Dynamic Reconfiguration in the RUNES Middleware

2006 IEEE International Conference on Mobile Ad Hoc and Sensor Systems Pub Date : 2006-10-09 DOI:10.1109/MOBHOC.2006.278613

G. Coulson, R. Gold, M. Lad, C. Mascolo, L. Mottola, G. Picco, S. Zachariadis

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引用次数: 12

Abstract

Next generation embedded systems will be composed of large numbers of heterogeneous devices. These will typically be resource-constrained, will use different operating systems, and will be connected through different types of network interfaces. Additionally, they may be mobile and/or form ad-hoc networks with their peers, and will need to be adaptive to changing conditions based on context-awareness. As an example of these system we consider disaster recovery scenarios where large numbers of different devices need to interconnect in an ad-hoc manner. In this respect, our goal is the provisioning of a middleware framework for such system environments. Our approach is based on a small and efficient middleware kernel supporting highly modularised and customisable component-based middleware services. These services can be tailored for specific embedded environments, and are runtime-reconfigurable to support adaptivity. This paper describes a demonstration that highlights some of the features available in our middleware. In particular, we focus on heterogeneity handling by showing our middleware running on resource-rich as well as resource-constrained devices, and on adaptivity features by demonstrating runtime reprogramming and on-the-fly component deployment

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RUNES中间件中的动态重新配置

下一代嵌入式系统将由大量异构设备组成。它们通常是资源受限的，将使用不同的操作系统，并且将通过不同类型的网络接口连接。此外，他们可能是移动的和/或与他们的同伴形成自组织网络，并且需要根据上下文感知来适应不断变化的条件。作为这些系统的一个示例，我们考虑灾难恢复场景，其中大量不同的设备需要以特别的方式互连。在这方面，我们的目标是为这样的系统环境提供一个中间件框架。我们的方法基于一个小而高效的中间件内核，支持高度模块化和可定制的基于组件的中间件服务。这些服务可以针对特定的嵌入式环境进行定制，并且可以在运行时重新配置以支持自适应性。本文描述了一个演示，突出了我们的中间件中可用的一些特性。特别是，我们通过展示在资源丰富和资源受限的设备上运行的中间件来关注异构处理，并通过展示运行时重编程和动态组件部署来关注自适应特性

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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2006 IEEE International Conference on Mobile Ad Hoc and Sensor Systems

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