Print Email Facebook Twitter Indoor Location Sensing Using Smartphone Acoustic System Title Indoor Location Sensing Using Smartphone Acoustic System: What kind of deep models could be used for indoor location recognition? How to deploy and evaluate the model on smartphones and make the inference run in real time? Author Sozonov, Radoslav (TU Delft Electrical Engineering, Mathematics and Computer Science) Contributor Song, Q. (mentor) Martinez, Jorge (graduation committee) Degree granting institution Delft University of Technology Programme Computer Science and Engineering Project CSE3000 Research Project Date 2023-06-30 Abstract Indoor localization is a field in a development process. Different solutions have been introduced in recent years. Some of the solutions use beacons, WI-FI access points, different smartphone sensors, or acoustic sensing to make localizations. This paper is presenting an application that uses acoustic sensing data to perform localization with different deep models. The research aims to explore different models and evaluate their performance metrics in the classification of three different acoustic data sets and their overhead on the system. Two different architecture designs are implemented - a client-server one as the models are stored on the server and one only front-end oriented as in this case compressed models are used. The results show that the client-server approach outperforms the front-end only design as the former's models reach classification results of 98\%, 90\% and 90\% tested on three different data sets, despite taking longer to fetch a prediction result from the server compared to the compressed models stored on a smartphone device. Subject LocalizationAcoustic sensingAcoustic sensing localization To reference this document use: http://resolver.tudelft.nl/uuid:0e37258f-fe62-4310-a995-741a6b6243df Part of collection Student theses Document type bachelor thesis Rights © 2023 Radoslav Sozonov Files PDF CSE3000_Final_Paper.pdf 728.98 KB Close viewer /islandora/object/uuid:0e37258f-fe62-4310-a995-741a6b6243df/datastream/OBJ/view