TY - GEN
T1 - Motion estimation using coarse to fine based on wavelet multiresolution for inbetweening in old animation films
AU - Sulistyaningrum, Dwi Ratna
AU - Purnomo, Mauridhi Hery
AU - Hariadi, Mochamad
PY - 2011
Y1 - 2011
N2 - Animation film is much demand entertainment. If the old animation films have audio-visual quality as desired modern audience then the audience would be interested in the film. The old animation films have several kinds of damage such as intensity flicker, noise, blotches and movement of objects in the video is less smooth (jerky). Inbetweening is the process of generating intermediate frames between two images to give the appearance that the first image evolves smoothly into the second image. Motion estimation is required for inbetweening. Animation film object of this study is the result of manual hand drawing and graylevel color so it requires the determination of motion vector estimation is precise and quick. In this paper we propose a quality enhancement method of the object motion of old animation film using inbetweening. The inbetweening method which is proposed uses object interpolation approach based on motion vector. Motion estimation is proposed using coarse to fine based on wavelet multiresolution, while the function of matching using MAD. The first step is eliminating the defects of old animation film in order to obtain the accurate motion vector estimation. Then, motion estimation to find motion vector and refinement that. Then, Segment a frame into objects and background. After that, the inbetweening process is executed by using object interpolation approach. In the experiment using the old animation films are produced in the 1920s. Experimental results show that our proposed method have average PSNR 23.46 dB for Popeye sequence, 31.73 for Charlie Chaplin sequence, and 30.82 for felix sequence.
AB - Animation film is much demand entertainment. If the old animation films have audio-visual quality as desired modern audience then the audience would be interested in the film. The old animation films have several kinds of damage such as intensity flicker, noise, blotches and movement of objects in the video is less smooth (jerky). Inbetweening is the process of generating intermediate frames between two images to give the appearance that the first image evolves smoothly into the second image. Motion estimation is required for inbetweening. Animation film object of this study is the result of manual hand drawing and graylevel color so it requires the determination of motion vector estimation is precise and quick. In this paper we propose a quality enhancement method of the object motion of old animation film using inbetweening. The inbetweening method which is proposed uses object interpolation approach based on motion vector. Motion estimation is proposed using coarse to fine based on wavelet multiresolution, while the function of matching using MAD. The first step is eliminating the defects of old animation film in order to obtain the accurate motion vector estimation. Then, motion estimation to find motion vector and refinement that. Then, Segment a frame into objects and background. After that, the inbetweening process is executed by using object interpolation approach. In the experiment using the old animation films are produced in the 1920s. Experimental results show that our proposed method have average PSNR 23.46 dB for Popeye sequence, 31.73 for Charlie Chaplin sequence, and 30.82 for felix sequence.
KW - coarse to fine
KW - inbetweening
KW - motion estimation
KW - wavelet multiresolution
UR - http://www.scopus.com/inward/record.url?scp=80054047371&partnerID=8YFLogxK
U2 - 10.1109/ICEEI.2011.6021742
DO - 10.1109/ICEEI.2011.6021742
M3 - Conference contribution
AN - SCOPUS:80054047371
SN - 9781457707520
T3 - Proceedings of the 2011 International Conference on Electrical Engineering and Informatics, ICEEI 2011
BT - Proceedings of the 2011 International Conference on Electrical Engineering and Informatics, ICEEI 2011
T2 - 2011 International Conference on Electrical Engineering and Informatics, ICEEI 2011
Y2 - 17 July 2011 through 19 July 2011
ER -