Computational self-awareness as design approach for visual sensor nodes

2017 12th International Symposium on Reconfigurable Communication-centric Systems-on-Chip (ReCoSoC) Pub Date : 2017-07-01 DOI:10.1109/ReCoSoC.2017.8016147

Zakarya Guettatfi, Philipp Hübner, M. Platzner, B. Rinner

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引用次数: 8

Abstract

Visual sensor networks (VSNs) represent distributed embedded systems with tight constraints on sensing, processing, memory, communications and power consumption. VSNs are expected to scale up in the number of nodes, be required to offer more complex functionality, a higher degree of flexibility and increased autonomy. The engineering of such VSNs capable of (self-)adapting on the application and platform levels poses a formidable challenge. In this paper, we introduce a novel design approach for visual sensor nodes which is founded on computational self-awareness. Computational self-awareness maintains knowledge about the system's state and environment with models and then uses this knowledge to reason about and adapt behaviours. We discuss the concept of computational self-awareness and present our novel design approach that is centred on a reference architecture for individual VSN nodes, but can be naturally extended to networks. We present the VSN node implementation with its platform architecture and resource adaptivity and report on preliminary implementation results of a Zynq-based VSN node prototype.

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基于计算自我意识的视觉传感器节点设计方法

视觉传感器网络(VSNs)是一种在传感、处理、存储、通信和功耗等方面具有严格限制的分布式嵌入式系统。虚拟网络的节点数量有望扩大，需要提供更复杂的功能、更高程度的灵活性和更高的自主性。这种能够在应用程序和平台级别(自)适应的虚拟网络的工程提出了一个巨大的挑战。本文提出了一种基于计算自我意识的视觉传感器节点设计方法。计算自我意识通过模型维护关于系统状态和环境的知识，然后使用这些知识对行为进行推理和调整。我们讨论了计算自我意识的概念，并提出了新的设计方法，该方法以单个VSN节点的参考体系结构为中心，但可以自然地扩展到网络。我们介绍了VSN节点的实现及其平台架构和资源自适应能力，并报告了基于zynq的VSN节点原型的初步实现结果。

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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来源期刊

2017 12th International Symposium on Reconfigurable Communication-centric Systems-on-Chip (ReCoSoC)

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