과제정보
이 논문은 2019년도 정부(교육부)의 재원으로 한국연구재단의 지원을 받아 수행된 연구임(NRF-2019R1I1A1A01041013).
참고문헌
- Cho, H. S., Park, S. H., Kang, D. H., Lee, K. H., Kang, S. J., Han, B. R., Oh, J. H., Lee, H. D., Lee, J. H., & Lee, J. H. (2015). Performance evaluation of fabric sensors movement-monitoring smart clothing based on the experiment on a dummy. Science of Emotion & Sensibility, 18(4), 25-34, DOI: 10.14695/KJSOS.2015.18.4.25
- Cho, H. S., Yang, J. H., Lee, K. H., Lee, J. H., Park, S. Y., Choi, H. I., Jeon, H. S., & Lee, J. H. (2018). Development of wearable sensing and feedback product design for movement monitoring. Science of Emotion & Sensibility, 21(3), 165-176. DOI: 10.14695/KJSOS.2018.21.3.165
- Choi, M. Y., Choi, D. H., Jin, M. J., Kim, I. S., Kim, S. H., Kim, J. Y., Choi, S. Y., Lee, J. M., & Kim, S. W. (2009). Mechanically powered transparent flexible charge generating nanodevices with piezoelectric ZnO nanorods. Advanced Materials, 21(21), 2185-2189. https://doi.org/10.1002/adma.200803605
- Choi, Y. M., Lee, M. G., & Jeon, Y. H. (2017). Wearable bio-mechanical energy harvesting technologyes. Energies, 2017, 10, 1483. DOI: 10.3390/en10101483. Retrieved from http://cache.yahoofs.jp/search/cache
- International Organization for Standardization. (2013). ISO 20471: 2013(en) High visibility clothing - Test methods and requirement. Retrieved form https://www.iso.org/obp/ui/#iso:std:iso:20471:ed-1:v2:en.
- International Organization for Standardization. (2013). ISO 20471: 2013 High visibility clothing -Test methods and requirements. Retrieved from https://www.iso.org/standard/42816.htm.
- Japanese Industrial Standards. (2015). JIS T 8127: 2015 High-visibility warning clothing. Retrieved from http://kikakurui.com/t8/T8127-2015-01.html.
- Jung, S. Y., Kim, Y. S., Kim, S. W., & Kang, J. Y. (2012). Development of new technology for patchtype piezoelectric energy harvesting devices using eco-friendly materials. Advanced Materials, 24(45). Retrieved from http://news.khan.co.kr/kh_news/khan_art_view.html.etns.
- Juris Blums, Ilgvars Gornevs, Galina Terlecka, Vilnis Jurkans, & Ausma Vilumsone. (2018). Wearable human motion and heat energy harvesting system with power management. Chapter 3. DOI: 10.5772/intechopen.74417.
- Kim, H. J., Kim, J. H., Jun, K. W., Seung W. C., Kwon, O. H., Park, J. Y., Kim, S. W., & Oh, I. K. (2016). Silk nanofiber-networked bio-triboelectric generator: Silk Bio-TEG. Advanced Materials, 2016. 1502329.
- Kim, S. G. (2012). First development of eco-friendly patch-type piezoelectric energy harvesting device. Advanced Institute of Convergence Technology. Retrieved from https://www.etnews.com/2012.11.27.
- Kim, S. W., & Lee, J. H. (2014). The latest technology and research of energy harvester. [Electronic Materials]. Energy Trend, 20-27.
- Korean Agency for Technology and Standards. (2016). KS K ISO 20471 High visibility clothing - Test methods and requirements. Korean Standards & Certifications. Retrieved from https://standard.go.kr/KSCI/standardIntro/getStandardSearchView.do?menuId=919&topMenuId=502&upperMenuId=503&ksNo=KSKISO20471&tmprKsNo=KS_K_NEW_2015_1243&reformNo=00.
- Lee, J. H., & Kim S. W. (2014). Energy harvester's technology and research trends. Bulletin of the Korean Institute of Electrical and Electronic Material Engineers, 27(3), 26-37.
- Leonov, V. (2015). Chapter 2. Energy Harvesting for Self-Powered Wearable Devices. Bonfiglio, A., and Rossi D. (eds). (2011). Wearable Monitoring Systems. DOI: 10.1007/978-1-4419-7384-9_2, Springer Business Media, LLC. from https://www.researchgate.net/publication/267816893. All content following this page was uploaded by V. Leonov on 23 January 2015.
- Min, C. H. (2014). Design and fabrication of electromagnetic energy harvester. (Unpublished doctoral dissertation). Catholic University, Gyunggido Korea.
- Momoi, N. (2018). Support the rising sports market. Toray Management Institute, Fiber Trend, 3/4 Monthly, 59-62.
- Newcastle City Council. (2007). Guideline on the safety of children's clothing. Retrieved from https://www.newcastle.gov.uk/business/trading-standard/product-safety/guidance on the safety of children's clothing.
- Nonaka, T. (2019). Toray group's global environment business immersion and new growth strategy. Toray Management Institute, Fiber Trend, 5/6 Monthly, 4-45.
- Park, B. I. (2016). A study the application of plastic arts and industrial design using energy harvesting device in next generation -focused on a case study of the novel solar cells and piezoelectric device-. Korea Society of Basic Design and Art, 17(3), 161-173.
- Park, S. H., Cho, H. S., Yang J. H., Yun, D. Y., Yun, K. S., & Lee, J. H. (2013). An exploration on the piezoelectric energy harvesting clothes based on the motion analysis of the extremities. Science of Emotion & Sensibility, 16(1), 85-94, 2013. DOI: 10.14695/KJSOS.2013.16.1.85.
- Park, S. J, Kim, S. W., & Won, C. H. (2019). Electrical and electronic engineering design and making of high-visibility safety vest using retrorereflective film and LED. In Proceeding of 2019 Spring Conference of Journal of Korean Society of Clothing and Textiles, 140-141.
- Park, S. J., & Kim S. W. (2020). Designing and fabricating of the high-visibility smart safety clothing. Science of Emotion & Sensibility, 23(4), 105-116, 2020. DOI: 10.14695/KJSOS.2020.16.23.4.3.
- Park, S. J., Kim S. W., & Won, C. H. (2020). Electrical and electronic engineering design and making of the high-visibility suspender-type safety belt using retroreflective films and LEDs. International Congress on Clothing Textile(ICCT), In Proceeding of 2020 Spring Conference Proceeding, 131-133, Korea.
- Park, S. J., Park, S. H., & Lee, J. H. (2009). A study on the modular design of smart phontonic sports clothing based on optical fiber technology, Journal of the Science of Emotion & Sensibility, 12(4), 393-402.
- Park, S. J., & Joung, J. Y. (2020). Fabricating of the system and the prototype of smart safety clothing applying energy harvesting. In Proceeding of 2020 Fall Conference of Korean Society for Emotion & Sensibility.
- Rebeccah P. F. (2016). Smart textiles for designer. Laurence King Publishing Ltd., London, UK.
- Self, L. (2015). Intelligent fiber sensor technology with green energy harvesting function. Retrieved from https://blog.naver.com/in4maker/220415846568).
- Suh, S. E., & Roh, J. S. (2017). Development status of energy harvesting fashion products. Journal of Fashion Design, 17(4), 19-38. DOI: 10.18652/2017.17.4.2.
- Suh Y. D., Kwon, J. H., & Ko, S. H. (2014). Trend on nanomaterials based on smart wear. Fashion and Technology, 11, 30-35.
- Teijin. (2015). Your partner for advanced carbon fiber solutions. https://teijin.com/news/2015/ebd 150724_07.html.
- Yoon, B, G. (2016). Mechanical energy harvesting based on piezoelectricity and tribolectricity. (Unpublished master' thesis). Inha University. Incheon Korea.
- Yoon, J. A., Oh, Y. J., Oh, H. W., & Lee, Y. H. (2018). Development of energy-harvesting based safety apparel for night workers. The Research Journal of the Costume Culture, 26(4), 503-518. DOI: 1029049/rjcc2018.26.4. https://doi.org/10.29049/rjcc2018.26.4