Journal of Industrial Convergence (산업융합연구)

DAEHAN Society of Industrial Management (대한산업경영학회)
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Development of bicycle device to strengthen safety

안전 강화를 위한 자전거 장치 개발

  • Oh, Byung-Wuk (Dept. of Fashion & Jewelry Design, Gwangju University)
  • 오병욱 (광주대학교 패션.주얼리학부)
  • Received : 2019.12.09
  • Accepted : 2019.12.20
  • Published : 2019.12.31
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Abstract

With the growing number of people using bicycle, the number of bicycle accidents also has been increasing. It is said that bicycle accident can be reduced up to 11%~44% when riding a bicycle if LED light is used. The headlight of the bicycle makes exposure effect to the opposite side of bike rider while taillight makes exposure effect to the rear bike rider for improving safety. Bicycle safety device capable of displaying a change of direction by LED is implemented in this study in response to control button signal. This signal makes LED light which is installed in pedal and wheel of bicycle as a module type emitting or flickering during the fixed hour. Bicycle auxiliary device in pedal which is able to improve safety using LED when bikers are riding a bike at night is developed in this study. Bicycle safety device applying wireless communication technology will be expected alternative technology in the future to solve a social problem such as energy, environment, and safety.

자전거를 이용하는 사람들의 수가 증가함에 따라 자전거 사고의 수도 증가하고 있습니다. LED 조명을 사용하면 자전거를 탈 때 자전거 사고를 최대 11 % ~ 44 %까지 줄일 수 있습니다. 자전거의 헤드라이트는 자전거 라이더의 반대쪽에 노출 효과를, 미등은 후면 자전거 라이더에 노출 효과를 제공하여 안전성을 향상시킵니다. 본 연구에서는 제어 버튼 신호에 응답하여 LED에 의한 방향 전환을 표시 할 수 있는 자전거 안전장치를 구현 하였다. 이 신호는 고정 된 시간 동안 자전거의 페달과 휠에 장착 된 LED 조명을 모듈 유형의 발광 또는 깜박임으로 만듭니다. 야간에 자전거를 타는 사람이 자전거를 타는 경우 LED를 사용하여 안전을 향상시킬 수 있는 페달의 자전거 보조 장치가 본 연구에서 개발되었습니다. 무선 통신 기술을 적용한 자전거 안전장치는 미래에 에너지, 환경 및 안전과 같은 사회적 문제를 해결하기 위한 대체 기술이 될 것으로 예상됩니다.

Keywords

References

  1. S.H. Syed, R. Willing, T. R. Jenkyn & A. Yazdani. (2013). Video Analysis of the Biomechanics of a Bicycle Accident Resulting in Significant Facial Fractures. The Journal of craniofacial surgery, 24(6), 2023-2029. https://doi.org/10.1097/01.scs.0000436699.43090.34
  2. Niaki, Matin S. Nabavi, Fu, Ting, Saunier, Nicolas, Miranda-Moreno & Luis F. (2016). Amador, Luis, Bruneau, Jean-François, Road Lighting Effects on Bicycle and Pedestrian Accident Frequency: Case Study in Montreal, Quebec, Canada. Transportation Research Record, 2555, 86-94. https://doi.org/10.3141/2555-12
  3. Domjan, Laszlo, Kocsanyi, Laszlo, Richter, Peter, Varkonyi, Sandor, Feiten, Wendelin. (2000). Stripe illuminator based on LED array and parabolic mirror for active triangulation sensors used on mobile robots. Optical engineering, 39(11), 2867-2875. https://doi.org/10.1117/1.1290580
  4. Murray, Charles J. (2015). Driving the Future of LED Lighting A new breed of LED drivers is enhancing lighting efficiency and opening up new applications. Design News, 70(12), 26-26.
  5. E. Fishman & M. V. Wyss. (2017). Bike share in the Australian city: Assessing the feasibility of a future bike share program for Adelaide. ROAD AND TRANSPORT RESEARCH, 26(2), 50-61.
  6. B. K. Lee. (2019). A Method of Commerce Activation of the Old City-Center of Jeju City Using Augmented Reality Technology. Journal of Convergence for Information Technology, 9(11), 1-7. DOI : 10.22156/CS4SMB.2019.9.11.001
  7. R. Parsons. (2015). Santander bike deal puts engagement first. The successor to Barclays as sponsor of the London bike hire scheme aims to bring it's simple personal and fair brand values to life. MARKETING WEEK, 3(5), 6.
  8. A. Kumar & M. Pitchford. (2012). Improve Medical Device Safety With IEC 62304. MEDICAL DEVICE AND DIAGNOSTIC INDUSTRY, 34(9), 52.
  9. K. T. Kim. (2017). Performance Evaluation and Analysis of Zero Reduction Codes for Effective Dimming Control in Optical Wireless Communications using LED Lightings. Journal of Convergence for Information Technology, 7(3), 97-103. DOI : 10.22156/CS4SMB.2017.7.3.097
  10. D. Warburton, & D. Goldman. (2012). Product Development Insight A systematic approach to designing medical device safety systems. MEDICAL DEVICE AND DIAGNOSTIC INDUSTRY, 34(3), 40-45.
  11. K. S. Kim, Y. S. Jeong & Y. H. Yon. (2019). On Multipliers of Lattice Implication Algebras for Hierarchical Convergence Models. Journal of Convergence for Information Technology, 9(5), 7-13. DOI : 10.22156/CS4SMB.2019.9.5.007
  12. E. J. Wygonik, E. McCormack, D. H. Rowe. (2014), Bike-Share Planning in Cities with Varied Terrain. ITE Journal, 84(7), 31.
  13. A. Bateman-House. (2014). Bikes, Helmets, and Public Health: Decision-Making When Goods Collide. American journal of public health, 104(6), 986-992. https://doi.org/10.2105/AJPH.2013.301810
  14. D. Warburton & D. Goldman. (2012). Product Development Insight A systematic approach to designing medical device safety systems. MEDICAL DEVICE AND DIAGNOSTIC INDUSTRY, 34(3), 40-45.
  15. H. F. van der Molen, K. A. Zwinderman, J. K. Sluiter & M. H. Frings-Dresen. (2011). Better effect of the use of a needle safety device in combination with an interactive workshop to prevent needle stick injuries. safety Science, 49(8-9), 1180-1186. https://doi.org/10.1016/j.ssci.2011.03.010