Assessment of Design and Implementation of a Smart Wearable Safety Jacket
Rania H. Elabd
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Abdelhameed M. Elkhadrgy
*
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Mohamed E. Abogabal
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Omar E. Saber
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Salma T. Eid
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Rafat G. Mohamed
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Mostafa E. Shosha
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Menna M. Ali
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Nader M. Emam
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Hadeer A. Ebeed
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Hala A. Ramadan
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
Amany A. Megahed
Electronic and Communication Department, Higher Institute of Engineering and Technology in New Damietta, Damietta-34517, Egypt.
*Author to whom correspondence should be addressed.
Abstract
Aims: Smart clothing aims to balance fashion, engineering, interaction, user experience, cybersecurity, design, and science to create technologies that can anticipate needs and desires.
Study Design: The study aims to develop and systematically test a wearable smart safety vest to enhance industrial worker safety by monitoring environmental and physiological conditions in real time.
Place and Duration of Study: Conducted at [The Higher Institute of Engineering and Technology in New Damietta.] over [January 2024 to December 2024].
Methodology: Possibility of employing smart textiles that can communicate with smartphones to process biometric information like heart rate, temperature, respiration, stress, movement, acceleration, or even fingerprints. hormone levels, indicating the start of a new age in retail. The main requirement for developing smart, Internet of Things-enabled apparel is covered in this article, along with the possible long-term impacts of smart clothing on business strategies.
Results: The miner receives alert messages from several sensors via the app, and various beep sounds are produced for each sensor. The app allows you to view the automations, DataStream, events, and other sensor data. Additionally, it displays the various sensors' readings.
Conclusion: The fundamental kinds and elements of smart IoT clothing and wearables are explained, along with their main requirements and some of the most recent uses for smart clothing. There is also a global IoT architecture available. In order to provide suggestions for the creators of a network that would eventually link apparel to other Internet of Things devices, this article explores the background and present status of smart clothing: Smart Clothing on the Internet.
Keywords: Internet of things, humidity, internet protocol, temperature, sensors, smart clothes, wireless communication, smart garments, wearables