디지털융복합연구 (Journal of Digital Convergence)

  • 제20권5호
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  • Pages.637-642
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  • 2022
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  • 2713-6434(pISSN)
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  • 2713-6442(eISSN)
한국디지털정책학회 (The Society of Digital Policy and Management)
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심전도 신호를 이용한 개인 바이오인증 기술 융합과 smart key 기능이 탑재된 wearable device 개발

Development of wearable device with smart key function and convergence of personal bio-certification and technology using ECG signal

  • 방걸원 (광주대학교 AI자동차학과)
  • 투고 : 2022.04.25
  • 심사 : 2022.05.20
  • 발행 : 2022.05.28
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초록

심전도(ECG, electrocardiogram) 신호를 이용한 본인 인증기술은 기존의 바이오 인증을 대체할 수 있는 본인 인증기술로 주목받고 있다. 디지털 전자키를 인식하는 장치를 차량에 탑재하여 자동차와 무선으로 데이터를 송수신할 수 있게 하고, 스마트폰 등을 활용해 자동차의 차 문을 잠금 또는 해제하거나, 시동을 걸 수 있는 기능을 스마트폰을 통해 차량 제어할 수 있다. 그러나 스마트키는 보안에 취약하여 이를 해결하고 운전자의 편의성을 제공하기 위해 바이오 인증기술을 적용한 스마트키를 연구하였다. 심전도를 이용한 개인인증 알고리즘을 시계 형태의 웨어러블 디바이스에 탑재하여 바이오인증을 하고 개인인증이 완료되면 자동차의 스마트키 기능을 할 수 있었다. 인증율 95%를 달성하였다. 운전자는 스마트키를 소지할 필요가 없고, 분실 및 해킹에 안전하게 보호할 수 있는 대안으로 스마트키를 제안한다. 심전도를 이용한 개인 인증기술을 활용한 스마트키는 개인인증을 통해 다양한 분야에 적용이 가능하고 향후 심전도를 이용한 본인확인 장치 등에 적용할 수 있는 방법을 연구할 계획이다.

Self-authentication technology using electrocardiogram (ECG) signals is drawing attention as a self-authentication technology that can replace existing bio-authentication. A device that recognizes a digital electronic key can be mounted on a vehicle to wirelessly exchange data with a car, and a function that can lock or unlock a car door or start a car by using a smartphone can be controlled through a smartphone. However, smart keys are vulnerable to security, so smart keys applied with bio-authentication technology were studied to solve this problem and provide driver convenience. A personal authentication algorithm using electrocardiogram was mounted on a watch-type wearable device to authenticate bio, and when personal authentication was completed, it could function as a smart key of a car. The certification rate was 95 per cent achieved. Drivers do not need to have a smart key, and they propose a smart key as an alternative that can safely protect it from loss and hacking. Smart keys using personal authentication technology using electrocardiogram can be applied to various fields through personal authentication and will study methods that can be applied to identification devices using electrocardiogram in the future.

키워드

과제정보

This Study was conducted by Research funds from Gwangju University in 2022.

참고문헌

  1. Young-Joo, Chung. (2011). An Efficient VEB Beats Detection Algorithm Using the QRS Width and RR Interval Pattern in the ECG Signals. The Korea Institute of Convergence Signal Processing, 12(2),69-101.
  2. Jae-Wook Heo & Jinsun Woo &,Moon Seog Jun. (2019). Implementation and Evaluation of ECG Authentication System Using Wearable Device. The Korea Academia-Industrial cooperation Society. 20(10), 1-6.
  3. Jang Won Kim. (2020). A Study on Smart Door Lock using Internet of Things. Journal of Korea Institute of Information, Electronics, and Communication Technology.13(6), 539-544. https://doi.org/10.17661/JKIIECT.2020.13.6.539
  4. Sangracg Lee & Jin-Tae Park &, Byoung-Hyoun Woo & CHOI HAN GO. (2014).Video Digital Doorlock System for Recognition and Transmission of Approaching Objects. KIPS Transactions on Software and Data Engineering (KTSDE).3(6), 237-242. https://doi.org/10.3745/KTSDE.2014.3.6.237
  5. Gul-Won Bang & Yong-ho Kim.(2018). Panorama laser lane system based IoT. International Journal of Engineering & Technology, 7(2), 46-49.
  6. Soo-bum Kwon & Jun-Hyoup Shin. (2018). A Guide to Placement of Electrocardiogram (ECG) Electrodes on Body and Implementation of a New ECG System with Changeable ECG Channel Electrodes. The Journal of Korean Institute of Communications and Information Sciences.43(4), 702-706. https://doi.org/10.7840/kics.2018.43.4.702
  7. Young-Joo Chung.(2011). An Efficient VEB Beats Detection Algorithm Using the QRS Width and RR Interval Pattern in the ECG Signals. The Journal of Korea Institute of Convergence Signal Processing. 12(2), 96-101.
  8. Young-Joo Chung.(2010). Development of QRS Detection Algorithm for Real-time ECG Monitoring System. Journal of Korean Institute of Information Technology. 8(5), 153-163.
  9. DENSO KOREA CORPORATION.(2016). WEARABLE SMART-KEY SYSTEM FOR VEHICLE. http://kpat.kipris.or.kr/kpat/biblioa.do?method=biblioFrame&applno=1020150097463.
  10. DENSO KOREA CORPORATION.(2016). WEARABLE SMART-KEY SYSTEM FOR VEHICLE. http://kpat.kipris.or.kr/kpat/biblioa.do?method=bibli oFrame&applno=1020150097462.
  11. DENSO KOREA CORPORATION.(2016). WEARABLE SMART-KEY SYSTEM FOR VEHICLE. http://kpat.kipris.or.kr/kpat/biblioa.do?method=biblioFrame&applno=11020150097468.
  12. Seung-Woo Kim & Dea-woo Park,(2020). Hacking attack and vulnerabilities in vehicle and smart key RF communication. Journal of Information and Communication Convergence Engineering. 24(8), 1052-1057.
  13. Yun-Sub Lee & Kyeong-Seob Kim & Jeong-Hee Yun & Sang-Bang Choi.(2009). The Design and Implementation of Automotive Smart-key System Using general-purpose RFID. The institute of Electronics Engineers of korea. 46(4), 42-50.
  14. ITgom.(2018). Cryptography - OTP Password Algorithm.. http://itqomcom.blogspot.com/2018/03/otp.html
  15. Hyundai Autron Co., Ltd.(2014). System and Method for Searching Smart Key of Vehicle. http://kpat.kipris.or.kr/kpat/biblioa.do?method=biblioFrame&applno=1020120144781.
  16. 1boon.(2019). How do I distinguish my car from a smart key that looks the same?. https://content.v.daum.net/v/5c457e50ed94d20001c90b31.