Advanced Pollution Monitoring
Air Pollution Monitoring and Annotation System
The APMA System is an innovative solution for air pollution monitoring and source allocation. It uses cutting-edge sensors to detect fine dust particles (PM2.5, PM10, and ultrafine dust) and environmental parameters like temperature, humidity, and pressure. These measurements are crucial for understanding the health risks associated with air pollution, which is linked to millions of premature deaths globally.
Data is collected at strategically placed measuring stations, which are either standalone solar-powered units or integrated into existing infrastructure like streetlamps. This data is transmitted to a cloud platform via 4G for analysis, enabling real-time monitoring, trend prediction, and automated reporting. The APMA System empowers municipalities, governments, and researchers to assess and combat pollution effectively.
Successful operation in live projects
Continuous air quality monitoring
Solar-Compatible Power options
Summary
The APMA System provides unparalleled air pollution monitoring, offering real-time data collection and analysis. It measures fine dust levels, allocates pollution sources, and automates reporting. The intuitive dashboard allows users to visualize trends, download data, and forecast future scenarios to mitigate pollution.
The system is highly customizable, with options to add sensors for specific requirements. It operates independently or can be integrated with local power grids, making it a versatile solution for diverse environments.
Capabilities
- Real-Time Monitoring: Detect PM2.5, PM10, and ultrafine particles
- 4G Connectivity: Ensure seamless data transmission to the cloud
- Trend Analysis: Identify pollution patterns and long-term trends
- Standalone Operation: Solar-powered or grid-connected options
- Remote Updates: Over-the-air software updates for hassle-free maintenance
Summary
The APMA System is a robust solution for monitoring and managing air pollution in urban and industrial settings. It provides actionable insights to policymakers, researchers, and environmental agencies to mitigate pollution and improve public health.
Applications by Technology:
- Machine Learning: Analyze pollution data for predictive insights
- Big Data: Handle large datasets to identify pollution trends
- IoT: Enable real-time connectivity across monitoring stations
- Source Allocation: Attribute pollution to specific sources
- Photonics: Utilize advanced sensing technologies
Applications by Market:
- Municipalities: Monitor air quality in urban areas
- Government Institutions: Inform policies for cleaner environments
- Industry: Assess pollution levels near manufacturing zones
- Environment: Understand and mitigate the impact of air pollution
- Transportation: Monitor emissions from vehicles and infrastructure
- Research: Provide data for academic and scientific studies
| Technical Specifications of the APMA System | ||
|---|---|---|
| Parameter | Range | Units |
| Finedust (PM2.5, PM10) | 0 - 500 | µg/m³ |
| Particle Count | PC0.3 - PC10 | Counts/m³ |
| Ultra-Fine Dust | 20 - 300 | nm |
| Temperature | -10 to +45 | °C |
| Humidity | 0 - 85 | %RH |
| Pressure | 300 - 1100 | hPa |
| Power Specifications | ||
|---|---|---|
| Power | Nominal | Units |
| Power Source | Grid, solar panel, or lamppost | - |
| Operating Time | 24/7 | - |
| Physical Dimensions | ||
|---|---|---|
| Dimensions | Details | Units |
| Weight | Customizable | g |
| Dimensions | Varies by installation | mm |
