IEEE Access (Jan 2024)

Uncovering the Potential of Indoor Localization: Role of Deep and Transfer Learning

  • Oussama Kerdjidj,
  • Yassine Himeur,
  • Shahab Saquib Sohail,
  • Abbes Amira,
  • Fodil Fadli,
  • Shadi Atalla,
  • W. Mansoor,
  • Abigail Copiaco,
  • Amjad Gawanmeh,
  • Sami Miniaoui,
  • Diana W. Dawoud

DOI
https://doi.org/10.1109/ACCESS.2024.3402997
Journal volume & issue
Vol. 12
pp. 73980 – 74010

Abstract

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Indoor localization (IL) is a significant topic of study with several practical applications, particularly in the context of the Internet of Things (IoT) and smart cities. The area of IL has evolved greatly in recent years due to the introduction of numerous technologies such as WiFi, Bluetooth, cameras, and other sensors. Despite the growing interest in this field, there are numerous challenges and drawbacks that must be addressed to develop more accurate and sustainable systems for IL. This review study gives an in-depth look into IL, covering the most promising artificial intelligence-based and hybrid strategies that have shown excellent potential in overcoming some of the limitations of classic methods within IoT environments. In addition, the paper investigates the significance of high-quality datasets and evaluation metrics in the design and assessment of IL algorithms. Furthermore, this overview study emphasizes the crucial role that machine learning techniques, such as deep learning and transfer learning, play in the advancement of IL. A focus on the importance of IL and the various technologies, methods, and techniques that are being used to improve it. Finally, the survey highlights the need for continued research and development to create more accurate and scalable techniques that can be applied across a range of IoT-related industries, such as evacuation-egress routes, hazard-crime detection, smart occupancy-driven energy reduction and asset tracking and management.

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