基于偏好路由和预测的节能自适应通信

2014 IEEE 11th International Multi-Conference on Systems, Signals & Devices (SSD14) Pub Date : 2014-05-01 DOI:10.1109/SSD.2014.6808912

Daniel Reissner, M. Caspar, W. Hardt, Florian Strakosch, F. Derbel

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引用次数: 4

摘要

简化生活的全自动工厂只有在高精度和质量检查传感器密度的情况下才可行。为了实现大量的传感器节点，由于成本和正常运行时间的原因，单个节点必须需要最少的能量。本文提出了一种行为自适应路由协议，该协议利用工厂结构、生成顺序关系和应用特定过程数据相关性来降低节点的能量需求，提高节点的适用性。通过参数压缩数据格式和适应时间行为的缓冲来实现数据量的减少。通过防止周期性更新和使用其他节点的回波来减少传输数量。为了对动态环境影响和能量波动做出反应，传感器节点改进了它们的行为。行为的改变源于压缩的偏好值。通过几个先验规则检查和错误自适应验证了参数到首选项映射的准确性。

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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Energy-efficient adaptive communication by preference-based routing and forecasting

Life simplifying fully automated factories are only feasible with a high accuracy and quality checking sensor density. In order to realize a huge amount of sensor nodes a single node must require minimal amount of energy for cost and uptime reasons. In this paper, a behavior adaptive routing protocol is presented which utilizes factory structures, resulting order relations, and application specific process data relevance to reduce energy requirements of nodes and increase their applicability. The reduction of data amount is realized by a parameter compressing data format and time-behavior adapted buffering. The reduction of number of transmissions is achieved by prevention of periodic updates and usage of echoes of other nodes. In order to react to dynamic environmental influences and energy fluctuations, sensor nodes improve their behavior. Change in behavior results from a compressed preference value. The accuracy of mapping of parameters to the preference is validated by several a priori rule checks and error adaptions.

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来源期刊

2014 IEEE 11th International Multi-Conference on Systems, Signals & Devices (SSD14)

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