Low-complexity content-adaptive Lagrange multiplier decision for SSIM-based RD-optimized video coding

The SSIM-based rate distortion optimization (R-DO) has been proved to be an effective way to promote the perceptual video coding performance, and the Lagrange multiplier decision is the key to the SSIM-based RD-optimized video coding. Through extensively analyzing the characteristics of SSIM-based and SSE-based video distortions, this paper presents a low-complexity content-adaptive Lagrange multiplier decision method. The proposed method first estimates frame-level SSIM-based Lagrange multiplier by scaling the traditional SSE-based Lagrange multiplier with the ratio of SSE-based distortion to SSIM-based distortion. Via predicting the macroblock's perceptual importance in the whole frame, the macroblock-level Lagrange multiplier is further refined to promote the accuracy of the Lagrange multiplier decision. Experimental results show that the proposed method can obtain almost the same rate-SSIM performance and subjective quality as the state-of-the-art SSIM-based RD-optimized video coding methods with lower computation overheads.