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Minimum Variance Energy Allocation for a Solar-Powered Sensor System

机译：太阳能传感器系统的最小方差能量分配

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摘要

Using solar power in wireless sensor networks (WSNs) requires adaptation to a highly varying energy supply. Prom an application's perspective, however, it is often preferred to operate at a constant quality level as opposed to changing application behavior frequently. Reconciling the varying supply with the fixed demand requires good tools for predicting supply such that its average is computed and demand is fixed accordingly. In this paper, we describe a probabilistic observation-based model for harvested solar energy, which accounts for both long-term tendencies and temporary environmental conditions. Based on this model, we develop a time-slot-based energy allocation scheme to use the periodically harvested solar energy optimally, while minimizing the variance in energy allocation. Our algorithm is tested on both outdoor and indoor testbeds, demonstrating the efficacy of the approach.

机译：在无线传感器网络（WSN）中使用太阳能需要适应高度变化的能源供应。但是，从应用程序的角度出发，通常更希望以恒定的质量级别进行操作，而不是经常更改应用程序的行为。要使变化的供应与固定需求保持一致，就需要用于预测供应的良好工具，以便计算其平均值并相应地确定需求。在本文中，我们描述了一种基于概率观测的收获太阳能模型，该模型考虑了长期趋势和临时环境条件。在此模型的基础上，我们开发了一种基于时隙的能源分配方案，以最佳地利用定期收集的太阳能，同时最大程度地减少能源分配中的差异。我们的算法在室外和室内测试台上都经过测试，证明了该方法的有效性。

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来源
《Distributed computing in sensor systems 》|2009年|P.44-57|共14页
会议地点 Marina del Rey CA(US);Marina del Rey CA(US)
作者
Dong Kun Noh; Lili Wang; Yong Yang; Hieu Khac Le; Tarek Abdelzaher;
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作者单位

Department of Computer Science University of Illinois at Urbana-Champaign Urbana, IL 61801, USA;

rnDepartment of Computer Science University of Illinois at Urbana-Champaign Urbana, IL 61801, USA;

rnDepartment of Computer Science University of Illinois at Urbana-Champaign Urbana, IL 61801, USA;

rnDepartment of Computer Science University of Illinois at Urbana-Champaign Urbana, IL 61801, USA;

rnDepartment of Computer Science University of Illinois at Urbana-Champaign Urbana, IL 61801, USA;

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正文语种 eng
中图分类 TP212;
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1. Balanced energy allocation scheme for a solar-powered sensor system and its effects on network-wide performance [J] . Dong Kun Noh, Kyungtae Kang Journal of computer and system sciences . 2011 ,第5期

机译：太阳能传感器系统的平衡能量分配方案及其对全网性能的影响
2. An Application of New Polynomial Matrix σ-Inverse in Minimum-Energy Design of Robust Minimum Variance Control for Nonsquare LTI MIMO Systems [J] . Wojciech P. Hunek IFAC PapersOnLine . 2015 ,第14期

机译：新多项式矩阵σ逆在非平方LTI MIMO系统鲁棒最小方差控制的最小能量设计中的应用
3. An Application of New Polynomial Matrix σ-Inverse in Minimum-Energy Design of Robust Minimum Variance Control for Nonsquare LTI MIMO Systems [J] . Wojciech P. Hunek IFAC PapersOnLine . 2015 ,第14期

机译：新多项式矩阵σ逆在非平方LTI MIMO系统鲁棒最小方差控制的最小能量设计中的应用
4. Minimum Variance Energy Allocation for a Solar-Powered Sensor System [C] . Dong Kun Nob, Lili Wang, Yong Yang, IEEE International Conference on Distributed Computing in Sensor Systems . 2009

机译：太阳能传感器系统的最小方差能量分配
5. Minimum variance multiuser detection for dual rate and space-time coded DS-CDMA systems. [D] . Lu, Xuguang. 2001

机译：双速率和空时编码DS-CDMA系统的最小方差多用户检测。
6. Disturbance Modelling for Minimum Variance Control in Adaptive Optics Systems Using Wavefront Sensor Sampled-Data [O] . María Coronel, Rodrigo Carvajal, Pedro Escárate, 2021

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7. Balanced energy allocation scheme for a solar-powered sensor system and its effects on network-wide performance [O] . Noh Dong Kun, Kang Kyungtae 2011

机译：太阳能传感器系统的平衡能量分配方案及其对全网性能的影响

Minimum Variance Energy Allocation for a Solar-Powered Sensor System

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