I. What is IoT?
IoT stands for "Internet of Things" - a concept in technology that describes connecting devices to the internet and connecting them together to exchange data and perform activities that were previously done by humans. perform. The basic idea of IoT is to allow various devices to collect data through sensors and transmit it through an internet connection to servers, where the data is analyzed and processed.
For example: Check the temperature and humidity of the working environment.
II. Some applications and applications in industry 4.0
1. Increase Production Efficiency:
IoT allows devices and machines equipped with sensors in the production process to transmit data. From there, you can know the running time and stop the machine to have appropriate solutions.
2. Productivity and Quality Control:
IoT enables real-time collection of quality productivity metrics. This helps businesses better control quality and production schedule.
3. Data-Based Decisions:
IoT systems enable continuous monitoring of operational parameters, early warning of problems, and provision of real-time data to support data-driven decision making.
4. Increased Predictive Maintenance:
Use data collected from equipment to predict when maintenance or replacement is needed, helping to avoid unexpected problems and minimize downtime.
5. Increase Labor Safety:
IoT sensors can help monitor working conditions, ensure employee safety, and automatically notify when there is a risk.
6. Supply Chain Integration:
IoT helps connect the entire supply chain from raw materials to finished products, helping to enhance circulation management and reduce loss. Control and monitor product status during movement and storage.
7. Save Energy and Resources:
IoT enables more efficient monitoring and management of energy and resource usage (e.g. water, raw materials).
8. Increased Flexibility and Automation:
IoT-based manufacturing allows flexibility to adapt to rapidly changing market and customer needs, while increasing automation in the production process.
9. Increase Process Optimization:
IoT collects input and output data and analyzes it to provide optimal solutions.
For example: analyze and calculate the optimal amount of fertilizer, moisture, and water for each crop to minimize growing costs.
10. Towards a Smart Manufacturing Environment:
IoT in manufacturing brings the ability to connect and interact between devices and machines via the Internet, creating a smart manufacturing environment. This helps businesses create a dynamic working environment and respond quickly to market changes and customer requirements.
11. Integration with ERP Software System:
IoT plays the role of collecting information in real time, all collected information is sent to the ERP system for analysis and processing.
SUMMARY:
IoT plays an important role in collecting data in real time, plus the support of ERP software systems helps process data scientifically. This helps operators make decisions faster and more accurately.