A Hybrid Positioning Framework for Large-Scale Three-Dimensional IoT Environments

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A Hybrid Positioning Framework for Large-Scale Three-Dimensional IoT Environments

Sensors - -2025

Authors

Koulaeizadeh Shima, Javadi Hatef, Gholizadeh Sudabeh, Barshandeh Saeid, Loseto Giuseppe, Epicoco Nicola

Abstract

The Internet of Things (IoT) and Edge Computing (EC) play an essential role in today’s communication systems, supporting diverse applications in industry, healthcare, and environmental monitoring; however, these technologies face a major challenge in accurately determining the geographic origin of sensed data, as such data are meaningful only when their source location is known. The use of Global Positioning System (GPS) is often impractical or inefficient in many environments due to limited satellite coverage, high energy consumption, and environmental interference. This paper recruits the Distance Vector-Hop (DV-Hop), Jellyfish Search (JS), and Artificial Rabbits Optimization (ARO) algorithms and presents an innovative GPS-free positioning framework for three-dimensional (3D) EC environments. In the proposed framework, the basic DV-Hop and multi-angulation algorithms are generalized for three-dimensional environments. Next, both algorithms are structurally modified and integrated in a complementary manner to balance exploration and exploitation. Furthermore, a Lévy flight-based perturbation phase and a local search mechanism are incorporated to enhance convergence speed and solution precision. To evaluate performance, sixteen 3D IoT environments with different configurations were simulated, and the results were compared with nine state-of-the-art localization algorithms using MSE, NLE, ALE, and LEV metrics. The quantitative relative improvement ratio test demonstrates that the proposed method is, on average, 39% more accurate than its competitors.

DOI

https://doi.org/10.3390/s25226943

BibTex references

@Article{KJGBLE25,
  author       = "Koulaeizadeh, Shima and Javadi, Hatef and Gholizadeh, Sudabeh and Barshandeh, Saeid and Loseto, Giuseppe and Epicoco, Nicola",
  title        = "A Hybrid Positioning Framework for Large-Scale Three-Dimensional IoT Environments",
  journal      = "Sensors",
  number       = "22",
  volume       = "25",
  pages        = "6943",
  year         = "2025",
  url          = "http://sisinflab.poliba.it/Publications/2025/KJGBLE25"

}