In this paper, we present ArduHydro, a low-cost device for water level measurement and monitoring designed for employment in controlled and outdoor environments. It measures the water level through an ultrasonic sensor and elaborates the signals through an Arduino microcontroller. The small size of this device, its robustness and accuracy make ArduHydro properly versatile for different applications in the field of water control and management. This article describes the design, the components, the costs, and the performance of ArduHydro. The performance was assessed with a laboratory test inside an open-channel flume and comparing ArduHydro measurements with those obtained with a traditional ultrasonic sensor. Furthermore, an example of ArduHydro application for detecting the wavefront evolution during surface irrigation of a maize crop is presented. The results revealed that ArduHydro measurements were, on average, very consistent with those obtained by the traditional ultrasonic sensor in all different flow conditions. The application of ArduHydro during a surface watering of an agricultural field allowed us to obtain important spatiotemporal information about the water depth along the longitudinal direction of the field, paying the way for a real comprehension of the dynamics of wavefront evolution in a real-world case study.
ArduHydro: a low-cost device for water level measurement and monitoring / A. Galli, C. Peruzzi, F. Gangi, D. Masseroni. - In: JOURNAL OF AGRICULTURAL ENGINEERING. - ISSN 1974-7071. - 55:1(2024 Mar 28), pp. 1554.110-1554.122. [10.4081/jae.2024.1554]
ArduHydro: a low-cost device for water level measurement and monitoring
C. PeruzziSecondo
;F. GangiPenultimo
;D. MasseroniUltimo
2024
Abstract
In this paper, we present ArduHydro, a low-cost device for water level measurement and monitoring designed for employment in controlled and outdoor environments. It measures the water level through an ultrasonic sensor and elaborates the signals through an Arduino microcontroller. The small size of this device, its robustness and accuracy make ArduHydro properly versatile for different applications in the field of water control and management. This article describes the design, the components, the costs, and the performance of ArduHydro. The performance was assessed with a laboratory test inside an open-channel flume and comparing ArduHydro measurements with those obtained with a traditional ultrasonic sensor. Furthermore, an example of ArduHydro application for detecting the wavefront evolution during surface irrigation of a maize crop is presented. The results revealed that ArduHydro measurements were, on average, very consistent with those obtained by the traditional ultrasonic sensor in all different flow conditions. The application of ArduHydro during a surface watering of an agricultural field allowed us to obtain important spatiotemporal information about the water depth along the longitudinal direction of the field, paying the way for a real comprehension of the dynamics of wavefront evolution in a real-world case study.File | Dimensione | Formato | |
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