This paper presents a new motion and edge adaptive de-interlacing algorithm, which is efficient and artifacts-free. It is novel in the sense that it introduces a way to properly interpolate the two (odd and even) field images according to the information provided by the simplest form of motion detection and edge orientation estimation methods. The proposed algorithm was evaluated by three video sequences, namely, 'Akiyo', 'Silent', 'Foreman'. Experimental results confirm that the proposed algorithm performs, both objectively and subjectively, much better than other similar algorithms. These promising results indicate that the proposed interpolation approach has good potential to realize even better de-interlacing algorithms, if more sophist...
In this paper present video interlacing de-interlacing and various techniques. Focus on the differen...
A new motion adaptive algorithm for de-interlacing video is proposed in this paper. It employs two f...
In the process of converting interlaced scanning to progressive scanning, interline flickers, saw-to...
Since the human visual system is especially sensitive to image edges, edge-dependent spatial interpo...
This paper presents an algorithm for video de-interlacing. The approach uses three fuzzy logic-based...
[[abstract]]Interlaced scanning is used for traditional TV system to save the bandwidth of the trans...
Abstract—A de-interlacing algorithm using adaptive 4-field global/local motion compensated approach ...
A digital system for efficient de-interlacing based on refined motion adaptive method is presented. ...
In this paper, we propose a new de-interlacing algorithm using two types of motion information, i.e....
Interlaced-to-progressive algorithms are currently required by video format conversion systems in or...
Abstract—The paper proposes a new method for de-interlacing video. It combines simple techniques suc...
Abstract—In this paper, a novel edge pattern recognition (EPR) deinterlacing algorithm with successi...
In this paper, we proposed a spatial-temporal de-interlacing algorithm for conversion of interlaced ...
Deinterlacing is the process of converting of interlaced-scan video sequences into progressive scan ...
In this paper, we propose a novel hybrid de-interlacing algorithm, which effectively combines two mo...
In this paper present video interlacing de-interlacing and various techniques. Focus on the differen...
A new motion adaptive algorithm for de-interlacing video is proposed in this paper. It employs two f...
In the process of converting interlaced scanning to progressive scanning, interline flickers, saw-to...
Since the human visual system is especially sensitive to image edges, edge-dependent spatial interpo...
This paper presents an algorithm for video de-interlacing. The approach uses three fuzzy logic-based...
[[abstract]]Interlaced scanning is used for traditional TV system to save the bandwidth of the trans...
Abstract—A de-interlacing algorithm using adaptive 4-field global/local motion compensated approach ...
A digital system for efficient de-interlacing based on refined motion adaptive method is presented. ...
In this paper, we propose a new de-interlacing algorithm using two types of motion information, i.e....
Interlaced-to-progressive algorithms are currently required by video format conversion systems in or...
Abstract—The paper proposes a new method for de-interlacing video. It combines simple techniques suc...
Abstract—In this paper, a novel edge pattern recognition (EPR) deinterlacing algorithm with successi...
In this paper, we proposed a spatial-temporal de-interlacing algorithm for conversion of interlaced ...
Deinterlacing is the process of converting of interlaced-scan video sequences into progressive scan ...
In this paper, we propose a novel hybrid de-interlacing algorithm, which effectively combines two mo...
In this paper present video interlacing de-interlacing and various techniques. Focus on the differen...
A new motion adaptive algorithm for de-interlacing video is proposed in this paper. It employs two f...
In the process of converting interlaced scanning to progressive scanning, interline flickers, saw-to...