Efficient Indoor Positioning with Visual Experiences via Lifelong Learning

Hongkai Wen, Ronald Clark, Sen Wang, Xiaoxuan Lu, Bowen Du, Wen Hu, Niki Trigoni

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

Positioning with visual sensors in indoor environments has many advantages: it doesn't require infrastructure or accurate maps, and is more robust and accurate than other modalities such as WiFi. However, one of the biggest hurdles that prevents its practical application on mobile devices is the time-consuming visual processing pipeline. To overcome this problem, this paper proposes a novel lifelong learning approach to enable efficient and real-time visual positioning. We explore the fact that when following a previous visual experience for multiple times, one could gradually discover clues on how to traverse it with much less effort, e.g., which parts of the scene are more informative, and what kind of visual elements we should expect. Such second-order information is recorded as parameters, which provide key insights of the context and empower our system to dynamically optimise itself to stay localised with minimum cost. We implement the proposed approach on an array of mobile and wearable devices, and evaluate its performance in two indoor settings. Experimental results show our approach can reduce the visual processing time up to two orders of magnitude, while achieving sub-metre positioning accuracy.
Original languageEnglish
Pages (from-to)814-829
Number of pages16
JournalIEEE Transactions on Mobile Computing
Volume18
Issue number4
DOIs
Publication statusPublished - 1 Apr 2019

Keywords / Materials (for Non-textual outputs)

  • data visualisation
  • image sensors
  • indoor environment
  • learning (artificial intelligence)
  • mobile computing
  • wireless LAN
  • visual experiences
  • visual sensors
  • indoor environments
  • accurate maps
  • mobile devices
  • time-consuming visual processing pipeline
  • lifelong learning approach
  • real-time visual positioning
  • visual elements
  • second-order information
  • wearable devices
  • indoor settings
  • sub-metre positioning accuracy
  • indoor positioning
  • Visualization
  • Pipelines
  • Real-time systems
  • Feature extraction
  • Smart glasses
  • Navigation
  • Vocabulary
  • Visual positioning
  • mobile and wearable devices
  • lifelong learning

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