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Autori principali: Arfakhsyad, Azfar Azdi, Rahman, Aufa Nasywa, Kinanti, Larasati, Rizqi, Ahmad Ataka Awwalur, Muhammad, Hannan Nur
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.09464
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author Arfakhsyad, Azfar Azdi
Rahman, Aufa Nasywa
Kinanti, Larasati
Rizqi, Ahmad Ataka Awwalur
Muhammad, Hannan Nur
author_facet Arfakhsyad, Azfar Azdi
Rahman, Aufa Nasywa
Kinanti, Larasati
Rizqi, Ahmad Ataka Awwalur
Muhammad, Hannan Nur
contents Unmanned Aerial Vehicles (UAV) have emerged as versatile platforms, driving the demand for accurate modeling to support developmental testing. This paper proposes data-driven modeling software for UAV. Emphasizes the utilization of cost-effective sensors to obtain orientation and location data subsequently processed through the application of data filtering algorithms and sensor fusion techniques to improve the data quality to make a precise model visualization on the software. UAV's orientation is obtained using processed Inertial Measurement Unit (IMU) data and represented using Quaternion Representation to avoid the gimbal lock problem. The UAV's location is determined by combining data from the Global Positioning System (GPS), which provides stable geographic coordinates but slower data update frequency, and the accelerometer, which has higher data update frequency but integrating it to get position data is unstable due to its accumulative error. By combining data from these two sensors, the software is able to calculate and continuously update the UAV's real-time position during its flight operations. The result shows that the software effectively renders UAV orientation and position with high degree of accuracy and fluidity
format Preprint
id arxiv_https___arxiv_org_abs_2507_09464
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unmanned Aerial Vehicle (UAV) Data-Driven Modeling Software with Integrated 9-Axis IMUGPS Sensor Fusion and Data Filtering Algorithm
Arfakhsyad, Azfar Azdi
Rahman, Aufa Nasywa
Kinanti, Larasati
Rizqi, Ahmad Ataka Awwalur
Muhammad, Hannan Nur
Robotics
Systems and Control
Unmanned Aerial Vehicles (UAV) have emerged as versatile platforms, driving the demand for accurate modeling to support developmental testing. This paper proposes data-driven modeling software for UAV. Emphasizes the utilization of cost-effective sensors to obtain orientation and location data subsequently processed through the application of data filtering algorithms and sensor fusion techniques to improve the data quality to make a precise model visualization on the software. UAV's orientation is obtained using processed Inertial Measurement Unit (IMU) data and represented using Quaternion Representation to avoid the gimbal lock problem. The UAV's location is determined by combining data from the Global Positioning System (GPS), which provides stable geographic coordinates but slower data update frequency, and the accelerometer, which has higher data update frequency but integrating it to get position data is unstable due to its accumulative error. By combining data from these two sensors, the software is able to calculate and continuously update the UAV's real-time position during its flight operations. The result shows that the software effectively renders UAV orientation and position with high degree of accuracy and fluidity
title Unmanned Aerial Vehicle (UAV) Data-Driven Modeling Software with Integrated 9-Axis IMUGPS Sensor Fusion and Data Filtering Algorithm
topic Robotics
Systems and Control
url https://arxiv.org/abs/2507.09464