dT-Calculus: A Formal Method to Specify Distributed Mobile Real-Time IoT Systems

Internet of Things - Technology, Applications and Standardization Pub Date : 2018-08-01 DOI:10.5772/INTECHOPEN.75138

Sunghyeon Lee, Yeongbok Choe, Moonkun Lee

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引用次数: 1

Abstract

In general, process algebra can be the most suitable formal method to specify IoT systems due to the equivalent notion of processes as things. However there are some limitations for distributed mobile real-time IoT systems. For example, Timed pi-Calculus has capability of specifying time property, but is lack of direct specifying both execution time of action and mobility of process at the same time. And d-Calculus has capability of specifying mobility of process itself, but is lack of specifying various time properties of both action and process, such as, ready time, timeout, execution time, deadline, as well as priority and repetition. In order to overcome the limitations, this paper presents a process algebra, called, dT-Calculus, extended from d-Calculus, by providing with capability of specifying the set of time properties, as well as priority and repetition. Further the method is implemented as a tool, called SAVE, on ADOxx meta-modeling platform. It can be considered one of the most practical and innovative approaches to specify distributed mobile real-time IoT systems.

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dt微积分:一种指定分布式移动实时物联网系统的形式化方法

一般来说，过程代数可以是指定物联网系统的最合适的形式化方法，因为过程作为事物的等效概念。然而，分布式移动实时物联网系统存在一些限制。例如，Timed pi-Calculus具有指定时间属性的能力，但缺乏同时直接指定动作的执行时间和过程的可移动性。d-Calculus具有指定过程本身可移动性的能力，但缺乏指定动作和过程的各种时间属性，如准备时间、超时时间、执行时间、截止日期，以及优先级和重复。为了克服这一局限性，本文提出了一种过程代数，称为dT-Calculus，它是由d-Calculus扩展而来的，提供了指定时间属性集、优先级和重复的能力。此外，该方法在ADOxx元建模平台上作为一个名为SAVE的工具实现。它可以被认为是指定分布式移动实时物联网系统的最实用和最创新的方法之一。

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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Internet of Things - Technology, Applications and Standardization

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