Abstract
Application of Unmanned Aircraft Systems (UAS) for plant protection is becoming a common tool in agricultural field management. To avoid shortcomings of intrusive flowrate sensors including poor measurement accuracy and poor anti-vibration ability, a non-intrusive flowrate measurement and monitoring system of plant-protection UAS was developed based on pump voice signal analysis. It is mainly composed of STM32 processor, microphone and signal-conditioning circuit. By collecting and analyzing the voice signal of the pump in the UAS, the monitoring system will output the real-time values of spraying flowrate and amount. An extraction model was developed to determine operation status and primary frequency of the pump based on voice signal analysis. Real-time spray flowrate can be determined from the real-time extracted primary frequency and the fitted correlation formulas of spraying flowrate under outlet area and pump primary frequency. The flowrate correlation equation of one certain pump from 4-rotor UAS 3WQFTX-1011S was obtained, the max deviation rate of fitted spray flowrate was only 2.8%. In primary frequency extraction test, the error rate of primary frequency extraction was less than 1%. In the 4-rotor UAS flight tests: the max deviation of operating starting/end point was only 0.7 s and the max deviation of extracted total operating time was only 0.8 s; the deviation of extracted spray flowrate was less than 2%, and the max deviation rate of total spray amount was 3.2%. This research could be used as a guidance for plant-protection UAS non-intrusive flowrate measurement and monitoring. Keywords: plant protection UAS, voice signal analysis, non-intrusive, flowrate measurement, monitoring system DOI: 10.25165/j.ijabe.20211403.5508 Citation: Xu Y, Xue X Y, Sun Zh, Gu W. Non-intrusive flowrate measurement and monitoring system of plant-protection unmanned aircraft systems based on pump voice analysis. Int J Agric & Biol Eng, 2021; 14(3): 58–65.
Highlights
With rapid development of aviation plant protection science technology in Asia, Unmanned Aerial Systems (UAS) is playing a more and more import role in plant protection[1,2]
Iwasaki and Torita[6] evaluated the spatial pattern of windbreak effects on maize growth using Unmanned Aircraft Systems (UAS)
Research on plant protection UAS is concentrated on UAS operation parameters optimization[7,8], variable-rate spray
Summary
With rapid development of aviation plant protection science technology in Asia, Unmanned Aerial Systems (UAS) is playing a more and more import role in plant protection[1,2]. Different from ground machinery, plant protection UAS does not require dedicated spot for take-off and landing, it embraces short turning radius and causes no damage to crops during operation. It can be applied in complex terrain including hills, mountains, slopes and paddy fields. Through voice signal processing including feature extraction and pattern recognition, online operating status monitoring and faults forecasting of machine can be realized[18,19,20,21]. A non-intrusive flowrate measurement monitoring system of plant protection UAS was developed based on pump voice signal analysis. 2021 Xu Y, et al Non-intrusive flowrate measurement and monitoring system of plant-protection unmanned aircraft systems Vol 14 No 3 59 speed of pump motor)
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