Lesson
13: Voice Technology Basics
Convergence
of Voice and Data | Voice
Technology Basics | Voice
over Data Transports | Applications
|
Sample Migration
Voice over IP Components
The Voice over IP standard incorporates other
components, including:
- G. standards, which specify analog-to-digital
conversion and compression (as described earlier in this chapter).
- H.323 standard, which specifies call
setup and interoperability between devices and applications.
- Realtime Transport Protocol (RTP),
which manages end-to-end connections to minimize the effect
of packets lost or delayed in
transit on the network.
- Internet Protocol or IP, which is
responsible for routing packets on the network.
ITU-T H.323 Standard
ITU-T H.323 is a standard approved by the
ITU-T that defines how audiovisual conferencing data is transmitted
across networks.
H.323 provides a foundation for audio, video, and data communications
across IP networks, including the Internet.
H.323-compliant multimedia products and applications can interoperate,
allowing users to communicate without concern for compatibility.
H.323 provides important building blocks for a broad new range
of collaborative, LAN-based applications for multimedia communications.
H.323 sets multimedia standards for the existing infrastructure
(for example, IP-based networks). Designed to compensate for
the effect of highly variable LAN latency, H.323 allows customers
to use multimedia applications without changing their network
infrastructure.
By providing device-to-device, application-to-application,
and vendor-to-vendor interoperability, H.323 allows customer’s
products to interoperate with other H.323-compliant products.
PCs are becoming more powerful multimedia platforms due to
faster processors, enhanced instruction sets, and powerful
multimedia accelerator chips.
Applications enabled by the H.323 standard
include the following:
- Internet phones
- Desktop conferencing
- Multimedia Web sites
- Internet commerce
- And many others
H.323 Infrastructure
The H.323 standard specifies four kinds of
components, which when networked together, provide the point-to-point
and point-to-multipoint multimedia communication services:
terminals, gateways, gatekeepers, multipoint control units
(MCUs).
H.323 terminals are used for real-time bidirectional multimedia
communications. An H.323 terminal can either be a PC or a
standalone device running an H.323 and the multimedia applications.
It supports audio communications and can optionally support
video or data communications.
An H.323 gateway provides connectivity between an H.323 network
and a non-H.323 network. For example, a gateway can connect
and provide communication between an H.323 terminal and the
Public Switched Telephone Network (PSTN). This connectivity
of dissimilar networks is achieved by translating protocols
for call setup and release, converting media formats between
different networks, and transferring information between the
networks connected by the gateway. A gateway is not required,
however, for communication between two terminals on an H.323
network.
A gatekeeper can be considered the “brain” of
the H.323 network. Although they are not required, gatekeepers
provide important services such as addressing, authorization,
and authentication of terminals and gateways, bandwidth management,
accounting, billing, and charging. Gatekeepers may also provide
call-routing services.
MCUs provide support for conferences of three or more H.323
terminals. All terminals participating in the conference establish
a connection with the MCU. The MCU manages conference resources,
negotiates between terminals for the purpose of determining
the audio or video CODEC to use, and may handle the media
stream. The gatekeepers, gateways, and MCUs are logically
separate components of the H.323 standard, but can be implemented
as a single physical device.
H.323 Gatekeeper Functionality
Gatekeepers provide call control services
to network endpoints. A gatekeeper can provide the following
services:
Address translation—Performs
alias address to transport address translation. Gatekeepers
typically use a translation table to perform the address translation.
Admissions control—Authorizes
LAN access based on call authorization, bandwidth, or other
criteria.
Call control signaling—The
gatekeeper chooses to complete call signaling with endpoints
or may process the call signaling itself. Alternatively, the
gatekeeper may instruct endpoints to connect call signaling
channel directly to another to bypass handling a signal channel.
Call authorization—A gatekeeper
may reject calls from a terminal upon authorization failure.
Bandwidth management—Controls
the number of terminals that are permitted simultaneous access
to a LAN.
Call management—Maintains
a list of active calls.
<<Back
[1] [2]
[3]
[4] [5]
[6] [7]
[8] [9]
[10]
[11]
[12]
[13]
[14]
[15]
[16]
[17]
Next>>
|
