Abstract
Emerging 3D-related technologies such as augmented reality, virtual reality, mixed reality, and stereoscopy have gained remarkable growth due to their numerous applications in the entertainment, gaming, and electromedical industries. In particular, the 3D television (3DTV) and free-viewpoint television (FTV) enhance viewers’ television experience by providing immersion. They need an infinite number of views to provide a full parallax to the viewer, which is not practical due to various financial and technological constraints. Therefore, novel 3D views are generated from a set of available views and their depth maps using depth-image-based rendering (DIBR) techniques. The quality of a DIBR-synthesized image may be compromised for several reasons, e.g., inaccurate depth estimation. Since depth is important in this application, inaccuracies in depth maps lead to different textural and structural distortions that degrade the quality of the generated image and result in a poor quality of experience (QoE). Therefore, quality assessment DIBR-generated images are essential to guarantee an appreciative QoE. This paper aims at estimating the quality of DIBR-synthesized images and proposes a novel 3D objective image quality metric. The proposed algorithm aims to measure both textural and structural distortions in the DIBR image by exploiting the contrast sensitivity and the Hausdorff distance, respectively. The two measures are combined to estimate an overall quality score. The experimental evaluations performed on the benchmark MCL-3D dataset show that the proposed metric is reliable and accurate, and performs better than existing 2D and 3D quality assessment metrics.
Highlights
We propose a 3D-IQA metric to estimate the quality of depth-image-based rendering (DIBR)-synthesized images
The performance of the proposed 3D video quality assessment metric was evaluated on the benchmark stereoscopic Media Communications Lab – MCL-3D dataset [70] and compared with other 2D and 3D-IQA metrics
A novel 3D-IQA metric was proposed to assess the quality of DIBRsynthesized images
Summary
3D television (3DTV) and the recent free-viewpoint television (FTV) [1] have enhanced users’ television experience by providing immersion. The FTV, in addition to the immersive experience, enables the viewer to enjoy the scene from different viewpoints by changing his/her position in front of the television. To provide a full parallax, FTV needs dozens of views, ideally an infinite number of views. Capturing, coding, and transmitting such a large number of views is not practical due to various financial and technological constraints, such as limited available bandwidth. Novel 3D video (3DV) formats and representations have been explored to design compression-friendly and cost-efficient solutions. The multiview video plus depth (MVD) format is considered to be
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