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Door-Lock System to Detect and Transmit in Real Time according to External Shock Sensitivity

외부 충격 감도에 따른 실시간으로 탐지하고 전송하는 Door-Lock 시스템

  • Jeon, Byung-Jin (Department of Information Security, Tongmyong University) ;
  • Han, Kun-Hee (Division of Information & Communication Engineering, Baekseok University) ;
  • Shin, Seung-Soo (Department of Information Security, Tongmyong University)
  • 전병진 (동명대학교 정보보보학과) ;
  • 한군희 (백석대학교 정보통신공학부) ;
  • 신승수 (동명대학교 정보보보학과)
  • Received : 2018.04.17
  • Accepted : 2018.07.20
  • Published : 2018.07.28

Abstract

The purpose of this study is to prevent the malicious user from breaking the door-lock due to physical impact. If it matches the analog displacement value set in the door-lock system, it protects the body and property by transmitting damage information in real time to the manager smart phone. The research suggests a system that transmits damage information in real time to registered users when door-lock is damaged by physical impact. Then compare the impact information sensed by the door lock with the data of the sensitivity control unit. In the web server of the proposed system, after impact information transmitted from Door-Lock is stored in the DB, if the impact information is larger than the shock detection transmission reference value stored in the DB, it is transmitted to the administrator in real time by SMS module so that illegal access information.

Keywords

Door-Lock;Arduino;SMS;Shock Detection;Sensitivity Adjustment

References

  1. J. R. Cho, H. S. Kim, D. K. Chae & S. J. Lim (2017). Smart CCTV Security Service in IoT(Internet of Things) Environment, Journal of Digital Contents Society 18(6), 1135-1142,
  2. D. G. Jeong (2017). A Study on IoT-Related Industry Trend, The Korea Institute of Information and Communication Engineering, Korea Institute of Information Technology Magazine 15(1), 31 -37,
  3. H. J. Hwang, K. Y. Kim, I. & K. Ha. (2017). A Digital Door Lock System Using Time Synchronous One Time Password, Journal of the Korea Institute of Information and Communication Engineering 21(5), 1027-1034. https://doi.org/10.6109/jkiice.2017.21.5.1027
  4. E. J. Kim, D. H. Jeong, S. Y. Hwang & J. J. Chi (2017). Door-lock Module of IoT Using NFC Communication and Application IMLOCK, Proceedings of Symposium of the Korean Institute of communications and Information Sciences, Journal of Korean Institute of Information Technology 13(6), 779-780.
  5. J. Y. Jung & S. O. Moon. (2015). An automatic door-lock system utilizing time and applications, Proceedings of KIIT Summer Conference, 432-434.
  6. S. Y. Lee, S. H. Hong, S. B. Seo & Y. J. Rho (2016). Development of Door Lock System based on Face recognition and Dynamic Key Pad, Korea Information Science Society, 1513-1515.
  7. D. I. Sun, M. S. Kang, K. C. Kim, C. U. Ji & J. W. Ha. (2015). A Study of Vehicle Identification System Working with RFID and Crash Detecting Sensor, Korean Society of Precision Engineering, 126-127.
  8. M. S. Kim, H. S. Ko, B. M. Lee, W. J. Lim & K. H. Lee. (2014). Implementation of an Interactive Paper Airplane Game based on SMS Clients, a PHP Server, and Arduino, Proceedings of the Korean Society of Computer Information Conference 22(1), 67-70.
  9. D. G. Seo, H. S. Ko, & Y. D. Noh, Design and Implementation of Digital Door Lock by IoT, KIISE Transactions on Computing Practices 21(3), 215-222. https://doi.org/10.5626/KTCP.2015.21.3.215
  10. S. W. Lee, S. M. Park & K. B. Sim, Smart Door Lock Systems using encryption technology, Journal of Korean Institute of Intelligent Systems, 27(1), 065-071.
  11. S. B. Cha, Y. D, Han, J. E, Na, Y. R. Lee & J. H. Kim. (2016). Android and Arduino development environment settings of wireless communication for IoT, Korea Information Science Society, 98-100.
  12. S. W. Lee, S. M. Park, & K. B. Sim. (2016). One Time Password-Based SEED Algorithm for IoT Systems, Journal of Institute of Control, Robotics and Systems 22(9), 766-772. https://doi.org/10.5302/J.ICROS.2016.16.0058
  13. S. K. Hong, S. B. Chae & J. H. Kim, Fluttering Characteristics of Free-falling Plates, Journal of The Korean Society of Visualization 15(2), 33-40. https://doi.org/10.5407/JKSV.2017.14.2.033
  14. B. H. Park & Y. S. Yu. (2013). Calibration of Fringe Reflection Profilometry by Displacement Measurements. Journal of Korean Institute of Information Technology, 11(1), 51-61.
  15. S. H. Shin, G. S. Lee, & J. K. Jeong. (2017). A Study on Efficacy of Interrupt Forwarding for Asynchronous Readahead in High-Performance Storage Environment. KOREA INFORMATION SCIENCE SOCIETY, 1481-1483.