The xylem cavitation diagnosis technology based on ultrasonic acoustic emission

2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA) Pub Date : 2011-12-01 DOI:10.1109/SPAWDA.2011.6167318

Jian-xin Wang, M. Sui, Shifeng Yang, X. Gao

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引用次数: 1

Abstract

Studies have shown that ultrasonic acoustic emission (UAE) is associated with the phenomenon of cavitation diagnosis in plant conduit. The UAE signals can be acquired between 100 KHz and 1 MHz, which is the indicator of xylem cavitation. The UAE diagnosis system is established by PCI-2, PCI-8333 data acquisition card (DAQ), transducers and virtual instrument platform to realize the functions of data acquisition and transmission, data storage and information query, data output and report generation. From the experiment data, the 30 days cumulative UAEs curve is like inverted “V”, and the transpiration rate reaches the peak is earlier than cumulative UAEs. The both trends are very similar, the correlation coefficient is 0.89. Through the 24 time phase transpiration rate and cumulative UAEs proportion analysis, the conclusions can be got, the cumulative UAEs proportion is less than the transpiration rate during 00:00 – 11:59 phase, while reverse during 12:00 – 23:59 phase, and the 12:00 is an inflection point. In any case, the difference between both is not more than 10%, and the both have a better coordination and consistency. The UAE signal characteristics indicate that it is possible to use UAE as the plant body water status diagnosis index to estimate the water stress degree and guide the irrigation.

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基于超声声发射的木质部空化诊断技术

研究表明，超声声发射与植物导管的空化诊断现象有关。在100 KHz ~ 1 MHz范围内可采集到UAE信号，这是木质部空化的指示信号。该UAE诊断系统由PCI-2、PCI-8333数据采集卡(DAQ)、传感器和虚拟仪器平台组成，实现了数据采集与传输、数据存储与信息查询、数据输出与报表生成等功能。从试验数据看，30 d累积uae曲线呈倒“V”型，蒸腾速率达到峰值早于累积uae。两种趋势非常相似，相关系数为0.89。通过对24个时间相蒸腾速率和累积uae比例的分析，得出在00:00 - 11:59阶段，累积uae比例小于蒸腾速率，而在12:00 - 23:59阶段，则相反，12:00是一个拐点。在任何情况下，两者的差异不超过10%，两者具有较好的协调性和一致性。阿联酋信号特征表明，利用阿联酋作为植物体内水分状态诊断指标，可以估计水分胁迫程度，指导灌溉。

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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2011 Symposium on Piezoelectricity, Acoustic Waves and Device Applications (SPAWDA)

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