Rate distortion optimization for stereoscopic video coding based on joint of binocular just-noticeable distortion and structural similarity index metric.

In video coding, the Lagrange-based rate distortion optimization (RDO) plays important roles in improving coding efficiency. We proposed a method to improve the RDO of stereoscopic video coding. It uses two independent perception-based distortion metrics for the left and right views, as the distortion in the RDO. The distortion metric of the right view is to measure binocular perceptual distortion of the two views. The distortion metric of the left view is to measure two-dimensional (2-D) perceptual distortion of the left view. Both distortion metrics are developed based on the structural similarity index metric (SSIM) that is weighted by visual sensitivity. A binocular just-noticeable distortion (JND) model is proposed to measure binocular visual sensitivity for the right view. The commonly used 2-D JND models are adopted for the left view. In addition, a 1/SSIM-based rate-distortion (R-D) model is improved based the proposed distortion metrics. Based on it, the Lagrange multiplier is then derived according to the R-D theory. The experiments demonstrate that the proposed method has better performance than other perceptual RDO methods. Subjective evaluations also show that it can achieve better perceptual quality with less bit rate.