Indoor Air Quality Monitoring

Solution Group

Industry

Environmental Management
Building and Construction

PoC Duration

Iotellect Match

3-10 days
AI powered Low Code IoT/IIoT Platform

Safeguard health and productivity of residents and workers. Implement a solution to monitor and control crucial air quality factors like particulate matter, CO2, VOC, temperature, and humidity. Generate actionable insights and implement automated corrective actions to cultivate a healthier indoor environment. Minimize exposure to harmful airborne pollutants, reduce the risk of infections and allergies, and enhance occupant satisfaction with a comprehensive IoT application enablement platform.

Iotellect is a low code IoT/IIoT development platform. It does not work as an out-of-the-box solution or product. Instead, it helps you to monetize your IoT know-how by dramatically lowering labor costs and cutting time-to-market for your product, service, or solution. It allows business-oriented IoT professionals to join the development process by converting their IoT market knowledge directly into product features and specific value delivered to your end customers.

Build Your IoT Application

Connect Your

Indoor Air Quality Monitoring Devices

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PLCs
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HVAC equipment
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Sensor hubs
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IoT gateways
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Sensors
for PM, VOC, NO2, CO, CO2, O3 and more
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Temperature and humidity sensors
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Industrial multi-gas detection equipment
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Air quality Index (AQI) monitors
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Gas leak detectors
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Commercial and industrial air purifiers
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Air duct monitoring devices
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Wearable air quality monitors
  • Out-of-the-box drivers for Modbus, BACnet, OPC, and other common building automation protocols are used to connect a wide variety of air quality sensors and HVAC control systems
  • Drivers for specific vendor protocols, such as DALI or KNX, ensure seamless integration with specialized lighting and ventilation equipment
  • Agents running on embedded gateways or Linux PLCs provide edge-side data acquisition, buffering, and local control even when cloud connectivity is intermittent
  • Remote configuration and device management tools are used to set up monitoring parameters, adjust schedules, and perform firmware updates for all connected devices

Connectivity and Management

  • Open APIs and SDKs are used to integrate the air quality monitoring solution with building management systems (BMS), facility management software, or enterprise applications
  • Web services enable data exchange with third-party applications, such as weather data providers, for enriching the air quality analysis with external factors
  • Data export capabilities provide flexible data sharing with billing systems, tenant portals, or compliance reporting tools

Integration

  • A high-performance historian with configurable storage options provides flexible storage and efficient retrieval of historical air quality data
  • Advanced alerting ensures accurate and timely notifications when air quality parameters deviate from acceptable ranges
  • The event correlation engine identifies meaningful relationships between various sensor readings and system events, allowing for automated analysis and response
  • Statistical process control enable long-term trend analysis of air quality parameters and comparison of current readings to historical averages, enabling early detection of degradation patterns
  • The machine learning module can be used to build predictive models that forecast future air quality conditions based on historical data, occupancy patterns, and external factors like weather forecasts

Analytics

  • Interactive dashboards are used to visualize real-time air quality readings, historical trends, and actionable insights in a clear and intuitive manner
  • The UI Builder with drag-and-drop functionality enables quick and easy design of custom dashboards, maps, and reports without requiring programming knowledge
  • HMI widgets, charts, and maps can be embedded into existing building control interfaces or tenant portals, providing a unified view of building operations
  • Dynamic SVG images and multi-layer maps with geo-fencing support are used for visualizing air quality zones, sensor locations, and other relevant spatial information
  • Applications can be accessed via the multi-server unified console application, web interface, or mobile-friendly HMIs, providing flexible user access options for building managers, tenants, and maintenance staff

UI/UX

Key Features
of Your Indoor Air Quality Monitoring Solution

Customers and Partners

  • System Integrators
  • Engineering Companies
  • Building Automation Vendors
  • Facility Management Companies
  • Manufacturing and Mining Enterprises
  • Industrial Hygiene and Environmental Consulting Firms
  • Healthcare and Educational Institutions
  • Commercial Property Owners and Managers

Solution Users and Developers

  • Dedicated low code developers
  • Building automation engineers
  • IoT solution architects
  • HVAC engineers
  • Environmental health and safety professionals
Customer success team
Community
Online training

Assistance