{Reference Type}: Journal Article
{Title}: Wearable Sensor Node for Safety Improvement in Workplaces: Technology Assessment in a Simulated Environment.
{Author}: Formisano F;Dellutri M;Massera E;Giudice AD;Barretta L;Di Francia G;
{Journal}: Sensors (Basel)
{Volume}: 24
{Issue}: 15
{Year}: 2024 Aug 1
{Factor}: 3.847
{DOI}: 10.3390/s24154993
{Abstract}: Personal protective equipment (PPE) has been universally recognized for its role in protecting workers from injuries and illnesses. Smart PPE integrates Internet of Things (IoT) technologies to enable continuous monitoring of workers and their surrounding environment, preventing undesirable events, facilitating rapid emergency response, and informing rescuers of potential hazards. This work presents a smart PPE system with a sensor node architecture designed to monitor workers and their surroundings. The sensor node is equipped with various sensors and communication capabilities, enabling the monitoring of specific gases (VOC, CO2, CO, O2), particulate matter (PM), temperature, humidity, positional information, audio signals, and body gestures. The system utilizes artificial intelligence algorithms to recognize patterns in worker activity that could lead to risky situations. Gas tests were conducted in a special chamber, positioning capabilities were tested indoors and outdoors, and the remaining sensors were tested in a simulated laboratory environment. This paper presents the sensor node architecture and the results of tests on target risky scenarios. The sensor node performed well in all situations, correctly signaling all cases that could lead to risky situations.