| Abstract: | A challenging problem confronted when designing a blind/no-reference (NR) stereoscopic image quality assessment (SIQA) algorithm is to simulate the quality assessment (QA) behavior of the human visual system (HVS) during binocular vision. An effective way to solve this problem is to estimate the quality of the merged single view created in the human brain which is also referred to as the cyclopean image. However, due to the difficulty in modeling the binocular fusion and rivalry properties of the HVS, obtaining effective cyclopean images for QA is non-trivial, and consequently previous NR SIQA algorithms either require the MOS/DMOS values of the distorted 3D images for training or ignore the quality analysis of the merged cyclopean view. In this paper, we focus on (1) constructing accurate and appropriate cyclopean views for QA of stereoscopic images by adaptively analyzing the distortion information of two monocular views, and (2) training NR SIQA models without requiring the assistance of the MOS/DMOS values in existing databases. Accordingly, we present an effective opinion-unaware SIQA algorithm called MUSIQUE-3D, which blindly assesses the quality of multiply and singly distorted stereoscopic images by analyzing quality degradations of both monocular and cyclopean views. The monocular view quality is estimated by an extended version of the MUSIQUE algorithm, and the cyclopean view quality is computed from the distortion parameter values predicted by a two-layer classification-regression model trained on a large 3D image dataset. Tests on various 3D image databases demonstrate the superiority of our method as compared with other state-of-the-art SIQA algorithms. |
