基于状态转换系统构建的规则型专家系统优化

Proceedings of the Tenth Conference on Artificial Intelligence for Applications Pub Date : 1994-03-01 DOI:10.1109/CAIA.1994.323658

B. Zupan, A. Cheng

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引用次数: 5

摘要

嵌入式基于规则的专家系统在应用于实时环境时必须满足严格的时间约束。提出了一种减少基于规则的专家系统响应时间的新方法。我们的优化方法是基于构造与基于输入规则的系统相对应的简化无循环有限状态转移系统。该方法利用了基于规则的系统分解、并发性和状态等价性。在导出的过渡系统的基础上合成了新的优化系统。与原始系统相比，合成系统(1)达到不动点的规则触发次数较少，(2)具有固有稳定性，(3)无冗余规则。综合方法还确定了新系统的较紧的响应时间范围。优化后的系统可以保证计算出正确的结果，而不受调度策略和执行环境的影响。

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Optimization of rule-based expert systems via state transition system construction

Embedded rule-based expert systems must satisfy stringent timing constraints when applied to real-time environments. This paper describes a novel approach to reduce the response time of rule-based expert systems. Our optimization method is based on a construction of the reduced cycle-free finite state transition system corresponding to the input rule-based system. The method makes use of rule-base system decomposition, concurrency and state equivalency. The new and optimized system is synthesized from the derived transition system. Compared with the original system, the synthesized system (1) has fewer rule firings to reach the fixed point, (2) is inherently stable and (3) has no redundant rules. The synthesis method also determines the tight response time bound of the new system. The optimized system is guaranteed to compute correct results, independent of the scheduling strategy and execution environment.<>

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Proceedings of the Tenth Conference on Artificial Intelligence for Applications

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