators (e.g., neural networks (NNs) or clustering models) are trained on the sample, and then extended noniteratively to the rest of the population. We illustrate the general method using fuzzy -means (FCM) clustering to segment Indian satellite images. On average, the new method can achieve about 99% accuracy (relative to running the literal algorithm) using roughly 24% of the image for training. This amounts to an average savings of 76% in CPU time. We also compare our method to its closest relative in the group of schemes used to acce...
Real-time Traffic16 Bit | Feature Vectors | Image | TSMC 2002 |
Related Content
| Added | 23 Dec 2010 |
| Updated | 23 Dec 2010 |
| Type | Journal |
| Year | 2002 |
| Where | TSMC |
| Authors | Nikhil R. Pal, James C. Bezdek |
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