Oizom Polludrone - Ambient Air Quality Monitoring System
From Polludrone - Ambient Air Quality Monitoring System
Products Details
The Polludrone is an ideal choice for smart infrastructure applications like Smart Cities, Airports, Neighborhood, University Campuses, Schools, Highways, Tunnels, and roadside monitoring. Polludrone is the perfect ambient air quality monitoring system to understand the environmental health of a premise. The accurate air quality data from the Polludrone can be used by decision-makers for strategic planning and making data-driven infrastructure and policy level changes.
The Polludrone measures all major ambient parameters like PM1, PM2.5, PM10, PM100, Carbon Monoxide (CO), Carbon Dioxide (CO2), Sulfur Dioxide (SO2), Nitrogen Dioxide (NO2), Ozone (O3), Hydrogen Sulfide (H2S), Ambient Noise, Light, UV, Temperature, and Humidity. The Polludrone uses our patented e-breathing sampling technology that offers higher accuracy and near-reference data. By creating a dense network of data points, the Polludrone is powered to generate hyperlocal pollution data.
The Polludrone air quality monitoring system is communication agnostic. The device works on various wired and wireless communication protocols like GSM, WiFi, LoRA, Sigfox, NBIoT to transmit the data on the Oizom cloud in near real-time. Additionally, it has an inbuilt memory backup to ensure no data loss in network failure. Polludrone works seamlessly with Oizom IoT Terminal. Uses can visualize the data in a real-time dashboard, automated reports, and intelligent alerts on the platform. The data can also be accessed through Rest APIs for integration into 3rd party software and process automation. The Polludrone is your one-stop solution to monitor National Air Quality Index (NAQI)
Parameters
- Ultra Fine Particulate Matter (PM1) – UFPM
- Respiratory Suspended Particulate Matter (PM2.5) – RSPM
- Suspended Particulate Matter (PM10) – SPM
- Total Suspended Particulates (PM100) – TSP
- Carbon Monoxide (CO)
- Carbon Dioxide (CO2)
- Sulfur Dioxide (SO2)
- Nitrogen Dioxide (NO2)
- Nitrogen Oxide (NO)
- Ozone (O3)
- Hydrogen Sulfide (H2S)
- Ambient Noise
- Ambient Light and UV Radiation
- Temperature, Humidity, and Barometric Parameters
Product Features
Patent Pending Technology
Works on innovative e-Breathing technology for higher data accuracy
Solar Powered
Capable of running independently on solar power
Network Agnostic
Wide range of connectivity options like GSM / WiFi / LoRa / NBIoT/ Ethernet
Over-The-Air Update
Automatically upgradeable from a central server without any onsite visit
Compact
Light-weight and compact system installed at 12-15 feet (3.5-5 m) height
Real-Time Data
Continuous monitoring and real-time data transfer at configurable intervals
Weatherproof
IP65 grade enclosure for endurance against harsh weather conditions
3-Level Calibration
The third-party nodal agency, reference station co-location & spot calibration
Attachments
- Rain tipping bucket
- Flood sensor
- Ultrasonic Wind speed/direction sensor module
- Solar Charging Kit
Technology
Our sensing technology works on proven working principles like NDIR, Electrochemical Analysis, Semiconductor, Optical Measurement, and Laser-Scattering. In addition, as a part of our proprietary ‘Micro Active Sampling’ (e-breathing technology), we have a sophisticated suction-and-exhaust system for air sample collection and monitoring inside a controlled environment. The technology isolates the external environment’s effect on measurement to achieve 13% higher accuracy than the industry standards.
Laser Scattering: The sensor emits a laser beam to diffract through the air sample collected in the equipment. The intensity of the beam scattered from the particles provides particle size distribution and concentration data.
Electrochemical Analysis: The gaseous emission is treated electrochemically, where an external potential is applied. Each species, like CO2, H2S, CH4, is identified depending on their oxidation or reduction potential.
NDIR: The gases emitted from the location undergo Nondispersive Infrared Radiation where the sample air is subjected to infrared radiation. Different gaseous molecules absorb IR at different frequencies. The amount of IR absorbed gives the volumetric concentration of each gaseous constituent.
Data Accessibility
- Air Quality Data Overview
- Micro-analysis Dashboard
- Historical Data Analytics
- Air Quality Report
- Smart Alerts
- Historical Data-set Download
By building conditional algorithms and logic on the real-time air-quality data, environmental automation is possible.
Environmental.Ai platform can generate a Live Air-Quality Map using the Dense Air-quality data network.
Polludrone's Compatibility with Connectivity Options
Polludrone Solution is designed with an ultra-modular approach to accommodate any existing infrastructure. For power, Polludrone can work on External AC or DC power as well as Solar Power. For data transmission, Polludrone can communicate the data using various Wired and Wireless channels. GSM, GPRS, 3G, WiFi, LORA, LTE, SIGFOX are available for wireless data communication. Where Ethernet, Modbus, RS-485, RS-283 are the wired data-communication options. The air-quality data monitored by Polludrone can be transmitted to Oizom Cloud, which can be hosted on Shared or Private Infrastructure.
The data from Oizom Cloud can be served for different data solutions based on the end applications. Users can visualize the Polludrone data in Oizom Data Terminal. Additionally, it can publish the data on an Outdoor display. Air Pollution Maps can be generated using Polludrone Data. The data from Polludrones can be accessible in the Command & Control Centre (CCC) of a Smart City. The real-time data can be transmitted to 3rd party applications using secure end-point APIs. Read all case studies on air pollution to know more about the product application and use cases
Customer reviews
No reviews were found for Oizom Polludrone - Ambient Air Quality Monitoring System. Be the first to review!