TOWARDS SUSTAINABLE SUBSISTENCE AGRICULTURE IN ROMANIA WITH LOW-COST IoT MODULES AND SOLUTIONS – PROOF OF CONCEPT

HOTEI, Ştefania-Adriana; MARGHESCU, Cristina Ioana; NEGROIU, Rodica Cristina; DRUMEA, Andrei

doi:10.35633/inmateh-71-56

INMATEH

2023

DOI: 10.35633/inmateh-71-56

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TOWARDS SUSTAINABLE SUBSISTENCE AGRICULTURE IN ROMANIA WITH LOW-COST IoT MODULES AND SOLUTIONS – PROOF OF CONCEPT

Ştefania-Adriana HOTEI,

Cristina Ioana MARGHESCU,

Rodica Cristina NEGROIU

et al.

Abstract: Climate change is having a strong impact on agriculture, and those most affected are small farmers and those practicing subsistence agriculture. Better management of resources is also needed in this context. IoT monitoring tools enable real-time monitoring of crops to make decisions, for example, regarding irrigation. For them to be used by smallholder and subsistence farmers, the system must be inexpensive and easy to use, preferably with interfaces with which the user is already familiar. We wanted to develo… Show more

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2024

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IoT-Enhanced Decision Support System for Real-Time Greenhouse Microclimate Monitoring and Control

Săcăleanu,

Matache,

Roșu

et al. 2024

Technologies

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Greenhouses have taken on a fundamental role in agriculture. The Internet of Things (IoT) is a key concept used in greenhouse-based precision agriculture (PA) to enhance vegetable quality and quantity while improving resource efficiency. Integrating wireless sensor networks (WSNs) into greenhouses to monitor environmental parameters represents a critical first step in developing a complete IoT solution. For further optimization of the results, including actuator nodes to control the microclimate is necessary. The greenhouse must also be remotely monitored and controlled via an internet-based platform. This paper proposes an IoT-based architecture as a decision support system for farmers. A web platform has been developed to acquire data from custom-developed wireless sensor nodes and send commands to custom-developed wireless actuator nodes in a greenhouse environment. The wireless sensor and actuator nodes (WSANs) utilize LoRaWAN, one of the most prominent Low-Power Wide-Area Network (LPWAN) technologies, known for its long data transmission range. A real-time end-to-end deployment of a remotely managed WSAN was conducted. The power consumption of the wireless sensor nodes and the recharge efficiency of installed solar panels were analyzed under worst-case scenarios with continuously active nodes and minimal intervals between data transmissions. Datasets were acquired from multiple sensor nodes over a month, demonstrating the system’s functionality and feasibility.

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IoT-Enhanced Decision Support System for Real-Time Greenhouse Microclimate Monitoring and Control

Săcăleanu,

Matache,

Roșu

et al. 2024

Technologies

View full text Add to dashboard Cite

show abstract

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TOWARDS SUSTAINABLE SUBSISTENCE AGRICULTURE IN ROMANIA WITH LOW-COST IoT MODULES AND SOLUTIONS – PROOF OF CONCEPT

Cited by 1 publication

References 17 publications

IoT-Enhanced Decision Support System for Real-Time Greenhouse Microclimate Monitoring and Control

IoT-Enhanced Decision Support System for Real-Time Greenhouse Microclimate Monitoring and Control

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