Architecture-driven self-adaptation and self-management in robotics systems

2009 ICSE Workshop on Software Engineering for Adaptive and Self-Managing Systems Pub Date : 2009-05-18 DOI:10.1109/SEAMS.2009.5069083

George T. Edwards, Joshua Garcia, H. Tajalli, D. Popescu, N. Medvidović, G. Sukhatme, Brad Petrus

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引用次数: 78

Abstract

We describe an architecture-centric design and implementation approach for building self-adapting and self-managing robotics systems. The basis of our approach is the concept of meta-level components, which facilitate adaptation and management of application-level components. Our approach applies two key enhancements to the traditional usage of meta-level components: (1) we utilize three distinct, specialized meta-level components for the three fundamental activities of a robotics system: sensing, computation, and control, and (2) we allow meta-level components to themselves be monitored, managed and adapted by other (higher layer) meta-level components. In this way, our approach flexibly supports adaptive layered architectures of arbitrary depth, the specification of arbitrary system adaptation policies, and the provision of intelligent facilities for constructing adaptation plans on-the-fly. We showcase our approach using a team of autonomous mobile robots that engage in a leader-follower scenario and experience a wide variety of failures, activating distinct recovery mechanisms.

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机器人系统中架构驱动的自适应和自我管理

我们描述了一种以体系结构为中心的设计和实现方法，用于构建自适应和自管理机器人系统。我们的方法的基础是元级组件的概念，它促进了应用级组件的适应和管理。我们的方法对元级组件的传统用法进行了两个关键的改进:(1)我们利用三个不同的、专门的元级组件来完成机器人系统的三个基本活动:传感、计算和控制;(2)我们允许元级组件本身被其他(更高层的)元级组件监视、管理和调整。通过这种方式，我们的方法灵活地支持任意深度的自适应分层架构，任意系统适应策略的规范，以及为动态构建适应计划提供智能设施。我们使用一组自主移动机器人来展示我们的方法，这些机器人参与了领导者-追随者的场景，并经历了各种各样的故障，激活了不同的恢复机制。

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来源期刊

2009 ICSE Workshop on Software Engineering for Adaptive and Self-Managing Systems

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