1. The efficiency of geodetic and low-cost GNSS devices in urban kinematic terrestrial positioning in terms of the trajectory generated by MMSFilip Viler, Raffaela Cefalo, Tatiana Sluga, Paolo Snider, Polona Pavlovčič Prešeren, 2023, original scientific article Keywords: geodesy, GNSS/INS sensors, smartphone Xiaomi Mi8, kinematic-trajectory acquisition, u-blox ZED-F9P, u-blox ZED-F9R, mobile mapping system, MMS Full text (file, 29,10 MB) This document has more files! More... |
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4. Evaluation of smartphone inertial sensor performance for cross-platform mobile applicationsAnton Kos, Sašo Tomažič, Anton Umek, 2016, original scientific article Keywords: smartphone sensors, mobile applications, participatory sensing, Internet of Things, cross-platform applications, inertial sensor performance parameters Full text (file, 850,38 KB) This document has more files! More... |
5. Suitability of smartphone inertial sensors for real-time biofeedback applicationsAnton Kos, Sašo Tomažič, Anton Umek, 2016, original scientific article Keywords: biofeedback system, smartphone sensors, MEMS sensors, sensor noise, Allan variance, bias error, bias compensation, real-time biofeedback application Full text (file, 2,44 MB) This document has more files! More... |
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7. Inertial sensor-based step length estimation model by means of principal component analysisMelanija Vezočnik, Roman Kamnik, Matjaž B. Jurič, 2021, original scientific article Keywords: gait model, inertial sensors, open-source dataset, smartphone, step length estimation model Full text (file, 1,63 MB) This document has more files! More... |
8. Indoor positioning and navigationSimon Tomažič, 2021, preface, editorial, afterword Keywords: indoor positioning, navigation, inertial sensors, visual positioning, LIDAR, SLAM, Bluetooth Low Energy, Ultra Wideband, sensor fusion, dead reckoning, smartphone, radio positioning, robots, mapping, path planning Full text (file, 168,99 KB) This document has more files! More... |
9. Inertial sensor-based step length estimation modelMelanija Vezočnik, 2023, doctoral dissertation Keywords: accelerometer, gait model, inertial sensing, inertial sensors, open-source dataset, step length estimation, smartphone, step length estimation model Full text (file, 1,89 MB) |