Open Access Open Access  Restricted Access Subscription Access

Adaptive Fuzzy Filtering for Artifact Reduction in Compressed Images and Videos


Affiliations
1 Dr. B.R. Ambedkar University, Srikakulam Etcherla – 532 410, Andhra Pradesh, India
2 Dept. of Computer Science, Gayathri College of Science and Management, Munasab Peta, Srikakulam, India
 

In this paper, spatial neighboring pixels are used to deal with blocking and ringing artifacts while temporal neighboring pixels are utilized to remove mosquito and flickering artifacts. To avoid the blurring effect of linear filters, a fuzzy filter is implemented. Fuzzy filter is a specific case of bilateral filters [15], [16]. Fuzzy filters help denoising the artifacts while retaining the sharpness of real edges. In image and video compression, the artifacts such as blocking or ringing artifacts are spatially directional and flickering artifacts are temporally directional. For compressed video sequences, the motion compensated spatiotemporal filter (MCSTF) is applied to intraframe and interframe pixels to deal with both spatial and temporal artifacts. In this work, a novel fuzzy filter is proposed to adapt to the pixel's activity and directions between the pixel of interest and its surrounding pixels.

Keywords

Artifact Reduction, Flickering Metric, Fuzzy Filter, MCSTF.
User
Notifications
Font Size

Abstract Views: 377

PDF Views: 195




  • Adaptive Fuzzy Filtering for Artifact Reduction in Compressed Images and Videos

Abstract Views: 377  |  PDF Views: 195

Authors

P. Ramakrishna Rao
Dr. B.R. Ambedkar University, Srikakulam Etcherla – 532 410, Andhra Pradesh, India
B. Addai
Dr. B.R. Ambedkar University, Srikakulam Etcherla – 532 410, Andhra Pradesh, India
G. Ramakrishna
Dr. B.R. Ambedkar University, Srikakulam Etcherla – 532 410, Andhra Pradesh, India
T. Pandu Ranga Vital
Dept. of Computer Science, Gayathri College of Science and Management, Munasab Peta, Srikakulam, India

Abstract


In this paper, spatial neighboring pixels are used to deal with blocking and ringing artifacts while temporal neighboring pixels are utilized to remove mosquito and flickering artifacts. To avoid the blurring effect of linear filters, a fuzzy filter is implemented. Fuzzy filter is a specific case of bilateral filters [15], [16]. Fuzzy filters help denoising the artifacts while retaining the sharpness of real edges. In image and video compression, the artifacts such as blocking or ringing artifacts are spatially directional and flickering artifacts are temporally directional. For compressed video sequences, the motion compensated spatiotemporal filter (MCSTF) is applied to intraframe and interframe pixels to deal with both spatial and temporal artifacts. In this work, a novel fuzzy filter is proposed to adapt to the pixel's activity and directions between the pixel of interest and its surrounding pixels.

Keywords


Artifact Reduction, Flickering Metric, Fuzzy Filter, MCSTF.