Image fidelity estimation from received embedded bitstream

Despite the fact that mean squared error (MSE) is the most widely used image/video fidelity criterion, it requires the availability of original image and large computational resources for its computation. The non-availability of original images limits the use of MSE as a quality metric in many pract...

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Bibliographic Details
Published in:Signal, image and video processing image and video processing, 2020-04, Vol.14 (3), p.465-472
Main Authors: Baig, Md Amir, Moinuddin, Athar A., Khan, Ekram, Ghanbari, M.
Format: Article
Language:English
Subjects:
Accuracy
Coders
Computer Imaging
Computer Science
Computer simulation
Decoding
Image Processing and Computer Vision
Mathematical analysis
Multimedia Information Systems
Original Paper
Pattern Recognition and Graphics
Reduction
Signal,Image and Speech Processing
Vision
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Summary:Despite the fact that mean squared error (MSE) is the most widely used image/video fidelity criterion, it requires the availability of original image and large computational resources for its computation. The non-availability of original images limits the use of MSE as a quality metric in many practical scenarios. This paper proposes to use MSE reduction (MSER) with reference to null image for estimating the fidelity of images decoded from embedded bitstreams without the original image. MSER is generally used for rate allocation, optimal error protection, etc. However, MSER gives information about the improvement in fidelity of decoded image, rather than its absolute value. It is proposed to estimate MSE from MSER f (MSE reduction in lossless bitstream) and MSER d (MSE reduction at desired bitrate/fidelity). The MSER d can be calculated at decoder side while decoding the embedded bitstream at desired rate. MSER f is fixed and independent of bitrate, calculated at the encoder side and is embedded in the bitstream as side information. It has been suggested that knowing the values of MSER f and MSER d , the MSE of decoded image is simply their difference. Simulation results demonstrate that the proposed method is fairly simple and highly accurate.
ISSN:1863-1703
1863-1711
DOI:10.1007/s11760-019-01577-3