At the time of the Sewol Ferry disaster in Korea, there was a slow response and a lack of appropriate action taken. Since then, there has been a strong desire to quickly establish a national security and social safety network. As a result, government policies in this area have been improving.
In...
At the time of the Sewol Ferry disaster in Korea, there was a slow response and a lack of appropriate action taken. Since then, there has been a strong desire to quickly establish a national security and social safety network. As a result, government policies in this area have been improving.
In Korea, 12 percent of the total population is more than 65 years old. This number has been increasing every year; for example, one out of five people are elderly householders. The danger of falling accidents for older workers is higher due to their loss of physical remains active, and accordingly, the danger of accidents has risen. Accidents related to falling can cause not only physical impairment, but also social and psychological disorders. Moreover, due to both direct and indirect complications, death can occur.
However, while the prevention of falling accidents and response policies are set up at the level of the government and the industrialized world, more research and development on this issue is needed in order to come up with measures to help individuals at the moment of an accident. This study aims to develop wearable smart safety clothing which can protect an individual’s body, such as their neck, spine, or back in the event of a falling accident. In addition, the study hopes to contribute to understanding of how to deal with and respond to accidents in real time, prevent accidents from occurring, and provide effective follow-up management.
The literature review covers negligent accidents and provides analysis of what smart safety clothing is, as well as its related core technology and major parts. It also discusses an accident judgement algorithm used in combination with an embedded system and an inflator. When these components are combined, wearable smart safety clothing becomes a reality. With smart safety clothing, when sensors perceive accidents, embedded systems trigger the inflator and expand an airbag so that in the moment of an accident, smart safety clothing can protect major parts of the body. This study supports further research into the effectiveness of smart safety clothing with a variety of functions.
This research attempted to execute a variety of test to evaluate the safety and effectiveness of the smart safety clothing. In order to do it, core data was collected and analyzed to judging potential falling accidents in a variety of situations. The stability of the embedded system and accident judgement algorithm was checked. The evaluation and satisfaction level were also analyzed for potential customers, who included specialists in textile design and security equipment.
The academic purpose of the study is: to develop wearable smart safety clothing, The research subject is closely related to digital convergence, which is integrated electronic engineering, software engineering related to embedded systems, car engineering such as airbag inflating systems, and textile engineering such as outdoor jackets. This research results provide a theoretical foundation on further studies of the digital convergence business fields.
In the practical aspect, the outcomes of this study are the product of consilience with several technology such as embeded software and sensors, micro-controllers, automobile such as inflators and airbags, and textile. Moreover, this research provides future strategy for building up the industry ecosystem on smart safety clothing in order to expand the number of people who is wearing the clothing. In the industrial aspect, research result - smart safety clothing is the fruit of convergence of industry such as electronic, automobile, and textile.
At the time of the Sewol Ferry disaster in Korea, there was a slow response and a lack of appropriate action taken. Since then, there has been a strong desire to quickly establish a national security and social safety network. As a result, government policies in this area have been improving.
In Korea, 12 percent of the total population is more than 65 years old. This number has been increasing every year; for example, one out of five people are elderly householders. The danger of falling accidents for older workers is higher due to their loss of physical remains active, and accordingly, the danger of accidents has risen. Accidents related to falling can cause not only physical impairment, but also social and psychological disorders. Moreover, due to both direct and indirect complications, death can occur.
However, while the prevention of falling accidents and response policies are set up at the level of the government and the industrialized world, more research and development on this issue is needed in order to come up with measures to help individuals at the moment of an accident. This study aims to develop wearable smart safety clothing which can protect an individual’s body, such as their neck, spine, or back in the event of a falling accident. In addition, the study hopes to contribute to understanding of how to deal with and respond to accidents in real time, prevent accidents from occurring, and provide effective follow-up management.
The literature review covers negligent accidents and provides analysis of what smart safety clothing is, as well as its related core technology and major parts. It also discusses an accident judgement algorithm used in combination with an embedded system and an inflator. When these components are combined, wearable smart safety clothing becomes a reality. With smart safety clothing, when sensors perceive accidents, embedded systems trigger the inflator and expand an airbag so that in the moment of an accident, smart safety clothing can protect major parts of the body. This study supports further research into the effectiveness of smart safety clothing with a variety of functions.
This research attempted to execute a variety of test to evaluate the safety and effectiveness of the smart safety clothing. In order to do it, core data was collected and analyzed to judging potential falling accidents in a variety of situations. The stability of the embedded system and accident judgement algorithm was checked. The evaluation and satisfaction level were also analyzed for potential customers, who included specialists in textile design and security equipment.
The academic purpose of the study is: to develop wearable smart safety clothing, The research subject is closely related to digital convergence, which is integrated electronic engineering, software engineering related to embedded systems, car engineering such as airbag inflating systems, and textile engineering such as outdoor jackets. This research results provide a theoretical foundation on further studies of the digital convergence business fields.
In the practical aspect, the outcomes of this study are the product of consilience with several technology such as embeded software and sensors, micro-controllers, automobile such as inflators and airbags, and textile. Moreover, this research provides future strategy for building up the industry ecosystem on smart safety clothing in order to expand the number of people who is wearing the clothing. In the industrial aspect, research result - smart safety clothing is the fruit of convergence of industry such as electronic, automobile, and textile.
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