基于非单调逻辑的动态完整性约束检查器的设计

Proceedings., Fourteenth Annual International Computer Software and Applications Conference Pub Date : 1990-10-31 DOI:10.1109/CMPSAC.1990.139342

S. Ramanna, J. Peters, E. A. Unger, K. W. Glander

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引用次数: 2

摘要

研究了一种具有非单调区间逻辑的动态完整性约束检查器的设计。该逻辑的核心是包含除非运算符，该运算符捕获动态完整性约束在时间间隔上的非单调性。IL嵌入在Ada/ISL间隔规范语言中，该语言已被用于伊卡洛斯完整性系统的设计。在这个系统中，查询的答案取决于关于查询中包含的数据项的完整性的显式知识体(知识库)的可用性。该系统的主要推理机制是基于部分信息和直觉，针对知识库中的事实，对有关数据的错误信念进行反驳。提出了一种验证伊卡洛斯内核的技术。关于数据的完整性、正确性和置信度完整性特征的一系列断言包含在完整性模型中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Designing a dynamic integrity constraint checker with nonmonotonic logic

The authors report on the design of a dynamic integrity constraint checker with a nonmonotonic interval logic (IL). Central to this logic is the inclusion of the unless operator which captures the nonmonotonicity of dynamic integrity constraints over temporal intervals. IL is embedded in the Ada/ISL Interval Specification Language which has been utilized in the design of the Icarus Integrity System. In this system, the answer to a query depends on the availability of an explicit body of knowledge (knowledge base) about the integrity of data items contained in the query. The principal inference mechanism in this system is the refutation of faulty beliefs about data based on partial information and intuition, with respect to facts in the knowledge base. A technique for the verification of the Icarus kernel is presented. A family of assertions about the completeness, correctness, and confidence integrity characteristics about data is included in the integrity model.<>

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Proceedings., Fourteenth Annual International Computer Software and Applications Conference

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