|
|
|
|
| Follow Up Courses |
| |
Understanding
MultiService Access and SIP
This document describes a two-day workshop on Multiservice access
using PPPoE/PPPoA/VLANs and SIP. The next generation of
telecommunications networks will be deployed using VoIP technology
and soft switching replacing circuit switching and ISDN signalling.
By deploying communications as multimedia streams over IP it is
possible to extend the services from simple voice to improved voice
quality, better bandwidth utilization and expanded services into
video and television carried over the same technology. |
| |
Understanding
MultiService Access and H.248
This two-day instensive course examines Multiservice access using
PPPoE/PPPoA/VLANs and H.248 (MEGACO). The next generation of
telecommunications networks will be deployed using VoIP technology
and soft switching replacing circuit switching and ISDN signalling.
By deploying communications as multimedia streams over IP it is
possible to extend the services from simple voice to improved voice
quality, better bandwidth utilization and expanded services into
video and television carried over the same technology. Already cost
effective VoIP services have been deployed using H.323 and SIP over
Intranet infrastructures. However to integrate this with existing
ISDN and SS7 architectures and eventually to replace local exchanges
and transit exchanges in carrier networks requires large scale
signalling and switching changes. |
| |
Gigabit Ethernet
for Telecommunications Service Networks
The next generation of telecommunications networks will deliver
broadband data and multimedia services to users. The Ethernet
interface is becoming the interface of preference for user
computers, IP Phones, Digital IP Television and network servers
within the network itself. The interface has evolved since 1980 from
a simple LAN interface for sharing 10 Mbit/s, though 100 Mbit/s
switched LAN interface and to an interface that can also support
access lines and transmission tunks at speed from 2 Mbit/s up to 10
Gbit/s. It is inevitable therefore that next generation networks
will evolve towards using Gigabit Ethernet for access, trunk and
infrastructure connections. |
| |
Multi-Protocol
Label Switching in 21st Century Telecommunications Networks
This course provides an understanding of how MPLS works, its
advantages and limitations and how it can be deployed to provide
effective services over a 21st Century converged network. It will
provide a detailed understanding for implementers, designers,
managers and infrastructure engineers that need to plan, implement
and use the new generation of networks and services. |
| |
Transport of
Next-Generation Data Services over SDH
Next generation networks will be deployed with high speed, high
quality broadband DSL access capable of using flexible coding
techniques. Multi-Service Access Nodes will carry services to
Intelligent Nodes closer to the core where services will be located
and then on to the network core using MPLS. The access is likely
eventually to evolve into an all Ethernet service and the range of
services carriers must deliver will need to be carried over existing
SDH services. This course aims to provide an understanding of how
these new services can be carried over SDH and how SDH is being
enhanced to provide new capabilities to deliver the services in a
flexible efficient manner. |
| |
|
Request Quote/Contact |
| |
