1 / 60

Image Quality Measures

Image Quality Measures. Omar Javed, Sohaib Khan Dr. Mubarak Shah. Factors Affecting Registration Performance. Mission image quality and content Reference image quality and content Mission-Reference differences Viewing geometry Quality of DEM Method of registration. Test Images.

dom
Download Presentation

Image Quality Measures

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Image Quality Measures Omar Javed, Sohaib Khan Dr. Mubarak Shah

  2. Factors Affecting Registration Performance • Mission image quality and content • Reference image quality and content • Mission-Reference differences • Viewing geometry • Quality of DEM • Method of registration

  3. Test Images • 5 image sequences were used as test images • 08 Oct 99 Image Sequence • 13 Oct 99 Image Sequence • 15 Oct 99 Image Sequence • 16 Oct 99 Image Sequence • 19 Oct 99 Image Sequence

  4. In ThisPresentation... • Factors affecting registration performance. • Image quality and content measures • SNR estimation • Texture measures • Gabor filters

  5. Properties of Mission Imagery Affecting Registration Performance • Scene Content • Homogenous texture i.e. no distinctive features • Example Images

  6. Properties of Mission Imagery Affecting Registration Performance • Aperture Problem • Presence of roads or homogenous elongated features causes error in registration along the direction of elongation

  7. Properties of Mission Imagery Affecting Registration Performance • Extreme blur

  8. Properties of Mission Imagery Affecting Registration Performance • Spurious weather phenomenon e.g. clouds, haze ..

  9. Image Quality and Content Measures • SNR estimation • Texture Measures • Gabor Filters

  10. Blind SNR Estimation • A method to estimate the quality of image is based on quantity Q=2fi dr • The intensity image fi can be modeled by a mixture of Rayleigh pdfs

  11. Algorithm For SNR Estimation • Compute the horizontal and vertical derivatives of the image • Calculate the gradient magnitude ‘ΔΙ’ from the derivatives. • Obtain a Histogram of gradient intensity values from ΔΙ. • Count the number of pixels > 2μ , where μ is mean of ΔΙ . • Normalize by total number of pixels.

  12. Results Results • 08 Oct 99 Sequence Total Images = 70 Images with error=12 Unregistered Images=17 Images identified by metric as unregisterable=20 # of false +ves=11 # of false -ves= 20 Misclassification Error= 44.28%

  13. Results Results • 13 Oct 99 Sequence Total Images = 84 Images with error=18 Unregistered Images=11 Images identified by metric as unregisterable=21 # of false +ves=9 # of false -ves= 17 Misclassification Error= 30.95%

  14. Results Results • 15 Oct 99 Sequence Total Images = 115 Images with error=6 Unregistered Images=0 Images identified by metric as unregisterable=0 # of false +ves=0 # of false -ves= 6 Misclassification Error= 5.21%

  15. Results Results • 16 Oct 99 Sequence Total Images = 169 Images with error=19 Unregistered Images=39 Images identified by metric as unregisterable=25 # of false +ves=10 # of false -ves= 44 Misclassification Error= 31.95%

  16. Results Results • 19 Oct 99 Sequence Total Images = 172 Images with error=15 Unregistered Images=22 Images identified by metric as unregisterable=19 # of false +ves=17 # of false -ves= 35 Misclassification Error= 30.23%

  17. Discussion of Results • Images labeled as low quality • Red squares indicates large registration error or exclusion from registration

  18. Discussion of Results • Images labeled as high quality • Red squares indicates large registration error or exclusion from registration

  19. Suitability as an Image Metric • Advantages • Extreme blur is detected and corresponds well with registration error. • Low computation time • Disadvantages • Cloud detection is not robust. • Feature less images are a major cause of registration error. SNR is not able to detect these images robustly.

  20. Texture • Gray Level Co-occurrence Matrices (GLCMs) • 2D histogram which encodes spatial relations • parameters: direction, distance, quantization-level window-size • Measures are computed on the GLCM • entropy, contrast, homogeneity, energy

  21. i Distance and Direction Relationship d j Computing GLCM • A GLCM P[i,j] is defined by • specifying displacement vector d=(dx,dy) • Counting all pairs of pixels separated by d having gray levels I and j. P(i, j) Input image 1 ….. j ………. 255 +1 1 ……… i ………. 255 Quantization level Window size

  22. GLCM Measures • Entropy • Randomness of gray level distribution • Energy: • uniformity of gray level in a region

  23. GLCM Measures • Contrast • Measure of difference between gray levels • Homogeneity • Measure of similarity of texture

  24. Contrast Entropy Energy Homogeneity GLCM measures Contrast

  25. Results Results • 08 Oct 99 Sequence Total Images = 70 Images with error=12 Unregistered Images=17 Images identified by metric as unregisterable=19 # of false +ves=5 # of false -ves= 15 Misclassification Error= 28.57%

  26. Results Results • 13 Oct 99 Sequence Total Images = 84 Images with error=18 Unregistered Images=11 Images identified by metric as unregisterable=12 # of false +ves=7 # of false -ves= 26 Misclassification Error= 39.28%

  27. Results Results • 15 Oct 99 Sequence Total Images = 115 Images with error=6 Unregistered Images=0 Images identified by metric as unregisterable=15 # of false +ves=15 # of false -ves= 6 Misclassification Error= 18.26%

  28. Results Results • 16 Oct 99 Sequence Total Images = 169 Images with error=19 Unregistered Images=39 Images identified by metric as unregisterable=32 # of false +ves=13 # of false -ves= 41 Misclassification Error= 31.95%

  29. Results Results • 19 Oct 99 Sequence Total Images = 172 Images with error=15 Unregistered Images=22 Images identified by metric as unregisterable=47 # of false +ves=18 # of false -ves= 8 Misclassification Error= 15.11%

  30. Discussion of Results • Images labeled as low quality • Red squares indicates large registration error or exclusion from registration

  31. Discussion of Results • Images labeled as high quality • Red squares indicates large registration error or exclusion from registration

  32. Suitability as an Image Metric • Advantages • Homogeneous texture is detected though detection is not robust. • Disadvantages • It is difficult to fine tune the several parameters of GLCM’s so that consistent results are obtained for a variety of images. • Clouds are not detected. • Blur is not detected.

  33. Gabor Filter • The Gabor function • is a complex sinusoid centered at frequency (U,V) modulated by a Guassian envelop . • Gabor function can discriminate between textures

  34. Gabor Filter • Experiments were done with the following values • Variance of Guassian = 30 • Four Gabor kernels • 1 Horizontal • 1 Vertical • 2 Diagonal

  35. Gabor Kernels

  36. Calculation of Quality metric • Normalize image intensity values (0 to 255). • Calculate mean of intensity values. • Subtract mean from all intensity. • Add 128 (middle value). • Determine Gabor response of the image. • Generate four Gabor kernels. • Convolve each kernel with the image. • Multiply the four results.

  37. Calculation of Quality metric • Perform connected component analysis and clean up small areas of response. • Count the number of pixels Np in the response area. Normalize by total number of pixels. • If Np <Tlow label image as low quality. • If Np >Thigh label image as high quality.

  38. Calculation of Quality metric • If both the previous conditions are not met then calculate spatial covariance of Gabor response. • If spatial covariance is < Ts label image as low quality otherwise label image as high quality.

  39. Results • Images of Gabor response

  40. Results • Result after convolution from vertical kernel

  41. Results • Result after convolution from horizontal kernel

  42. Results • Result after convolution from diagonal kernel

  43. Results • Result after convolution from diagonal kernel

  44. Results • Results after multiplication and thresholding

  45. Results • Images of Gabor response

  46. Results • Images of Gabor response

  47. Results • Images of Gabor response

  48. Results • Images of Gabor response

  49. Results • Images of Gabor response

  50. Results Results • 08 Oct 99 Sequence Total Images = 70 Images with error=12 Unregistered Images=17 Images identified by metric as unregisterable=26 # of false +ves=2 # of false -ves= 5 Misclassification Error= 10.00%

More Related