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An efficient post-processing adaptive filtering technique to rectifying the flickering effects.

Anudeep Gandam1, Jagroop Singh Sidhu2, Sahil Verma3

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Summary
This summary is machine-generated.

This study introduces a Pre- and Post-Processing Assisted Filtering Technique (PP-AFT) to enhance low-bitrate video quality. PP-AFT effectively reduces artifacts like blocking and flickering, significantly improving visual fidelity.

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Area of Science:

  • Digital Image Processing
  • Video Compression
  • Signal Processing

Background:

  • Low-bitrate video compression (≤0.5bpp) using standards like H.264 and MPEG-4 introduces significant visual artifacts.
  • Common artifacts include quantization error, ringing, blocking, and flickering, degrading overall video quality.

Purpose of the Study:

  • To develop an efficient pre- and post-processing technique (PP-AFT) for rectifying visual degradation in low-bitrate compressed video frames.
  • To significantly improve the subjective visual quality of video frames affected by compression artifacts.

Main Methods:

  • The PP-AFT method classifies video frames into regions using an activity function.
  • Adaptive filters are designed for each classified region to address specific artifacts.
  • Includes adaptive flicker extraction/removal and a 2-D filter for edge ringing reduction.

Main Results:

  • PP-AFT demonstrated significant improvements in subjective video frame quality across various test videos.
  • Outperformed state-of-the-art de-blocking methods, achieving 0.7-1.9db higher PSNR-B.
  • Reduced average GBIM by 35.83-47.7% while maintaining MSSIM values close to the original (0.978).

Conclusions:

  • The proposed PP-AFT technique effectively mitigates common video compression artifacts at very low bitrates.
  • PP-AFT offers a superior solution for enhancing video quality compared to existing de-blocking methods.
  • The method achieves a strong balance between artifact reduction and preservation of original video sequence fidelity.