基于多重环境演算的货运管理系统实验

2015 Second International Conference on Mathematics and Computers in Sciences and in Industry (MCSI) Pub Date : 2015-08-17 DOI:10.1109/MCSI.2015.32

Toru Kato, A. Miyai, M. Higuchi

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引用次数: 1

摘要

我们正在开发一个货运管理系统，以确认运输过程中集装箱处理的正确性。该系统通过将超高频RFID标签感知的集装箱搬运情况与写在MAC (Multiple Ambient Calculus)中的正式模型(公式)进行比较，来确定其正确性。MAC是一种从环境演算(Ambient Calculus, AC)扩展而来的形式化描述语言，用于表达具有动态变化的嵌套结构的货运系统。使用MAC时，整个货运系统由一组公式来建模，每个公式表示每个集装箱的处理，而使用AC时，货运系统由一个大公式来建模。由于MAC的这一特性，我们可以更恰当地表达货运系统的对称性和并发性，并且比使用AC更容易添加或删除公式(表示一次航行中添加或取消集装箱)。本文给出了货运管理系统的实现和几个实验的结果。

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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Experiment of a Freight Management System with the Multiple Ambient Calculus

We are developing a freight management system that confirms the correctness of container handling during shipping. The system determines the correctness by comparing container handling, which is sensed by UHF RFID tags, with formal models (formulae) written in the Multiple Ambient Calculus(MAC). MAC is a formal description language extended from the Ambient Calculus(AC) in order to express freight systems with nested structures that dynamically change. Using MAC, whole the freight system is modeled by a set of formulae each of which represents the handling of each container while, using AC, the freight systems are modeled by a large formula. Thanks to this feature of MAC, we can express symmetric and concurrent property of freight systems more appropriately and adding or retracting formulae (representing adding or canceling containers for a voyage) becomes easier than using AC. This paper shows the implementation of the freight management system and the results of several experiments.

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2015 Second International Conference on Mathematics and Computers in Sciences and in Industry (MCSI)

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