Special Issue
  • Characterization of Composite Frame for Enhancing Energy Harvesting Function of a Smart Shoes

  • Ho-Seok Lee*, In-Jun Jung*, Seung-Hwan Chang*†

  • School of Mechanical Engineering, Chung-Ang University

  • 스마트 슈즈의 에너지 하베스팅 기능향상을 위한 복합재료 프레임 특성평가

  • 이호석* · 정인준* · 장승환*†

  • This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References
  • 1. Wang, H., and Song, Y., “Design of Intelligent Shoes Based on Multi-sensor,” Journal of Physics: Conference Series, Vol. 1927, Issue 1, 2021, 012014.
  •  
  • 2. Malengier, B., Tseghai, G.B., Ciocci, M.-C., Mengistie, D., and Van Langenhove, L., “Functional Shoe for the Detection of Walking Pattern Anomalies,” IOP Conference Series: Materials Science and Engineering, Vol. 827, Issue 1, 2020, 012002.
  •  
  • 3. Truong, P.H., You, S., Ji, S.-H., and Jeong, G.-M., “Wearable System for Daily Activity Recognition Using Inertial And Pressure Sensors of a Smart Band and Smart Shoes,” International Journal of Computers Communications & Control, Vol. 14, Issue 6, 2020, pp. 726-742.
  •  
  • 4. Zou, Y., Libanori, A., Xu, J., Nashalian, A., and Chen, J., “Triboelectric Nanogenerator Enabled Smart Shoes for Wearable Electricity Generation,” Research, Vol. 2020, 2020, 7158953.
  •  
  • 5. Ehrmann, G., and Ehrmann, A., “Electronic Textiles,” Encyclopedia, Vol. 1, Issue 1, 2021, pp. 115-130.
  •  
  • 6. Maheswaran, B., Byrne, C., Cook, T., Malterre, E., and Bhaiya, V., “Harnessing Energy from Everyday Movement: A Proposition for the Expansion of Piezoelectrics,” 2017 ASEE Northeast Section Conference, 2017.
  •  
  • 7. Qian, F., Xu, T.-B., and Zuo, L., “Piezoelectric Energy Harvesting from Human Walking Using a Two-stage Amplification Mechanism,” Energy, Vol. 189, 2019, 116140.
  •  
  • 8. Turkmen, A.C., and Celik, C., “Energy Harvesting with the Piezoelectric Material Integrated Shoe,” Energy, Vol. 150, 2018, pp. 556-564.
  •  
  • 9. Minamitani, T., and Ueno, T., “Power-generating Shoes Using a Magnetostrictive Vibration Power Generator,” Journal of Physics: Conference Series, Vol. 1052, Issue 1, 2018, 012087.
  •  
  • 10. Katsumura, H., Konishi, T., Okumura, H., Fukui, T., Katsu, M., Terada, T., Umegaki, T., and Kanno, I., “Development of Piezoelectric Vibration Energy Harvesters for Battery-less Smart Shoes,” Journal of Physics: Conference Series, Vol. 1052, Issue 1, 2018, 012060.
  •  
  • 11. Rodrigues, C., Gomes, A., Ghosh, A., Pereira, A., and Ventura, J., “Power-generating Footwear Based on a Triboelectric-electromagnetic-Piezoelectric Hybrid Nanogenerator,” Nano Energy, Vol. 62, 2019, pp. 660-666.
  •  
  • 12. Jung, K.C., Son, J.H., and Chang, S.H., “Self-Powered Smart Shoes with Tension-Type Ribbon Harvesters and Sensors,” Advanced Materials Technologies, Vol. 6, Issue 2, 2021, 2000872.
  •  
  • 13. Liu, L., Tang, W., Deng, C., Chen, B., Han, K., Zhong, W., and Wang, Z.L., “Self-powered Versatile Shoes Based on Hybrid Nanogenerators,” Nano Research, Vol. 11, Issue 8, 2018, pp. 3972-3978.
  •  
  • 14. Lin, Z., Wu, Y., He, Q., Sun, C., Fan, E., Zhou, Z., Liu, M., Wei, W., and Yang, J., “An Airtight-cavity-structural Triboelectric Nanogenerator-based Insole for High Performance Biomechanical Energy Harvesting,” Nanoscale, Vol. 11, Issue 14, 2019, pp. 6802-6809.
  •  
  • 15. Wankhade, S.H., Tiwari, S., Gaur, A., and Maiti, P., “PVDF-PZT Nanohybrid Based Nanogenerator for Energy Harvesting Applications,” Energy Reports, Vol. 6, 2020, pp. 358-364.
  •  
  • 16. Sukumaran, S., Chatbouri, S., Rouxel, D., Tisserand, E., Thiebaud, F., and Ben Zineb, T., “Recent Advances in Flexible PVDF Based Piezoelectric Polymer Devices for Energy Harvesting Applications,” Journal of Intelligent Material Systems and Structures, Vol. 32, Issue 7, 2021, pp. 746-780.
  •  
  • 17. Kang, J.H., Kim, K.W., Jang, J.S., Kim, J.W., Yang, M.S., Gu, Y.S., Ahn, T.M., Kwon, S.D., and Lee, J.W., “Structural Analysis and Design of B-pillar Reinforcement using Composite Materials,” Composites Research, Vol. 34, 2021, pp. 35-46.
  •  
  • 18. Oh, E., Lee, J., and Suhr, J., “3D Printable Composite Materials: A Review and Prospective”, Composites Research, Vol. 31, 2018, pp. 192-201.
  •  
  • 19. Todoroki, A., Oasada, T., Mizutani, Y., Suzuki, Y., Ueda, M., Matsuzaki, R., and Hirano, Y., “Tensile Property Evaluations of 3D Printed Continuous Carbon Fiber Reinforced Thermoplastic Composites”, Advanced Composite Materials, Vol. 29, 2020, pp. 147-162.
  •  
  • 20. Mercer, J.A., and Horsch, S., “Heel–toe Running: A New Look at the Influence of Foot Strike Pattern on Impact Force”, Journal of Exercise Science & Fitness, Vol. 13, Issue 1, 2015, pp. 29-34.
  •  

This Article

Correspondence to

  • Seung-Hwan Chang

  • School of Mechanical Engineering, Chung-Ang University

  • E-mail: phig4@cau.ac.kr