Indoor localization simulation framework for optimized sensor placement to increase the position estimation accuracy

Abstract: Indoor position estimation is an important part of any indoor application which contains object tracking or environment mapping. Many indoor localization techniques (Angle of Arrival -AoA, Time of Flight -ToF, Return Time of Flight -RToF, Received Signal Strength Indicator -RSSI) and technologies (WiFi, Ultra Wideband -UWB, Bluetooth, Radio Frequency Identification Device -RFID) exist which can be applied to the indoor localization problem. Based on the measured distances (with a chosen technique), the positio… Show more

“…The precision of the estimated position crucially depends on the placement of the anchors (fixed positioned UWB transceiver), which makes the position estimate less reliable. The error characteristics of the DWM1001 UWB ranging module (a commercially available UWB localization system using RToF) were measured and used to find an optimal anchor placement, which improves position estimation accuracy [101]. Using the proposed UWB extension with the fusion of IMU measuerements indoor localization is possible.…”

Implementation of neurobiological and various signal processing algorithms using FPGA circuits

“…The precision of the estimated position crucially depends on the placement of the anchors (fixed positioned UWB transceiver), which makes the position estimate less reliable. The error characteristics of the DWM1001 UWB ranging module (a commercially available UWB localization system using RToF) were measured and used to find an optimal anchor placement, which improves position estimation accuracy [101]. Using the proposed UWB extension with the fusion of IMU measuerements indoor localization is possible.…”

Implementation of neurobiological and various signal processing algorithms using FPGA circuits

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