FMO-based H.264 frame layer rate control for low bit rate video transmission.
Rhandley Domingo CajoteSupavadee AramvithYoshikazu MiyanagaPublished in: EURASIP J. Adv. Signal Process. (2011)
Keyphrases
- bit rate
- low bit rate
- rate control
- video transmission
- macroblock
- video quality
- bitstream
- inter frame
- error concealment
- rate distortion
- video coding
- video signals
- compressed video
- visual quality
- frame rate
- reference frame
- base layer
- video streaming
- motion vectors
- packet loss
- subband
- video codec
- error resilient
- image quality
- bit allocation
- coding method
- compression algorithm
- coding efficiency
- scalable video coding
- error propagation
- computational complexity
- peak signal to noise ratio
- video compression
- compressed domain
- error resilience
- temporal correlation
- motion compensated
- video frames
- motion compensation
- prediction error
- channel coding
- scalable video
- multiple description coding
- mode decision
- wyner ziv
- video coder
- high quality
- human visual system
- selection algorithm
- intra prediction
- coding scheme
- image processing
- rate distortion optimization