H.323 Gatekeeper
Encyclopedia
An H.323 Gatekeeper serves the purpose of Call Admission Control
and translation services from E.164
IDs (commonly a phone number) to IP addresses in an H.323
telephony network. Gatekeepers can be combined with a gateway function to proxy H.323 calls and are sometimes referred to as Session Border Controllers. A gatekeeper can also deny access or limit the number of simultaneous connections to prevent network congestion
.
H.323 endpoints are not required to register with a gatekeeper to be able to place point to point calls, but they are essential for any serious H.323 network to control call prefix routing and link capacities among other functions.
A typical H323 Gatekeeper call flow for a successful call may look like:
| | | |
Endpoint A Endpoint B
1234 1123
The gatekeeper allows calls to be placed either:
Directly between endpoints (Direct Endpoint Model), or
Route the call signaling through itself (Gatekeeper Routed Model).
Call Admission Control
Call Admission Control prevents oversubscription of VoIP networks. It is used in the call set-up phase and applies to real-time media traffic as opposed to data traffic...
and translation services from E.164
E.164
E.164 is an ITU-T recommendation that defines the international public telecommunication numbering plan used in the PSTN and some other data networks. It also defines the format of telephone numbers. E.164 numbers can have a maximum of fifteen digits and are usually written with a + prefix...
IDs (commonly a phone number) to IP addresses in an H.323
H.323
H.323 is a recommendation from the ITU Telecommunication Standardization Sector that defines the protocols to provide audio-visual communication sessions on any packet network...
telephony network. Gatekeepers can be combined with a gateway function to proxy H.323 calls and are sometimes referred to as Session Border Controllers. A gatekeeper can also deny access or limit the number of simultaneous connections to prevent network congestion
Network congestion
In data networking and queueing theory, network congestion occurs when a link or node is carrying so much data that its quality of service deteriorates. Typical effects include queueing delay, packet loss or the blocking of new connections...
.
H.323 endpoints are not required to register with a gatekeeper to be able to place point to point calls, but they are essential for any serious H.323 network to control call prefix routing and link capacities among other functions.
A typical H323 Gatekeeper call flow for a successful call may look like:
| | | |
Endpoint A Endpoint B
1234 1123
- Endpoint A dials 1123 from the system.
- Endpoint A sends ARQ (Admission Request) to the Gatekeeper.
- Gatekeeper returns ACF (Admission Confirmation) with IP address of endpoint B.
- Endpoint A sends Q.931 call setup messages to endpoint B.
- Endpoint B sends the Gatekeeper an ARQ, asking if it can answer call.
- Gatekeeper returns an ACF with IP address of endpoint A.
- Endpoint B answers and sends Q.931 call setup messages to endpoint A.
- IRR sent to Gatekeeper from both endpoints.
- Either endpoint disconnects the call by sending a DRQ (Disconnect Request) to the Gatekeeper.
- Gatekeeper sends a DCF (Disconnect Confirmation) to both endpoints.
The gatekeeper allows calls to be placed either:
Directly between endpoints (Direct Endpoint Model), or
Route the call signaling through itself (Gatekeeper Routed Model).
See also
- GNU Gatekeeper (GnuGK)GNU GatekeeperThe GNU Gatekeeper is an open-sourced project that implements an H.323 gatekeeper based on the OpenH323 or H323Plus stack...
- Cisco IOSCisco IOSCisco IOS is the software used on the vast majority of Cisco Systems routers and current Cisco network switches...
release version 11.3(2)NA and 12.0(3)T - Cisco Multimedia Conference Manager (MCM)
- Emblaze-VCON Media Exchange Manager (MXM)
- TANDBERG Video Communication Server (VCS)