The term "physical monitoring" refers to the continuous observation of physical parameters such as temperature, humidity, pressure, motion, or light intensity in an environment. This monitoring is aimed at ensuring the safety, efficiency, and functionality of spaces, facilities, or processes. Physical monitoring is utilized in various sectors including industry, healthcare, storage, and building management.
Typical software functions in the area of "physical monitoring":
- Real-Time Data Monitoring: Capturing and displaying real-time data of physical parameters.
- Alarm Management: Automated notifications and alarms when predefined thresholds are exceeded.
- Data Logging: Long-term recording of measured data for later analysis and reporting.
- Visualization: Graphical representation of physical parameters in the form of charts and tables.
- Remote Monitoring: Access and control of monitoring systems from remote locations.
- Integration with Other Systems: Interfaces for integrating monitoring data into other management and control systems.
- Reporting: Creating reports and analyses based on monitored data.
- Analysis and Forecasting: Using analytical tools and algorithms to identify trends and predict future events.
Examples of "physical monitoring":
- Temperature Monitoring in Cold Chains: Ensuring the temperature in cold storage remains constant to maintain the quality and safety of food or pharmaceuticals.
- Humidity Monitoring in Museums: Protecting artworks from damage due to fluctuations in humidity.
- Pressure Monitoring in Industrial Machinery: Preventing failures and damage to machinery by monitoring operational pressure.
- Motion Detection in Security Applications: Detecting unauthorized access or movement in secured areas.
- Light Intensity Monitoring in Greenhouses: Optimizing lighting for plant growth.
- Air Quality Monitoring: Ensuring a healthy and comfortable environment by monitoring CO2 levels and other pollutants.