Design the network
Match sensor locations, parameters, density, connectivity, and energy requirements to programme objectives.
For government, research & funders
Deploy connected sensor networks and analytics that reveal local patterns, support scientific inquiry, and give programmes a stronger basis for targeted air-quality action.
See the approach ↓Match sensor locations, parameters, density, connectivity, and energy requirements to programme objectives.
Use low-power, connected devices—including solar-compatible options described by Respirer—for distributed measurement.
Combine device management, calibration workflows, and cloud monitoring to maintain useful data across the network.
Apply maps, visualizations, alerts, reports, and research analysis to understand patterns and guide interventions.
Stationary, mobile, gas, and weather-capable monitors connected to cloud analytics, visualizations, reporting, and programme-level support.
View source products ↗Devices deployed across 25+ cities, according to Respirer’s website.
atmos sensors stated for phase one of Project AMRIT in Uttar Pradesh and Bihar.
Respirer states its sensor and climate-data work began before its 2017 incorporation.
Figures and implementation descriptions are attributed to Respirer’s published website. Confirm current validity, technical scope, and procurement requirements directly with Respirer.
The company website states a network of more than 2,500 devices across over 25 cities and describes a 700+ sensor first phase for Project AMRIT.
Respirer lists scientific publications, reports, and projects with research institutions. Study design, data quality protocols, and access terms should be defined for each programme.
Respirer states that its products are scientifically validated against Federal Equivalent Method-grade equipment. The precise validation protocol, model coverage, and current documentation should be reviewed during procurement.