KR-20260065973-A - smart plant grow monitoring system

Abstract

The present invention relates to a smart plant growth monitoring system and includes innovative technology designed to support the healthy growth of various plants. The system is equipped with the ability to collect and analyze data in real time by integrating multiple sensors to help users cultivate plants effectively. The sensor module , a core component, measures environmental variables such as soil moisture, temperature, light intensity, and CO2 concentration to help users maintain optimal plant growth conditions. Specifically, the soil moisture sensor monitors soil moisture levels in real time to automatically adjust the appropriate watering timing, while the temperature sensor precisely measures ambient temperature to contribute to maintaining an optimal growth environment. Additionally, the illuminance sensor analyzes the amount of natural light to determine the need for artificial lighting, thereby helping to maximize plant photosynthesis. Finally, the CO2 sensor monitors the concentration of carbon dioxide in the air to effectively manage the CO2 supply required by plants and provides the function of automatically adjusting to an ideal environment. All of this data is collected by a central control unit and analyzed by advanced artificial intelligence algorithms . These algorithms learn plant growth patterns and are equipped with the capability to suggest optimal watering cycles, lighting conditions, temperature ranges, and CO2 concentrations to the user. This data analysis provides personalized feedback to the user, enhancing plant management efficiency and enabling appropriate actions to be taken in real time. In addition, the present invention is designed to allow users to monitor and manage the growth status of plants in real time through a user-friendly smartphone application . This application suggests management methods tailored to goals set by the user and provides practical insights to the user through comparison with past data. Users can view plant growth records through the application and manage the plants more intuitively through a function that allows them to visually check the growth process. In addition, this system includes a function that connects to a cloud server to share data and experiences with other users or to learn from them. This allows users to compare and improve their management methods with others, and provides opportunities to share various cultivation environments and technologies within a global community. Finally, the present invention provides a comprehensive management solution to the user by including an energy management function, an anomaly detection function , and a data security function . The energy management function enables the efficient use of self-generated energy through integration with solar panels, and the anomaly detection function immediately detects abnormal environmental conditions and provides a warning to the user. The data security function enhances data safety by applying various encryption technologies to protect the user's personal information and helps maintain the overall security status of the system through regular security checks and updates. Through these various functions and advantages, the present invention enables users to easily manage plants and maintain an optimal growth environment, and provides an opportunity to dramatically improve productivity in the fields of agriculture and horticulture.

Inventors

• 이현서

Assignees

• 이현서

Dates

Publication Date

20260512

Application Date

20241103

Claims (1)

1. 1. As a smart plant growth monitoring system, it includes a sensor module designed to enable the user to effectively cultivate desired plants, and the sensor module is characterized by including several sensors that measure the following: 2. The soil moisture sensor measures the moisture level in the soil in real time to help determine the water requirements of the plant, and includes a function to automatically adjust the appropriate watering cycle. The sensor can perform measurements at multiple points for precise data collection, thereby enabling the user to know the exact time for watering.

Description

Smart plant growth monitoring system Smart agriculture and IoT (Internet of Things) technology The technology underlying this invention is smart agriculture and IoT (Internet of Things) technology, which is a system that monitors and optimizes plant growth conditions by utilizing sensors and data analysis. This system provides real-time information to users through a mobile application and learns and manages plant growth patterns through artificial intelligence algorithms. This enables efficient plant cultivation and management. The specific details for implementing the invention consist of various components. First, the system measures soil moisture, temperature, light intensity, and CO2 concentration in real time through **sensor modules**, and these sensors transmit data to a central control unit via a wireless communication module. The central control unit is equipped with an artificial intelligence algorithm that analyzes the collected data to calculate optimal growth conditions and automatically perform necessary measures. This device is also equipped with the capability to connect to a cloud server to share data with other users or to learn from it. Furthermore, we have developed a **smartphone application** that features an intuitive user interface and supports various languages to enhance accessibility. This application provides real-time data monitoring, alert notifications, customized guides, and statistical functions, enabling users to set plant management goals and easily control the environment. Through data analysis and AI algorithms, we utilize machine learning based on collected environmental data to analyze the growth patterns of each plant and present customized growth conditions to users, thereby providing more accurate information. Finally, the energy management system is designed to enable self-production by integrating with solar panels, and supports sustainable plant cultivation by increasing the energy efficiency of lighting and water supply systems.