Feature interaction: a critical review and considered forecast
Computer Networks: The International Journal of Computer and Telecommunications Networking
Java APIs for integrated networks
Java in telecommunications
Data to the People - It's a Matter of Control
IDMS '01 Proceedings of the 8th International Workshop on Interactive Distributed Multimedia Systems
Ubiquitous information services with JAIN platform
Mobile Networks and Applications - Mobile networking through IP
Enabling distributed QoS management utilizing active network technology
Network control and engineering for Qos, security and mobility II
Middleware for high-performance multimedia services
M3W Proceedings of the 2001 international workshop on Multimedia middleware
A conceptual model of service customization and its implementation
Journal of Computer Science and Technology
Managing service level agreements in premium IP networks: a business-oriented approach
Computer Networks: The International Journal of Computer and Telecommunications Networking
Test generation for interaction detection in feature-rich communication systems
Computer Networks: The International Journal of Computer and Telecommunications Networking
An advanced service provision framework for reconfigurable mobile networks
International Journal of Mobile Communications
Test generation for interaction detection in feature-rich communication systems
TestCom'05 Proceedings of the 17th IFIP TC6/WG 6.1 international conference on Testing of Communicating Systems
Current status and future directions of software architectures for telecommunications
Computer Communications
Continuous media support in the distributed component object model
Computer Communications
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JAINTM, a set of integrated network APIs for the Java TM platform, provides a framework to build and integrate solutions (or “services”) that span across packet (e.g., IP or ATM), wireless, and PSTN networks. The objective of JAIN is to provide service portability, convergence, and secure access (by services residing outside of the network) to such integrated networks. JAIN is defined and specified by a large number of participating communication companies (the JAIN Community), and according to a well-documented process (the Java Community Process or JCP). The objective of the JAIN Community is to create an open market for services across integrated networks using Java technology. The authors provide the JAIN business case. They then summarize how the JAIN Community works, and introduce how the JAIN Community is organized. They also explain how separate JAIN work items fit together. In particular, they provide the rationale for the currently supported levels of abstraction (in terms of session/call signaling models) in JAIN, and look at possible implementation scenarios