Internet of things (IOT) has become a promising technological paradigm and attracted several analysis interests in recent years. it's expected that there'll be twenty-six to fifty billion web connected devices by 2020 and one hundred billion by 2030. associate degree IOT will enhance performance of wireless detector networks (WSNs) particularly in environmental observance and attention applications. With the emergence of IOT, users will simply read the period environmental and physiological information from web-browser or mobile applications at anyplace and anytime. wearable body space network (WBAN) may be a special purpose WSN that's typically utilized in attention environments to observe physiological signals that may improve the standard of life, and consequently health and wellbeing, as an example, a gliding joint worn wearable system for photo plethysmogram (PPG) observance a WBAN with motion associate degreed cardiogram (ECG) sensors for rehabilitation and an edged-based WBAN healthcare observance system with heartrate observance. excluding attention applications, WBANs have additionally been wont to monitor environments. For instance, the work monitors temperature, humidness and ultraviolet (UV) for safety applications. there's not a lot of work covering both environmental and physiological parameters observance. For instance, the work incessantly monitors the surroundings and health of the topic for chronic respiratory diseases safety is vital for industrial employees perpetually shift operating environments between indoor and outside.
ABSTRACT
A wearable sensor node aimed at monitoring harmful environmental conditions for safety applications. Safety and health of workers are important for industrial workplace. An IOT network system which can monitor both environmental and physiological sensor. The proposed network system incorporates multiple wearable sensors to monitor environmental and physiological parameters. The wearable sensors on different subjects can communicate with each other and transmit the data to a gateway via a Lora network. Once harmful environments are detected and the sensor node will provide an effective notification and warning mechanism for the users. A smart IoT gateway is implemented to provide data processing, local web server and cloud connection. After the gateway receives the data from wearable sensors, it will forward the data to an IoT cloud for further data storage, processing and visualization. The gateway can also enable edge computing to support time dependent applications to improve the network reliability and availability.
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