Abstract
The provision of "free tone" or "toll-free" services, for example, is also available on fixed networks through the use of intelligent network (IN) techniques that are peculiar to mobile networks. They will, on the other hand, welcome the ability of an IN architecture (INA) to give tailored services to mobile customers to help them better manage incoming calls. Additionally, the use of IN methods makes it feasible to develop a diverse range of new services. Second-generation cellular systems, like Global System for Mobile Communications (GSM), have architectures that are already capable of supporting IN-type applications. The HLR function, in particular, has a close relationship with the In-Service Control Point (ISP). Mobile customers and service providers will both receive the benefits of technology advancements shortly, which will benefit both parties equally. With the advancement of telecommunication technology and the increasing need for increasingly sophisticated services, attempts to standardize International Intelligent Networks have sprung up to address these issues (IN). Because IN are denigrated by the INs standards, service providers must make their own implementation decisions. These opponents also object to a design that is flexible enough to allow for future expansion to include other IN capability sets (CSs). International IN services provided by standardization organizations such as CCITT/ ITU-T and European Telecommunications Standards Institute (ETSI) enable service providers to implement them INA by providing international IN services. When deploying an intelligent network, the global intelligent network architecture (GINA) should be the starting point, not the endpoint (IN).
Published Version
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