Title :
Training Quality-Aware Filters for No-Reference Image Quality Assessment
Author :
Lin Zhang ; Zhongyi Gu ; Xiaoxu Liu ; Hongyu Li ; Jianwei Lu
Author_Institution :
Tongji Univ., Shanghai, China
Abstract :
With the rapid increase of digital imaging and communication technology usage, there´s now great demand for fast and practical image quality assessment (IQA) algorithms that can predict an image´s quality as consistently as humans. The authors propose a general-purpose, no-reference image quality assessment (NR-IQA) with the goal of developing a model that does not require prior knowledge about nondistorted reference images and the types of distortions. The key is to obtain effective image representations using learning quality-aware filters (QAFs). Unlike other regression models, they also use a random forest to train the mapping from the feature space. Extensive experiments conducted on the LIVE and CSIQ datasets demonstrate that the proposed NR-IQA metric QAF can achieve better prediction performance than the other state-of-the-art approaches in terms of both prediction accuracy and generalization capability.
Keywords :
filtering theory; image representation; learning (artificial intelligence); regression analysis; CSIQ datasets; LIVE datasets; NR-IQA algorithm; QAFs; communication technology; digital imaging; feature space; general-purpose no-reference image quality assessment; image representations; learning quality-aware filters; nondistorted reference images; random forest; regression models; training quality-aware filters; Digital imaging; Feature extraction; Filtering; Image coding; Image quality; Predictive models; Research and development; Training; NR-IQA; multimedia; natural scene statistics; no-reference image quality assessment; quality-aware filters; random forest; sparse filtering;
Journal_Title :
MultiMedia, IEEE
DOI :
10.1109/MMUL.2014.50
