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1 Introduction
It is confirmed by several sources that the
growth in the Internet has been phenomenal.
This is counted both in volume of traffic and
number of connected users and hosts/sites. The
Internet together with the mobile services may
not see any cases of comparable growth rate in
the industrial countries. However, not to forget
that telephony networks are also intensively de-
ployed in several parts of the world. However,
the Internet Protocol (IP) is entering into both
mobile networks and voice networks. This is
for example observed by IP being the current
longer-term solution for the 3rd generation
mobile systems and work on finding suitable
configurations for providing telephony over IP.
It may therefore be claimed that IP works as a
common “glue” between the applications and the
underlying infrastructure, see Figure 1. Applica-
tions are the functions towards the end-user,
such as a human being. Infrastructure is the
underlying functions such as cabling.
However, it should be observed that much work
is being carried out to find efficient configura-
tions and mechanisms built around IP. This can
be referred to as IP++, including the portfolio of
functionality promoted, e.g. for routing, resource
handling, traffic control, multicast, and so forth.
Looking at several major operators one sees that
a consolidation of networks is strived for. A
portfolio of any larger operator includes PSTN/
ISDN, X.21 networks, X. 25 networks, ATM
network, Frame Relay networks, and others.
Arriving at fewer networks is considered a better
configuration, taking into account the economy
of scale and scope. However, it also raises sev-
eral challenges, preserving the mechanisms for
differentiating between traffic flows, e.g. accord-
ing to their characteristics, level of payments of
the customers.
Tuning IP++ to work as a common layer for a
range of applications is not a straightforward
task. Therefore, several projects related to multi-
service IP-based networks have been initiated.
In addition to the technical challenges, there are
also others for example in the area of business
modelling, regulatory, property rights, etc. The
latter are not considered to any extent in this
issue of Telektronikk, but should not go unno-
ticed.
Within certain limits, one may say that arriving
at more predictable services is one of the main
goals of the IP-related work. This is also
addressed by the IP++, and addressed in accom-
panying papers of this Telektronikkissue. Pre-
dictability is not to be understood in a restricted
Network Principles and Applications
TERJE JENSEN
Although the IP-based networks are said to have inherent features that differ from the “traditional”
telecommunication networks, there are quite a lot of similarities. This paper points out the similarities
by elaborating on generic capabilities being present in all wide area networks. However, the IP
“specifics” are also included. These are more directed on routing and the use of IP in relation with other
protocols and systems. In particular, relations with optics, mobility and multicasting are discussed. The
Web and support of the Virtual Private Network and telephony services are also described.
Figure 1 IP ++ as the common “glue” for carrying traffic flows from different applications
over different infrastructure types
Terje Jensen (39) is Research
Manager at Telenor R&D,
Kjeller. He earned his PhD
degree in 1995 from the Norwe-
gian University of Science and
Technology. Activities include
performance modelling and
analysis, dimensioning and net-
work evolution studies.
IP++
applications
infrastructure
traffic
engineering
MPLS
end-to-end
intserv
cost efficient constraint-based
traffic characterisation routing
difserv
SLA
Telektronikk 2/3.2001