A model-driven approach with synchronous semantics for developing hard real-time WSNs

J. Ro, Z. Bhatti, P. Roop
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引用次数: 6

Abstract

We propose a model-driven approach for designing Wireless Sensor Network (WSN) applications, specifically for systems where hard real-time requirements must be satisfied. Traditionally, developing such systems presents difficulties in ensuring time and timing accuracy due to unpredictable computation time, ambiguities in program concurrency, and behavioural inconsistency between model and implementation. However, in contrast, the models in our approach are fully time-predictable by means of a logical time interval called a tick, while concurrency is automatically handled by the design semantics in a timing guaranteed manner. Meanwhile, the model-driven aspect of automatic code generation guarantees the behavioural consistency between model and implementation. We achieve our approach by using IEC 61499 function blocks and synchronous execution for syntax and semantics respectively. In this paper, we design a time-triggered protocol and a distributed motor synchronization as the network and application layers respectively. Then, we model the overall system for validation by performing composition of such layers. Furthermore, we explain how the logical time tick can be realized during the implementation in a way that the real-time requirement can be satisfied. Finally, the simulation and implementation results demonstrate the effectiveness of our approach.
一种具有同步语义的模型驱动方法,用于开发硬实时wsn
我们提出了一种模型驱动的方法来设计无线传感器网络(WSN)应用程序,特别是对于必须满足硬实时要求的系统。传统上,由于不可预测的计算时间、程序并发性的模糊性以及模型和实现之间的行为不一致,开发此类系统在确保时间和定时准确性方面存在困难。然而,与此相反,我们方法中的模型通过称为tick的逻辑时间间隔是完全可预测的,而并发性则由设计语义以定时保证的方式自动处理。同时,自动代码生成的模型驱动方面保证了模型和实现之间的行为一致性。我们分别使用IEC 61499函数块和同步执行语法和语义来实现我们的方法。在本文中,我们分别设计了一个时间触发协议和一个分布式电机同步作为网络层和应用层。然后,我们通过执行这些层的组合来对整个系统进行建模以进行验证。此外,我们解释了在实现过程中如何以满足实时需求的方式实现逻辑时间刻度。最后,仿真和实现结果验证了该方法的有效性。
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