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Collision-free emission and dynamic duty cycle management to save energy without performance reduction in IoT wireless multi hop collecting network

机译：自由碰撞的发射和动态占空比管理，以节省能源而无需减少物联网无线多跳收集网络

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This paper addresses a protocol dedicated to Internet of Things wireless collecting network. Such network collects data from large static systems such as bridges, roads buildings or mobile like materials, products or people transport systems. The purpose of this data collection is to monitor the system in order to enhance security and maintenance procedures. Low energy consumption is required from sensor nodes due to the cost and working time to change or recharge batteries. According that data are not locally processed and for a given type of electronics and node architecture energy consumption vary with two parameters: emission duration and reception duration. The proposed TOMAC-WSN-Eco protocol reduced both parameters at the minimum values by avoiding collision and waking up receiver component just when it is needed. All operations are formally defined. Performance and energy consumption are calculated. Various simulations give also performance evaluation. The results show that the proposed TOMAC-WSN-Eco protocol is particularly sober while satisfying the imposed quality of service constraints.

机译：本文讨论了一项专用于无线收集网络的互联网的协议。这种网络收集来自大型静态系统的数据，例如桥梁，道路建筑物或移动式材料，产品或人交通系统。此数据收集的目的是监控系统，以提高安全性和维护程序。由于成本和工作时间来改变或充电电池，传感器节点需要低能量消耗。根据该数据不在本地处理，并且对于给定类型的电子产品和节点架构能耗随两个参数而变化：发射持续时间和接收持续时间。所提出的TOMAC-WSN-ECO协议通过避免碰撞并在需要时唤醒接收器组件，减少了最小值的两个参数。所有操作都在正式定义。计算性能和能耗。各种模拟还提供绩效评估。结果表明，拟议的Tomac-WSN-ECO议定书尤其清醒，同时满足强加的服务质量限制。

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《IFAC Symposium on Telematics Applications》|2020年|350p|共6页
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作者
Francis Lepage; Vincent Lecuire;
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原文格式 PDF
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中图分类 TP273-53;
关键词
Internet of Thing; Wireless sensor network; Energy saving; WSN MAC protocol; Mechanical system supervision;

机译：事情互联网;无线传感器网络;节能;WSN MAC协议;机械系统监督;

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1. Collision-free emission and dynamic duty cycle management to save energy without performance reduction in IoT wireless multi hop collecting network [J] . Francis Lepage, Vincent Lecuire IFAC PapersOnLine . 2019,第24期

机译：物联网无线多跳收集网络的无冲突发射和动态占空比管理，可在不降低性能的情况下节省能源
2. Collision-free emission and dynamic duty cycle management to save energy without performance reduction in IoT wireless multi hop collecting network [J] . Francis Lepage, Vincent Lecuire IFAC PapersOnLine . 2019,第24期

机译：物联网无线多跳收集网络的无冲突发射和动态占空比管理，可在不降低性能的情况下节省能源
3. Cutting Down Energy Usage in Wireless Sensor Networks Using Duty Cycle Technique and Multi-Hop Routing [J] . Ali Sedighimanesh, Mohammad Sedighimanesh, Javad Baqeri International Journal of Wireless & Mobile Networks . 2016,第4期

机译：使用占空比技术和多跳路由减少无线传感器网络中的能耗
4. Collision-free emission and dynamic duty cycle management to save energy without performance reduction in IoT wireless multi hop collecting network [C] . Francis Lepage, Vincent Lecuire IFAC Symposium on Telematics Applications . 2020

机译：自由碰撞的发射和动态占空比管理，以节省能源而无需减少物联网无线多跳收集网络
5. Duty cycling for energy efficiency in wireless sensor networks and applications. [D] . Li, Jing. 2012

机译：占空比循环可提高无线传感器网络和应用的能效。
6. A Multi-Hop Energy Neutral Clustering Algorithm for Maximizing Network Information Gathering in Energy Harvesting Wireless Sensor Networks [O] . Liu Yang, Yinzhi Lu, Yuanchang Zhong, 2016

机译：能量收集无线传感器网络中最大化网络信息收集的多跳能量中性聚类算法
7. Cutting down energy usage in wireless sensor networks using Duty Cycle technique and multi-hop routing [O] . Sedighimanesh, Ali, Sedighimanesh, Mohammad, Baqeri, Javad 2016

机译：使用占空比减少无线传感器网络中的能源使用技术和多跳路由

Collision-free emission and dynamic duty cycle management to save energy without performance reduction in IoT wireless multi hop collecting network

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