quire the minimum of energy charges

quire the minimum of energy charges.
5. Optimization of maintenance charges, which
considers the expenses of taking care of the
equipment and the expenses of hiring competent workers.
6. Service control from the beginning to the end,
or in other words, from the service source,
through the complete network until the fi nal
service user.
7. Maximum service fl exibility, i.e. complete adjustability to user’s requests. A simple service
choice which is handled by the user.
8. Th e Management, Provisioning and Billing
system which can support all of the requests of
the existing and future users.
9. Besides the PEST analysis it is necessary to research potential market from the aspect of interest with services, which are off ered through
the future available network. As a research
method, a survey and the analysis of received
results after data processing was suggested. Th e
survey is done over the complete area of the
future access network and has a goal to collect
data about future users and their needs for certain types of services. In order for the results of
the survey to show a real image of interest and
the needs of future users, rules were defi ned for
processing the survey.
INPUT PARAMETERS FOR DESIGN
While defi ning the input parameters for the design of the future telecommunication network it is
necessary to maximize performances with minimal
costs. Th e compromise solution should be made and
the set technological requirements should not be neglected. On the basis of these hypotheses the following groups of input parameters have been defi ned:
1. Network capacity,
2. Services,
3. Construction costs,
4. Costs of maintenance,
5. Expansion of infrastructure and service,
6. Possibility of transferring the excess capacity to
other operators.
Network capacity. While defi ning this parameter
and due to the lack of national strategy, it has been
used the recommendation provided by the European