1 research outputs found
A pricing proposal for a QoS enabled UMTS network
ArticleThird generation networks e.g. the Universal
Mobile Telecommunications System (UMTS) provide higher data
transfer rates which enables the transport of real-time
multimedia traffic e.g. streaming video. The cost of Internet
access over mobile networks remains high yet user demand for
mobile services is increasing rapidly. In order for mobile
computing to become viable, the deployment of charging schemes
that would see the cost of communication reflect the utilization of
resources on the network is necessary. A dynamic charging
scheme is an attractive solution. When prices change, users need
to indicate their willingness to continue using the service
especially when a price increase is beyond the level they
anticipated. In this paper we propose a charging scheme that
relies on the congestion at the RNC of the UMTS to calculate
pricing coefficients, which are in turn used in determining the
charge incurred for using the network. The use of user profiles
and network agents in the management of the charging scheme is
also explored.Third generation networks e.g. the Universal
Mobile Telecommunications System (UMTS) provide higher data
transfer rates which enables the transport of real-time
multimedia traffic e.g. streaming video. The cost of Internet
access over mobile networks remains high yet user demand for
mobile services is increasing rapidly. In order for mobile
computing to become viable, the deployment of charging schemes
that would see the cost of communication reflect the utilization of
resources on the network is necessary. A dynamic charging
scheme is an attractive solution. When prices change, users need
to indicate their willingness to continue using the service
especially when a price increase is beyond the level they
anticipated. In this paper we propose a charging scheme that
relies on the congestion at the RNC of the UMTS to calculate
pricing coefficients, which are in turn used in determining the
charge incurred for using the network. The use of user profiles
and network agents in the management of the charging scheme is
also explored