IoT Enabled Sustainable Automated Greenhouse Architecture with Machine Learning Module

B, Lanitha; Poornima, E.; Sudha, R.; David, D. Beulah; Kannan, K.; Jegan, R.; Vijayakumar, P.; Kirubagharan, R.; Tesfaye, Meroda

doi:10.1155/2022/1314903

Cited by 4 publications

(2 citation statements)

References 24 publications

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“…Finally, an approach to tracking and controlling soil conditions in agriculture is provided by the Internet of Things-enabled intelligent soil management system. [41] The goal of the study is to design a prototype smart greenhouse system that can use Internet of Things (IoT) technology to assess temperature, humidity, and soil moisture. The research addresses the drawbacks of standard greenhouse irrigation systems, including high human contact, expense, and water usage.…”

Section: Fig 1 Overview Of the Testbed Greenhouse Environmentmentioning

confidence: 99%

IoT-enabled Greenhouse Systems: Optimizing Plant Growth and Efficiency

Swathi Manoharan,

Chong Peng Lean,

Chen Li

et al. 2024

Malaysian J. Sci. Adv. Tech.

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Greenhouses have long been important in the advancement of agricultural operations because they provide regulated settings for optimal plant growth. With the introduction of real-time monitoring and automation capabilities, the Internet of Things (IoT) integration into greenhouse systems represents a revolutionary change. This abstract delves into the wider field of greenhouse technology, highlighting the role that IoT plays in improving agricultural in controlled environments. Conventional greenhouses provide plants with a protected environment, but they might not be as accurate or flexible. Intelligent control of environmental conditions is made possible by the introduction of IoT-enabled greenhouses, which utilize data exchange protocols, actuators, and sensors that are networked. The project aims to elevate traditional greenhouse models by integrating Node-RED and MQTT technologies. Transitioning from a Blynk-based prototype showcases the system's versatility. Other key components, including NodeMCU, sensors for real-time data, and LED lighting, collaborate to redefine controlled environment agriculture. The Raspberry Pi serves as a central hub, facilitating seamless communication through Node-RED and MQTT. This advanced greenhouse system harmonizes cutting-edge technologies, showcasing a commitment to sophistication and adaptability in agricultural practices.

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Section: Fig 1 Overview Of the Testbed Greenhouse Environmentmentioning

confidence: 99%

IoT-enabled Greenhouse Systems: Optimizing Plant Growth and Efficiency

Swathi Manoharan,

Chong Peng Lean,

Chen Li

et al. 2024

Malaysian J. Sci. Adv. Tech.

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“…An intelligent supervisory fuzzy controller (ISFC) was developed to control and adjust the greenhouse environment remotely [14]. Soil is the base for plants to grow, so an intelligent soil management system is designed and developed, it is more convenient for farmers to manage and maintain their crops in the greenhouse [15]. Farmers could observe the monitoring data through a blynk application.…”

Section: Literature Reviewmentioning

confidence: 99%

Smart Greenhouse Monitoring and Controlling based on NodeMCU

Liu¹

2022

IJACSA

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Food security is one of the major rising issues as the human population is larger and the land available for cultivation is smaller, as well unassured affairs happened often in society especially in the current CoVID-19 rapidly spread days. To mitigate this condition, further improve the yields and quality of food, this paper proposed a smart and low-cost greenhouse monitoring and control system, which mainly consists of sensors, actuators, LCD display and microcontrollers. DHT22 sensor is used to get the surrounding temperature and humidity in the greenhouse, and NodeMCU is used as the main microcontroller. Some other facilities such as fan and heater are used to adjust the inside environment. The system could monitor the growth environment continuously with Internet-connected, the monitoring data is transmitted and stored in the ThingSpeak cloud, the users can visualize the live data through a webpage or phone APP in real-time. If the environment condition is out of the predefined level, the environment is monitored continuously, and the system can be adjusted automatically. This system can be deployed in the greenhouse simply and maintain the greenhouse environment in a normal range dynamically and continuously.

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Exploring Advanced Smart Sensing Technology for Enhanced Drip Irrigation Management in Greenhouses

Raro,

Palaoag

2024

2024 International Conference on Advances in Computing, Communication, Electrical, and Smart Systems (iCACCESS)

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IoT Enabled Sustainable Automated Greenhouse Architecture with Machine Learning Module

Cited by 4 publications

References 24 publications

IoT-enabled Greenhouse Systems: Optimizing Plant Growth and Efficiency

IoT-enabled Greenhouse Systems: Optimizing Plant Growth and Efficiency

Smart Greenhouse Monitoring and Controlling based on NodeMCU

Exploring Advanced Smart Sensing Technology for Enhanced Drip Irrigation Management in Greenhouses

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