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Image matching using peak signal-to-noise ratio-based occlusion detection

Image matching using peak signal-to-noise ratio-based occlusion detection

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© The Institution of Engineering and Technology
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A new identification mechanism is introduced for the purpose of locating objects partially occluded under low peak signal-to-noise ratio (PSNR) environment in two-dimensional grey scale image.The proposed occlusion detection is based on the utilisation of the fact that the higher the PSNR, the less the impairment of the image. Most existing methods require a training process before recognition tasks or fail to obtain good results when objects are partially occluded under low PSNR environment. The new identification mechanism uses a self-adaptively adjusted threshold for providing a more exact occlusion detection and a correlation-coefficient evaluation process for reducing false positives, allowing for better accuracy in classifying and locating partially occluded objects under low PSNR. The performance of the proposed framework is confirmed through 100 occluded images with various noise levels. The experimental results show that the new proposed algorithm is not only more robust against image noise and partial occlusion, but also provides a significantly improved object localisation/recognition performance when compared with normalised cross-correlation and selective correlation coefficient.

Inspec keywords: hidden feature removal; image denoising; image colour analysis; computer graphics; image sensors; optical correlation; image classification; object detection; image matching

Other keywords: identification mechanism; image impairment; peak signal-to-noise ratio; occlusion detection; image classification; PSNR; image matching; image noise; false positive reduction; image recognition; correlation-coefficient evaluation process; two-dimensional grey scale imaging; object localisation-recognition performance; partially occluded object location; self-adaptively adjusted threshold

Subjects: Optical, image and video signal processing; Image sensors; Computer vision and image processing techniques

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