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6. LESSONS AND RESEARCH ISSUESDeveloping an expert system for telecommunications domains typically involves the following stages and each of them has a certain focus:
During more than a decade of developing expert systems for telecommunications domains, some valuable lessons on using AI techniques have been learned. First, an AI module is often embedded in a large system. It is the core component of the system, but is not everything. Typical telecommunications systems often require database accesses and good graphical user interface. Resource is needed to build these basic modules. Their roles are equivalent important. Second, there are many existing (or legacy) systems that a telecommunications company heavily depends on; an expert system often cannot operate alone. It must talk to these systems. In many situations, one must recognize the fact that an expert system is just a front or rear end of an existing system. Understanding these systems is necessary. Third, not every expert system needs to use the most advanced AI techniques. Simple AI techniques are often sufficient in practice. This reduces the complexity of an expert system. Fourth, expert systems are not a solution for all problems. An expert system approach is needed when it offers the best value among all other alternatives for a specific task. Fifth, to the end-users, an expert system should appear as a useful tool to increase their productivity rather than as a threat to their job security. Expert systems and human operators can often complement each other in terms of their capabilities. Finally, expert systems often need to communicate with each other (within a management layer or across management layers) or with other systems. A common platform and message interface for expert systems is essential for distributed application and system maintenance. Today's telecommunications domains need AI techniques more than ever. They present a realistic but challenging testbed for AI techniques moving toward real-time, distributed, reliable, and adaptive. For example, no existing alarm correlation system has the capability to correlate switching alarms, transmission alarms, Signaling System Number 7 alarms, and customer access facility alarms at the same time. The problem could be that there are just too many alarms to correlate in one central deposit. However, if one can limit and customize each monitoring agent to a focused area of problems, it becomes manageable. This requires distributed, personalized monitoring agents. As another example, telecommunications fraud becomes a major issue in both wireline communication due to wire-tapping or unauthorized use and wireless communication due to customer ID cloning. Detecting fraudulent usage patterns is a nontrivial task because of the vast quantity of data that varies with time and location. This requires real-time data-mining techniques and both short- and long-term trending analyses. The Internet presents a new opportunity and also poses a threat for the telecommunications industry. It could redefine telecommunications companies as only sellers of big pipes if they do not get into Internet connection and content services. The Internet offers the platform for electronic commerce, voice/data/audio/video communication, and even personal communication by shared virtual reality. Internet content applications include search tools, analysis tools, and personal-filtering tools. For example, GTE provides national electronic yellow pages (http://superpages.gte.net). These tools need AI technology to make them smart, efficient, and adaptive. Telecommunications tasks are often mission-critical. So far, there is little research on the reliability of AI techniques. When one copy of an expert system dies, how can another copy residing on a different machine recover the inference process and start from a clean state? Some Distributed AI techniques can be useful, but they have not been tried in practice. These are some of the critical tasks that need to be addressed now.
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