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International Journal of Creative and Open Research in Engineering and Management

A Peer-Reviewed, Open-Access International Journal Supporting Multidisciplinary Research, Digital Publishing Standards, DOI Registration, and Academic Indexing.
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ISSN: 3108-1754 (Online)
Crossref DOI: Available
ISO Certification: 9001:2015
Publication Fee: 599/- INR
Compliance: UGC Journal Norms
License: CC BY 4.0
Peer Review: Double Blind
Volume 02, Issue 04

Published on: April 2026

SMART FOOTWEAR WITH GPS TECHNOLOGY: DESIGN, APPLICATIONS,AND FUTURE DIRECTIONS

SANJAY

SHAILENDRA KUMAR

Maharana Pratap Engineering College,Kanpur, Uttar Pradesh, India
DOI:https://doi.org/10.55041/ijcope.v2i4.717

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Plagiarism Passed Peer Reviewed Open Access

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Abstract

The integration of Global Positioning System (GPS) technology into wearable footwear constitutes one of the most significant advancements at the intersection of consumer electronics and embedded systems engineering. Smart footwear equipped with GPS modules enables real-time geolocation tracking, activity monitoring, navigation assistance, and emergency response capabilities, addressing a wide spectrum of use cases ranging from athletic performance optimization to personal safety for vulnerable populations. This paper presents a systematic examination of the architectural components, hardware-software integration frameworks, communication protocols, and power management strategies that underpin GPS-enabled smart footwear. Through a review of existing literature and an analysis of contemporary commercial implementations, this study identifies the principal technical challenges—including miniaturization constraints, energy consumption, signal accuracy in urban environments, and data privacy—and evaluates proposed solutions. The paper further delineates prospective research trajectories, including the convergence of GPS with inertial measurement units, machine learning-based gait analysis, and low-power wide-area network (LPWAN) connectivity. The findings establish a foundational reference for researchers and engineers engaged in the design and deployment of next-generation wearable positioning systems.

How to Cite this Paper

SANJAY, (2026). Smart Footwear with GPs Technology: Design, Applications,and Future Directions. International Journal of Creative and Open Research in Engineering and Management, <i>02</i>(04). https://doi.org/10.55041/ijcope.v2i4.717

SANJAY, . "Smart Footwear with GPs Technology: Design, Applications,and Future Directions." International Journal of Creative and Open Research in Engineering and Management, vol. 02, no. 04, 2026, pp. . doi:https://doi.org/10.55041/ijcope.v2i4.717.

SANJAY, . "Smart Footwear with GPs Technology: Design, Applications,and Future Directions." International Journal of Creative and Open Research in Engineering and Management 02, no. 04 (2026). https://doi.org/https://doi.org/10.55041/ijcope.v2i4.717.

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References


  1. Geo-indistinguishability: Differential privacy for location-based systems. In Proceedings of the 2013 ACM SIGSAC Conference on Computer & Communications Security (pp. 901–914). ACM.

  2. Holloway, S. L., & Green, E. (2019). Parental surveillance technologies and the ethics of child monitoring. Surveillance & Society, 17(3/4), 531–546.

  3. Montjoye, Y. A., Hidalgo, C. A., Verleysen, M., & Blondel, V. D. (2013). Unique in the crowd: The privacy bounds of human mobility. Scientific Reports, 3, 1376.

  4. Peiris, R., De Silva, D., Tye, R., & Alahakoon, D. (2017). Energy-aware GPS duty cycling for wearable IoT footwear applications. IEEE Sensors Journal, 17(14), 4524–4533.

  5. Perera, G., Soulas, T., & Mann, A. H. (2014). Wandering in dementia and GPS tracking devices: A review of clinical outcomes and technological considerations. International Journal of Geriatric Psychiatry, 29(5), 497–504.

  6. Robinson, L., Hutchings, D., Corner, L., Beyer, F., Dickinson, H., Vanoli, A., & Bond, J. (2016). Effectiveness and acceptability of non-pharmacological interventions to reduce wandering in dementia: A systematic review. International Journal of Geriatric Psychiatry, 21(1), 9–22.

  7. Smelik, R., Holweg, G., & Hofer, A. (2019). Mechanical reliability assessment of flexible electronics for footwear-embedded wearable systems. Microelectronics Reliability, 99, 14–23.

Ethical Compliance & Review Process

  • All submissions are screened under plagiarism detection.
  • Review follows editorial policy.
  • Authors retain copyright.
  • Peer Review Type: Double-Blind Peer Review
  • Published on: Apr 25 2026
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This article is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. You are free to share and adapt this work for non-commercial purposes with proper attribution.

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