Smart Agriculture Solutions

For large-scale greenhouse planting, relying solely on manual management requires a large number of manpower, is labor-intensive and time-consuming, and there are unavoidable manual errors. Through the Internet of Things system, a significant portion of the manager's time and energy can be released, improving efficiency. The same amount of manual labor can increase the management of greenhouses several times, and precise management can provide crop quality and increase profits.

The agricultural monitoring system utilizes computers and mobile phones to achieve real-time monitoring of the meteorological, soil, and water source environment at agricultural production sites, and to achieve remote automation control of agricultural facilities such as irrigation, ventilation, cooling, and warming in greenhouses.

1、 The shortcomings of traditional agriculture

1. Mainly relying on human labor, with low degree of mechanization

2. Low resource utilization leads to wastage of resources.

3. Traditional agriculture relies on the experience of old farmers to engage in agricultural production, lacking a scientific sentence. The characteristic of high risk and low output

2、 Smart Agriculture System Solution

Through the intelligent control system of the Internet of Things, information such as air temperature and humidity, soil temperature and humidity, light intensity, and carbon dioxide concentration in the planting environment is collected. The collected data is analyzed, and temperature control systems, irrigation systems, and other on-site production equipment are regulated or automatically controlled based on parameter changes to ensure the highest quality growth environment for crops and promote high-quality, efficient, and high-yield agricultural production!

Option 1: On site equipment/instruments ->PLC ->Internet of Things gateway ->Platform, suitable for small and medium-sized sewage equipment

The PLC controller connects on-site equipment/instruments to achieve automatic logic control of integrated sewage equipment. The PLC controller is connected to the EG20 edge computing gateway through the serial port/network port. The gateway automatically collects data and sends it to the EMCP IoT cloud platform. Create device configurations and other business operations on the platform to monitor devices.

Option 2: On site equipment/instruments ->CLC-16R ->platform, suitable for controlling simple small sewage equipment

The CLC-16R cloud logic controller of Blue Bee is connected to on-site equipment/instruments to achieve automated logic control of integrated sewage equipment. CLC-16R automatically collects data through an internal networking module and sends it to the EMCP IoT cloud platform. Create device configurations and other business operations on the platform to monitor devices.

3、 Various functions used

1. Remote automatic control

Through the Internet of Things system, various operating conditions of equipment in agricultural production areas can be set. When the real-time data collected exceeds the set threshold, the system will automatically control the greenhouse automation equipment through relay control equipment or analog output modules, such as automatic spraying system, automatic ventilation system, etc., to ensure that the insulation room is the most suitable environment for plant growth and quickly achieve automated irrigation, And the construction of intelligent greenhouses.

2. Remote monitoring

The monitoring and early warning system compares the data collected by environmental sensors at monitoring points with the environmental data suitable for crop growth. When the real-time monitored environmental data exceeds the warning value, the system automatically provides warning prompts, including environmental warning and pest warning, and provides corresponding warning guidance measures for mobile phones and large screen display devices to push.

3. Remote automatic alarm of equipment

Automatic alarms include network disconnection alarm, device communication failure alarm, parameter exceeding alarm, etc. The alarm parameters can be flexibly set and bound to the phone of the management personnel. On site equipment failures, data exceeding standards, illegal intrusion, and power failure can be notified to the operations or responsible person in real-time through various methods such as APP, web pages, SMS, and mobile voice. Alarm information/records are displayed in real-time on the management platform.

4. Fault equipment alarm notification

It is possible to analyze the information of faulty equipment in the power grid through data analysis, predict the patterns of power grid faults, evaluate the operational risks of the power grid, achieve real-time warning, and enable technical personnel to perform equipment maintenance and inspection work in advance. In case of equipment failure, alarm information will also be sent to the equipment management personnel in a timely manner through various methods (SMS, APP, phone alarm, message push) and other means.

5. Comprehensive Kanban Big Data Operation and Maintenance Center

Through the big data screen, the overall operation of the project can be understood, and the data can be presented in a visually appealing form such as charts and curves, making the data more intuitive and clear. Not only can it help better understand data, but it can also create cool large screen effects.

6. Work order operation and maintenance

The work order administrator can directly check whether the enterprise equipment in the operation and maintenance system is in a faulty state and contact the equipment maintenance personnel. At the same time, it can also manage and notify the problematic equipment and related information. Timely grasp the daily usage of the equipment. So as to better maintain and upkeep the equipment, improve its performance and service life.