Digital Video Communications (DMET xxx)
Offered By:
Information Engineering and Technology Faculty
Description
- Analog video and NTSC television
- Spatio-temporal sampling; Sampling structure conversion (without using motion)
- Motion Analysis
Real versus apparent motion
Spatial-temporal constraint methods (optical flow equation)
Block-matching methods
Mesh-based methods
Region-based (parametric) motion modeling
Motion segmentation and layered video representations
- Video Processing
Motion-compensated (MC) filtering
Noise reduction
Signal recovery and general inverse problems
Restoration (deblurring)
Superresolution, Mosaicing
Deinterlacing
Frame-rate conversion (MC-Interpolation)
- Video Watermarking
- Video Compression
Frame-based compression (principles behind MPEG-1/2)
Scalable or layered frame-based compression
Object-based compression (principles behind MPEG-4)
- Video communication
Video streaming and error-resilience
Efficient processing of compressed video
Digital TV
- deinterlacing
- video sampling structure conversion
- compression (frame-based and object-based methods).