From: A comprehensive review on indoor air quality monitoring systems for enhanced public health
Sr. No. | References | Year | Parameters considered | Architecture | Communication Interface | MCU | Data Access | Remarks |
---|---|---|---|---|---|---|---|---|
1. | Kang and Hwang [40] | 2016 | VOC, PM10, CO, temperature and RH | IoT | Bluetooth, Wi-Fi and RF communication module | TI MSP430 | Wb server | Comprehensive Real-Time Indoor Air-Quality Level Indicator was designed |
2. | Idrees et al. [48] | 2018 | RH, temperature, O3, SO2, NO2, CO, PM2.5 and PM10 | IoT | ZigBee and Wi-Fi ESP8266 | ATmega328P | Web-based IBM Watson IoT platform, Mobile App | Automatic calibration system was developed fothe r sensor system, performed detailed power consumption and computational cost analysis |
3. | Sivasankari et al. [49] | 2018 | RH, temperature, NO2, CO and concentrations of smoke | IoT | UART | Raspberry Pi | IP Address on Web | Data can be monitored from anywhere by logging into IP address. |