Proceedings :: International Society of Precision Agriculture

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Cho, W

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Cho, W

Jang, Y

Cho, W

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Poster

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2025

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Filter results2 paper(s) found.
1. AI-driven Evapotranspiration Prediction Using Plant Wearable Sensor for Smart Irrigation The global expansion of greenhouse cultivation has created a need for reliable crop evapotranspiration (ET) estimation to enable precise irrigation, thereby improving yields, enhancing crop quality, and addressing challenges related to water scarcity and environmental sustainability. This study proposes the development of a plant signal-based artificial intelligence (AI) model for ET prediction, tailored to the unique environmental conditions of greenhouse systems. Unlike empirical models that... W. Cho Download paper
2. Development of an In-line Sc-ise Sensor System for Closed Hydroponic Nutrient Monitoring Nutrient monitoring is crucial in closed hydroponic systems, where accurate control over individual ion concentrations directly influences crop yield and fertilizer efficiency. While electrical conductivity (EC) sensors are commonly used, they only measure total ionic strength and cannot distinguish between specific ions. Liquid-contact ion-selective electrodes (LC-ISEs) have been studied as an alternative but tend to suffer from durability issues and signal instability under the high-flow conditions... Y. Jang, W. Cho Download paper

Filter results2 paper(s) found.

1. AI-driven Evapotranspiration Prediction Using Plant Wearable Sensor for Smart Irrigation

The global expansion of greenhouse cultivation has created a need for reliable crop evapotranspiration (ET) estimation to enable precise irrigation, thereby improving yields, enhancing crop quality, and addressing challenges related to water scarcity and environmental sustainability. This study proposes the development of a plant signal-based artificial intelligence (AI) model for ET prediction, tailored to the unique environmental conditions of greenhouse systems. Unlike empirical models that... W. Cho

Download paper

2. Development of an In-line Sc-ise Sensor System for Closed Hydroponic Nutrient Monitoring

Nutrient monitoring is crucial in closed hydroponic systems, where accurate control over individual ion concentrations directly influences crop yield and fertilizer efficiency. While electrical conductivity (EC) sensors are commonly used, they only measure total ionic strength and cannot distinguish between specific ions. Liquid-contact ion-selective electrodes (LC-ISEs) have been studied as an alternative but tend to suffer from durability issues and signal instability under the high-flow conditions... Y. Jang, W. Cho

Download paper