A Rapid Testing Framework for a Mobile Cloud

2014 25nd IEEE International Symposium on Rapid System Prototyping Pub Date : 2014-12-01 DOI:10.1109/RSP.2014.6966903

D. Balasubramanian, A. Dubey, W. Otte, W. Emfinger, P. Kumar, G. Karsai

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引用次数: 13

Abstract

Mobile clouds such as network-connected vehicles and satellite clusters are an emerging class of systems that are extensions to traditional real-time embedded systems: they provide long-term mission platforms made up of dynamic clusters of heterogeneous hardware nodes communicating over ad hoc wireless networks. Besides the inherent complexities entailed by a distributed architecture, developing software and testing these systems is difficult due to a number of other reasons, including the mobile nature of such systems, which can require a model of the physical dynamics of the system for accurate simulation and testing. This paper describes a rapid development and testing framework for a distributed satellite system. Our solutions include a modeling language for configuring and specifying an application's interaction with the middleware layer, a physics simulator integrated with hardware in the loop to provide the system's physical dynamics and the integration of a network traffic tool to dynamically vary the network bandwidth based on the physical dynamics.

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移动云的快速测试框架

移动云，如联网车辆和卫星集群，是传统实时嵌入式系统的一种新兴系统:它们提供由异构硬件节点的动态集群组成的长期任务平台，这些节点通过自组织无线网络进行通信。除了分布式架构所固有的复杂性之外，由于许多其他原因，包括此类系统的移动性质，开发软件和测试这些系统是困难的，这可能需要系统的物理动力学模型进行准确的模拟和测试。本文介绍了一种分布式卫星系统的快速开发与测试框架。我们的解决方案包括一种建模语言，用于配置和指定应用程序与中间件层的交互;一个物理模拟器，与硬件集成在环路中，提供系统的物理动态;一个网络流量工具的集成，基于物理动态动态地改变网络带宽。

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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2014 25nd IEEE International Symposium on Rapid System Prototyping

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