Configuring H.323 Gatekeepers and Proxies

H.323 Gatekeeper Configuration Examples

Configuring a Closed Co-Edge Proxy with ASR Without Subnetting Example

Figure 67 illustrates how to configure RIP on the edge networks and IGRP on the two backbone networks. A Cisco 2500 router is used for the proxy.

Figure 67 Configuring a Closed Co-Edge Proxy with ASR

L0: 101.0.0.1

 

S1: 172.22.0.1

Multimedia

PX1

backbone

E0: 172.20.0.1

 

EP1

E0: 172.20.0.3

Edge net 1

GK1

E0: 172.20.0.2

R1

E1: 172.21.0.1

Data backbone

 

11394

PX1 Configuration

The following output is for the PX1 configuration:

!

version 11.3

no service password-encryption service tcp-small-servers

!

hostname ExampleProxy

!

!

no ip domain-lookup

!

!

proxy h323

!

interface Loopback0

ip address 10.0.0.1 255.0.0.0 h323 interface

h323 qos ip-precedence 4

h323 h323-id px1@zone1.com

h323 gatekeeper ipaddr 172.20.0.3

!

interface Ethernet0

ip address 172.20.0.1 255.255.255.192 no ip redirects

!

interface Serial0 no ip address shutdown

!

interface Serial1

ip address 172.22.0.1 255.255.0.0 ip access-group 101 in

ip access-group 101 out h323 asr

!

router rip

Cisco IOS Voice, Video, and Fax Configuration Guide

VC-359

Page 71
Image 71
Cisco Systems VC-289 manual VC-359, Configuring a Closed Co-Edge Proxy with ASR

VC-289 specifications

Cisco Systems has long been a leader in networking technology, and among its diverse range of products is the VC-289. Designed specifically for enhanced performance in high-demand environments, the VC-289 serves a critical role in supporting the modern networking infrastructure.

One of the standout features of the VC-289 is its scalability. The device is engineered to easily accommodate expanded workloads, ensuring that organizations can grow without the need for frequent upgrades. This scalability is complemented by Cisco's commitment to backward compatibility, allowing businesses to integrate new systems with existing setups seamlessly.

In terms of performance, the VC-289 boasts impressive processing power. With advanced multi-core architecture, it is capable of handling multiple data streams simultaneously, making it ideal for environments that require consistent data flow, such as cloud computing and IoT applications. The device’s high throughput ensures that users experience minimal latency, facilitating quick data transfers even during peak usage times.

Security is another key characteristic of the VC-289. Cisco has integrated robust security protocols that protect against various cyber threats. Through features such as advanced encryption standards and intrusion prevention systems, organizations can ensure that sensitive data remains secure and is not compromised during transmission.

Another notable technology within the VC-289 is its support for software-defined networking (SDN) capabilities. This allows for more flexible network management, enabling IT teams to adapt the network according to evolving business needs. The ability to programmatically control the network also means that businesses can implement changes more rapidly, reducing downtime and improving overall productivity.

The VC-289 is designed with energy efficiency in mind, featuring power-saving modes that help reduce operational costs. This focus on sustainability not only benefits the environment but also appeals to organizations striving to meet corporate social responsibility objectives.

In conclusion, the Cisco Systems VC-289 stands as an exemplary solution for modern networking challenges. With its scalability, performance capabilities, enhanced security features, SDN support, and energy efficiency, it meets the demands of today's fast-paced and ever-evolving technological landscape. Organizations looking to invest in a robust networking solution would do well to consider the VC-289 as a cornerstone of their infrastructure.