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arxiv: 2202.03239 · v1 · pith:WUAWC2EB · submitted 2022-02-07 · eess.SP

Weakly Supervised Indoor Localization via Manifold Matching

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classification eess.SP
keywords indoorapproachlocalizationlocationsupervisedaccuracydeviceexpensive
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Inferring the location of a mobile device in an indoor setting is an open problem of utmost significance. A leading approach that does not require the deployment of expensive infrastructure is fingerprinting, where a classifier is trained to predict the location of a device based on its captured signal. The main caveat of this approach is that acquiring a sufficiently large and accurate training set may be prohibitively expensive. Here, we propose a weakly supervised method that only requires the location of a small number of devices. The localization is done by matching a low-dimensional spectral representation of the signals to a given sketch of the indoor environment. We test our approach on simulated and real data and show that it yields an accuracy of a few meters, which is on par with fully supervised approaches. The simplicity of our method and its accuracy with minimal supervision makes it ideal for implementation in indoor localization systems.

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