Archivio Istituzionale della RicercaSmart agriculture aims to improve food production and reduce the waste of water and chemicals by monitoring the crops with sensors. Direct and in-vivo crop monitoring can improve the information extracted and increase the impact of smart agriculture. Here, we propose a system to estimate the amplitude of a signal traveling inside a plant stem in vivo. The amplitude of this signal is strictly related to the impedance of the plant, a promising parameter to monitor plant status. This approach allows monitoring the plant impedance with an electric signal carrying other information. The plant stem will act as a communication channel, removing the need for wireless communication systems.
Fully Digital Amplitude Estimation System for In-Vivo Stem Impedance Monitoring / Calvo, Stefano; Demarchi, Danilo; Garlando, Umberto. - ELETTRONICO. - (2024), pp. 1-5. (Intervento presentato al convegno 15th Latin America Symposium on Circuits and Systems (LASCAS) tenutosi a Punta del Este (Uruguay) nel 27 February 2024 - 01 March 2024) [10.1109/lascas60203.2024.10506145].
Fully Digital Amplitude Estimation System for In-Vivo Stem Impedance Monitoring
Calvo, Stefano;Demarchi, Danilo;Garlando, Umberto
2024
Abstract
Smart agriculture aims to improve food production and reduce the waste of water and chemicals by monitoring the crops with sensors. Direct and in-vivo crop monitoring can improve the information extracted and increase the impact of smart agriculture. Here, we propose a system to estimate the amplitude of a signal traveling inside a plant stem in vivo. The amplitude of this signal is strictly related to the impedance of the plant, a promising parameter to monitor plant status. This approach allows monitoring the plant impedance with an electric signal carrying other information. The plant stem will act as a communication channel, removing the need for wireless communication systems.
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LASCAS_24_Whole_Stem_Imp.pdf
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Calvo-Fully.pdf
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https://hdl.handle.net/11583/2992966