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An Indoor Visual Positioning Method with 3D Coordinates Using Built-In Smartphone Sensors Based on Epipolar Geometry.

Ping Zheng1, Danyang Qin1,2, Jianan Bai1

  • 1Department of Electronic and Communication Engineering, Heilongjiang University, Harbin 150080, China.

Micromachines
|June 28, 2023
PubMed
Summary
This summary is machine-generated.

This study introduces a new indoor visual positioning method using smartphone sensors and epipolar geometry. It achieves accurate 3D coordinates, with 90% of errors below 0.58m, enabling reliable user localization.

Keywords:
built-in sensorscoordinate transformationepipolar geometryindoor localizationpose estimationvisual positioning

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Area of Science:

  • Computer Vision
  • Robotics
  • Geomatics

Background:

  • Traditional visual positioning methods struggle with mixed errors, leading to inaccurate direction vector convergence.
  • Existing techniques often map 3D vectors to 2D planes, resulting in positioning errors, including points at infinity.

Purpose of the Study:

  • To propose an improved indoor visual positioning method for accurate 3D coordinate determination.
  • To overcome limitations of existing methods by integrating smartphone sensor data with visual computing.

Main Methods:

  • The proposed method transforms the positioning problem into calculating the distance from a point to multiple lines in space.
  • It fuses accelerometer and magnetometer data with visual information for enhanced coordinate accuracy.
  • Epipolar geometry principles are utilized for geometric relation construction.

Main Results:

  • The method demonstrates stable localization performance across various poses, even with limited image retrieval results.
  • Experimental results show 90% of positioning errors are below 0.58 meters.
  • The average positioning error is less than 0.3 meters, meeting practical application requirements.

Conclusions:

  • The developed indoor visual positioning system offers a low-cost, accurate, and robust solution for user localization.
  • Integration of inertial sensors significantly improves the reliability and accuracy of visual positioning.
  • The method provides a practical alternative for applications requiring precise indoor positioning.