NPK Detection Spectroscopy on Non-Agriculture Soil

Yusof, Khairunnisa Mohd; Isaak, Suhaila; Rashid, Nurfatihah Che Abd; Ngajikin, Nor Hafizah

doi:10.11113/jt.v78.8382

Cited by 2 publications

(1 citation statement)

References 7 publications

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“…Moreover, LEDs can enhance production in non-chlorophyll-based plant cultivation [16]. Optical sensors have been developed to accurately detect soil nutrients [17,18] and facilitate agricultural and food analysis processes [18,19].…”

Section: Introductionmentioning

confidence: 99%

Using Optical Sensor Applied to Rapid Soil Test Kit for NH4+ and NO3- in Soil

Jaisin,

Aumtong,

Chotamonsak

2024

Preprint

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This study aims to construct simple devices to ascertain the concentrations of ammonium (NH4+) and nitrate (NO3-). The device structure comprises a visible and near-infrared absorption meas-urement room, along with an RGB (red, green, and blue) absorption measurement room, con-stituting the two measuring rooms. Both the measurement rooms are equipped with light sources and detectors configured to operate in opposed or thru-beam modes. A tiny processor is utilized for processing the measurements, with an algorithm implemented within its memory. During the algorithm development phase, ranges for measuring the quantity of nutrients were categorized using a discriminant analysis approach. Thirty percent of the soil sample data were utilized as verification data, while the remaining 70 percent served as training data. Nutrient content values from reliable measuring instruments were incorporated into all datasets. Discriminant analysis was employed to classify the amount of NH4+ into five ranges based on the test results. When tested with soil samples, the accuracy was 66.13% compared to the reference value of a reliable measuring device. Similarly, NO3- was classified into four ranges with an accuracy of 81% com-pared to the reference value of a reliable measuring device.

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Section: Introductionmentioning

confidence: 99%

Using Optical Sensor Applied to Rapid Soil Test Kit for NH4+ and NO3- in Soil

Jaisin,

Aumtong,

Chotamonsak

2024

Preprint

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A technical survey on practical applications and guidelines for IoT sensors in precision agriculture and viticulture

Pascoal,

Silva,

Adão

et al. 2024

Sci Rep

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Climate change pose significant challenges to modern agriculture management systems, threatening food production and security. Therefore, tackling its effects has never been so imperative to attain sustainable food access and nutrition worldwide. In the case of viticulture, besides jeopardizing grape production, climate change has severe impact in quality, which has becoming more challenging to manage, due to the increasingly frequent fungal contamination, with consequences for relevant quality parameters such as the aromatic profiles of grapes and wines and their phenolic compounds. This has been leading to a reconfiguration of the wine industry geostrategic landscape and economy dynamics, particularly in Southern Europe. To address these and other emerging challenges, in-field deployable proximity-based precision technologies have been enabling real-time monitoring of crops ecosystems, including climate, soil and plants, by performing relevant data gathering and storage, paving the way for advanced decision support under the Internet of Things (IoT) paradigm. This paper explores the integration of agronomic and technological knowledge, emphasizing the proper selection of IoT-capable sensors for viticulture, while considering more general ones from agriculture to fill gaps when specialized options are unavailable. Moreover, advisable practices for sensor installation are provided, according to respective types, data acquisition capabilities and applicability.

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NPK Detection Spectroscopy on Non-Agriculture Soil

Cited by 2 publications

References 7 publications

Using Optical Sensor Applied to Rapid Soil Test Kit for NH4+ and NO3- in Soil

Using Optical Sensor Applied to Rapid Soil Test Kit for NH4+ and NO3- in Soil

A technical survey on practical applications and guidelines for IoT sensors in precision agriculture and viticulture

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