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Indoor Navigation in Facilities with Repetitive Structures.

Zeev Volkovich1, Elena V Ravve1, Renata Avros1

  • 1Braude College of Engineering, Karmiel 2161002, Israel.

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Summary
This summary is machine-generated.

This study introduces an indoor navigation system using iBeacon technology for repetitive facilities. It optimizes energy and storage by leveraging structural similarities for efficient cellular guidance.

Keywords:
BLEGPSWi-FiiBeaconindoor positioning systemsoptimal navigationrepetitive structures

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Area of Science:

  • Indoor navigation systems
  • Wireless communication technologies
  • Algorithmic optimization

Background:

  • Many facilities exhibit repetitive structural patterns.
  • Existing indoor navigation solutions often lack efficiency in storage and energy consumption.
  • No prior work has specifically addressed optimizing navigation by exploiting facility repetition.

Purpose of the Study:

  • To develop an algorithm and system for cellular guidance in repetitive facilities without GPS.
  • To optimize navigation for storage, energy efficiency, and algorithmic complexity.
  • To leverage the inherent repetitive structure of facilities for improved indoor navigation.

Main Methods:

  • Utilizing iBeacon components operating on Bluetooth Low Energy (BLE) technology.
  • Developing a navigation application integrating iBeacons and a pre-defined indoor map.
  • Implementing optimal data storage and pre-calculated sub-routes for real-time performance.
  • Leveraging facility structure to reduce stored information and enhance efficiency.

Main Results:

  • A partial implementation of a cellular guide system for repetitive indoor environments.
  • Demonstrated reduction in memory usage and improved running time/energy consumption.
  • Seamless integration of iBeacon communications, indoor maps, data structures, and user interface.

Conclusions:

  • The proposed algorithm effectively optimizes indoor navigation in repetitive facilities.
  • The system offers significant improvements in storage requirements and energy efficiency.
  • This approach is suitable for diverse locations like ships, hotels, and colleges.