Litcius/Paper detail

Self-Localization of Tethered Drones without a Cable Force Sensor in GPS-Denied Environments

Amer Al-Radaideh, Liang Sun

2021Drones25 citationsDOIOpen Access PDF

Abstract

This paper considers the self-localization of a tethered drone without using a cable-tension force sensor in GPS-denied environments. The original problem is converted to a state-estimation problem, where the cable-tension force and the three-dimensional position of the drone with respect to a ground platform are estimated using an extended Kalman filter (EKF). The proposed approach uses the data reported by the onboard electric motors (i.e., the pulse width modulation (PWM) signals), accelerometers, gyroscopes, and altimeter, embedded in the commercial-of-the-shelf (COTS) inertial measurement units (IMU). A system-identification experiment was conducted to determine the model that computes the drone thrust force using the PWM signals. The proposed approach was compared with an existing work that assumes known cable-tension force. Simulation results show that the proposed approach produces estimates with less than 0.3-m errors when the actual cable-tension force is greater than 1 N.

Topics & Concepts

DroneAccelerometerGlobal Positioning SystemInertial measurement unitExtended Kalman filterGyroscopeComputer scienceInertial frame of referenceControl theory (sociology)Kalman filterSimulationEngineeringAerospace engineeringPhysicsArtificial intelligenceTelecommunicationsOperating systemControl (management)GeneticsBiologyQuantum mechanicsRobotics and Sensor-Based LocalizationUnderwater Vehicles and Communication SystemsIndoor and Outdoor Localization Technologies