Autonomous Control of Unmanned Aerial Vehicles

Autonomous Control of Unmanned Aerial Vehicles

Unmanned aerial vehicles (UAVs) are being increasingly used in different applications in both military and civilian domains. These applications include surveillance, reconnaissance, remote sensing, target acquisition, border patrol, infrastructure monitoring, aerial imaging, industrial inspection, a...

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Bibliographic Details
Main Author: Becerra, Victor (auth)
Format: Book Chapter
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
n/a
super twisting sliding mode controller (STSMC)
monocular visual SLAM
modulation
bio-inspiration
simulation
horizontal control
sensor fusion
ADRC
high-order sliding mode
over-the-horizon air confrontation
longitudinal motion model
autonomous control
real-time ground vehicle detection
maneuver decision
nonlinear dynamics
UAV automatic landing
harmonic extended state observer
image processing
General Visual Inspection
actuator faults
actuator fault
remote sensing
aerial infrared imagery
agricultural UAV
SC-FDM
tilt rotors
mass eccentricity
wind disturbance
decoupling algorithm
adaptive discrete mesh
disturbance
super twisting extended state observer (STESO)
heuristic exploration
sliding mode control
UAS
Q-Network
UAV communication system
UAV
reinforcement learning
autonomous landing area selection
peak-to-average power ratio (PAPR)
slung load
aircraft maintenance
flight mechanics
octree
unmanned aerial vehicle
convolutional neural network
aircraft
performance evaluation
quadrotor
vertical take off
data link
path planning
coaxial-rotor
fixed-time extended state observer (FTESO)
multi-UAV system
hardware-in-the-loop
distributed swarm control
vertical control
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Description
Summary:Unmanned aerial vehicles (UAVs) are being increasingly used in different applications in both military and civilian domains. These applications include surveillance, reconnaissance, remote sensing, target acquisition, border patrol, infrastructure monitoring, aerial imaging, industrial inspection, and emergency medical aid. Vehicles that can be considered autonomous must be able to make decisions and react to events without direct intervention by humans. Although some UAVs are able to perform increasingly complex autonomous manoeuvres, most UAVs are not fully autonomous; instead, they are mostly operated remotely by humans. To make UAVs fully autonomous, many technological and algorithmic developments are still required. For instance, UAVs will need to improve their sensing of obstacles and subsequent avoidance. This becomes particularly important as autonomous UAVs start to operate in civilian airspaces that are occupied by other aircraft. The aim of this volume is to bring together the work of leading researchers and practitioners in the field of unmanned aerial vehicles with a common interest in their autonomy. The contributions that are part of this volume present key challenges associated with the autonomous control of unmanned aerial vehicles, and propose solution methodologies to address such challenges, analyse the proposed methodologies, and evaluate their performance.
Physical Description:1 electronic resource (270 p.)
ISBN:books978-3-03921-031-2
9783039210305
9783039210312
Access:Open Access

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