Title :
Adaptive global concealment of video up-conversion artefacts
Author :
Ojo, Olukayode A. ; Schoemaker, Herman
Author_Institution :
Adv. Syst. & Appl. Lab., Philips Consumer Electron., Eindhoven, Netherlands
fDate :
2/1/2001 12:00:00 AM
Abstract :
Video field-rate conversion requires algorithms that improve dynamic resolution without degrading motion portrayal. Motion-compensated up-conversion is the state-of-the-art in this field. But motion compensation sometimes introduces objectionable artefacts into the output picture due to incorrect motion vectors. This paper describes a method of suppressing the image degradation due to motion compensation artefacts. It is unique in that it estimates global image degradation to determine the required level of error concealment or fallback. Two levels of fallback are implemented which take human perception properties into consideration. They are realized on a microprocessor´s ROM connected to an up-converter IC
Keywords :
adaptive signal processing; image resolution; microprocessor chips; motion compensation; read-only storage; video signal processing; visual perception; adaptive global concealment; algorithms; dynamic resolution; error concealment; fallback levels; global image degradation estimation; human perception properties; image degradation suppression; microprocessor ROM; motion compensation artefacts; motion vectors; motion-compensated up-conversion; output picture; up-converter IC; video field-rate conversion; video up-conversion artefacts; Degradation; Displays; Filtering; Frequency conversion; Image converters; Low pass filters; Motion compensation; Signal processing algorithms; Streaming media; TV;
Journal_Title :
Consumer Electronics, IEEE Transactions on
