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(Continuation of Question 24/16)
Background and justification
ITU has noted a rapid increase in the use of IP for data and a growing
commercial interest in deploying voice over IP as an application. In addition,
the worldwide usage of wireless communication systems is rapidly increasing,
which includes the possibility of deploying certain IMT-2000 networks as
IP-oriented systems. IP traffic is evolving to become the dominant global
communication system with both wired and wireless access. The transport of IP
voice traffic within and between wired and wireless networks is of special
interest.
A key issue therefore is the design of new voice coding technology that can
best exploit the properties of these networks to provide efficient use of
bandwidth and minimize the need for transcoding. As traditional circuit-switched
networks will stay with us for a long time, easy transcoding with them is also
an important design aspect.
Hence, new work is proposed to examine the applications, technical issues of
IP and wireless networks, and investigate the design of a suitable variable bit
rate voice coder.
Examples of bearer networks for VoIP carriage which have been identified as
benefiting from a variable bit rate voice coder are:
- Ethernet Networks.
- ATM Systems.
- Third Generation Wireless Systems, including CDMA and TDMA.
Additionally, multimedia applications may benefit from a variable bit rate
voice coder.
For the activities of this question, the term variable bit rate (VBR) has
been defined as follows. A VBR encoder outputs a bit stream which may have a
variable number of bits in successive frames. That is, each frame may contain a
different number of bits relative to the last frame. Bit rate may vary, for
example, in large predefined increments/decrements or it may vary by as little
as one bit resolution. The variability in bit rate may be either network
controlled or source controlled according to the input audio signal.
Study items
What algorithm should be specified for the coding of voice/audio, with
specific attention being paid to the applications, and the consequent
constraints imposed jointly by the network and application.
Items for study include:
1) Study and definition of applications and performance for variable bit
rate voice coding.
2) Consideration of network requirements and constraints.
3) Definition of performance requirements and system constraints.
4) Definition of the test conditions and evaluation procedures to be
applied in selecting between candidate algorithms on the basis of subjective
performance, as specified by SG 12, and non-voice performance.
5) Study of encoding techniques and evaluation of the possibility of
selecting a single type of VBR technique capable of operating at different
transmission rates with an associated improvement in speech quality as the
transmission rate is increased.
6) Selection and specification of procedures to be used in verifying the
implementation of selected algorithms.
7) Study of the support of text-telephone (TDD) devices in systems using
variable rate coding of speed.
While studying these work items, specific efforts will be put on the key
issues of reducing cost and complexity, minimizing transcoding, interworking
with other systems, and quality of service.
Specific tasks and deadlines
- Definition of performance requirements and objectives: February 2000.
- Approval (Decision) of the Recommendation: November 2001.
Relationships
- Other relevant Questions of SG 16.
- ITU-T SG 2 to identify other potential user applications.
- ITU-T SG 11.
- ITU-T SG 12 for the performance evaluation of specified algorithms with
respect to voice quality.
- ITU-T SG 13.
- ITU-T SG 15.
- ITU-R SG 8 to ensure compatibility with mobile transmission system
constraints.
- ISO/MPEG.
- ETSI (Tiphon).
- TIA.
- IETF.
- ATM Forum.
- 3GPP, 3GPP-2.
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