MPEG Digital VideoCoding Standards - PowerPoint PPT Presentation

1 / 15
About This Presentation
Title:

MPEG Digital VideoCoding Standards

Description:

Coded Representation of Moving Pictures, Audio. Targeted Bit Rate of 1.5Mbits/s ... Free selection of picture size, frame rate and others. Constraints. Decoder ... – PowerPoint PPT presentation

Number of Views:28
Avg rating:3.0/5.0
Slides: 16
Provided by: computerai
Category:

less

Transcript and Presenter's Notes

Title: MPEG Digital VideoCoding Standards


1
MPEG Digital Video-Coding Standards
by Alberto Rodriguez
2
Outline
  • Motivation and history for MPEG
  • Basic review of concepts and techniques (MPEG)
  • MPEG Video Compression
  • Basic Elements of MPEG-2,4

3
Development of MPEG Standards
  • MPEG - Moving Picture Experts Group
  • Motivation
  • VLSI technology advances.
  • History
  • 1980s - CCITT, CCIR, ISO/IEC (Standardization
    activities)
  • 1988 - MPEG
  • Coded Representation of Moving
    Pictures, Audio.
  • Targeted Bit Rate of 1.5Mbits/s
  • 1992 - MPEG-1 was finally released.
  • 1994 - MPEG-2 Video Quality.
  • Quality between NTSC/PAL and CCIR 601.
  • Targeted Bit Rate 2-10Mbits/s
  • 1998 - MPEG-4

4
Development of MPEG Standards
  • Success
  • Generic Structure and flexibility
  • Flexible Picture Size and Frame Rate
  • Standard
  • Decoder
  • Bit Stream formats
  • MPEG-4
  • Low Rates - 5-64 Kbits/s (Mobile/ PSTN)
  • High Rates target 4Mbits/s (TV)
  • Universal Accessibility and Robustness
  • High Interactive Functionality
  • Coding of Natural and synthetic data
  • High Compression Efficiency

5
Fundamentals of MPEG
  • Redundancy
  • Statistical
  • Subjective
  • Vision
  • VLSI technology foreseen for the lifecycle of
    the standard
  • Lossless vs. Lossy
  • Lossless - Maintain a video quality.
  • Lossy - Meet a target bit rate subject to and
    optimization criterion.

6
The MPEG Video-Coder Source Model
  • Nature
  • Statistical
  • Redundancies in Space and Time
  • Correlation between pixels in time and/or space
  • DCT (8x8) blocks to explore correlation
  • Intraframe Correlation
  • DPCM (Differential Pulse Code Modulation)
  • Hybrid Combination (DPCM/DCT)

7
Subsampling and Interpolation
  • Temporal Subsampling

time
  • Spacial Subsampling

8
Motion Compensated Prediction
  • Temporal Redundancies (MPEG-1 and MPEG-2)
  • Prediction Error and Motion Vector
  • Motion Estimation (Not pel by pel but in blocks).
  • High Spatial Correlation between pels.
  • Better than intraframe reductions.

9
Transform Domain Coding
  • Compression Method.
  • De-correlate the intra- and inter- frame.
  • Encode transformed coefficients
  • c AbAt (Unitary Linear Transformation)
  • Why DCT
  • High decorrelation and fast DCT algorithms
    available
  • Objectives of TDC
  • Make coefficients ( c ) as small as possible.
  • Reduce dependencies between coefficients
  • MPEG DPCM/DCT Hybrid

10
The MPEG-1 Standard
  • CD/ROM interactive systems.
    Video over telecomm. Networks
  • Flexibility
  • Free selection of picture size, frame rate and
    others.
  • Constraints
  • Decoder
  • Support Video Source Parameter up to TV size.
  • Minimum 720 pels/line.
  • Minimum 576 lines.
  • Frame Rate of 30 frames/s.
  • Minimum Bit rate of 1.86 Mbits/s.
  • Non Interlaced Video Format
  • JPEG, H.261
  • Commonality with CCITT H.261
  • Additional Capabilities
  • Frame based Random Access.
  • FF/FR Searcher , Reverse Playback
  • Editability of compressed bit rates

11
MPEG-1 Coding Scheme
  • Hybrid DPCM/DCT
  • Intraframe and Interframe coding techniques.
  • Compression
  • Macroblock Structures (MB)
  • Motion Compensation
  • Conditional Replenishment
  • Possibility to update macroblock information
    (decoder)
  • only if needed.
  • Skipped MB
  • Inter MB
  • Intra MB
  • Rate Control
  • Quantization Step Size is variable.
  • Rate control algorithm is not part of the
    standard.

12
Specific Storage Media Functionalities
  • Random Access
  • FF/FR (Frame Forward and Frame Reverse)
  • Concept of B Pictures
  • I - Random Access, FF, FR. Trade off - Low
    compression
  • P- Generated form other frame ( I or P)
  • B- Interpolation
  • Optional transmission
  • I I I I I I I I
  • I P P P . P I P P P P
  • I B B P B B PB B P I

13
MPEG-2 Standard
  • Added functionality and quality to support
    prediction of
  • of interlaced coding.
  • Scalable Video.
  • Profiles and Levels
  • Good for equipments that cannot support the full
    implementation
  • Profiles
  • Define a new set of algorithms
  • Levels
  • Range of parameters

14
MPEG-2 Non/Scalable Modes
  • NON-Scalable
  • MAIN - Obvious extension of MPEG-1.
  • Field/ Frame Prediction
  • Better Chrominance Representation
  • MPEG-1 411 MPEG-2 422
  • Scalable
  • Interoperability - Flexibility of supporting
    receivers with
  • different display capabilities.
  • Ex. HDTV/ SDTV
  • Scalable Profiles
  • SNR
  • Allows two layers of scalability / DCT.
  • Spatial
  • Allows two layers. (Pyramidal Approach for
    Progressive Video)

15
MPEG-4
  • Universal accessibility and robustness in error
    prone environments.
  • High interactive functionalities.
  • Coding of natural and synthetic data.
  • Compression Efficiency.
  • Content Based Interactivity
  • Some MPEG-4 Standards
  • Low bit transmission ( 5-64 Kbits/s)
  • ( 64 Kbits/s - 4 Mbits/s)
  • Video Object Planes
  • Introduces a very high degree of flexibility.
  • Sprite Coding Technology
  • Efficient transmission of background scenes
    where the changes with in
  • the background is created by camera movements.
Write a Comment
User Comments (0)
About PowerShow.com