期刊
APPLIED SPECTROSCOPY
卷 77, 期 2, 页码 220-224出版社
SAGE PUBLICATIONS INC
DOI: 10.1177/00037028221128800
关键词
Automation; small uncrewed aircraft system (sUAS); aerial drone; fluorometer; automatic; water; sampling; low-power; low-cost; lightweight; microcontroller; Arduino
We describe the control and interfacing of a fluorometer designed for aerial drone-based measurements of chlorophyll-a using an Arduino Nano 33 BLE Sense board. The fluorometer was integrated into a small Uncrewed Aircraft System (sUAS) for automated water sampling through a Raspberry Pi master computer using the ROS.
We describe the control and interfacing of a fluorometer designed for aerial drone-based measurements of chlorophyll-a using an Arduino Nano 33 BLE Sense board. This 64 MHz controller board provided suitable resolution and speed for analog-to-digital (ADC) conversion, processed data, handled communications via the Robot Operating System (ROS) and included a variety of built-in sensors that were used to monitor the fluorometer for vibration, acoustic noise, water leaks and overheating. The fluorometer was integrated into a small Uncrewed Aircraft System (sUAS) for automated water sampling through a Raspberry Pi master computer using the ROS. The average power consumption was 1.1W. A signal standard deviation of 334 mu Vwas achieved for the fluorescence blank measurement, mainly determined by the input noise equivalent power of the transimpedance amplifier. An ADC precision of 130 mu V for 10 Hz chopped measurements was achieved for signals in the input range 0-600 mV.
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