Despite impressive results in visual-inertial state estimation in recent years, high speed trajectories with six degree of freedom motion remain challenging for existing estimation algorithms. Aggressive trajectories feature large accelerations and rapid rotational motions, and when they pass close to objects in the environment, this induces large apparent motions in the vision sensors, all of which increase the difficulty in estimation. Existing benchmark datasets do not address these types of trajectories, instead focusing on slow speed or constrained trajectories, targeting other tasks such as inspection or driving. We introduce the UZH-FPV Drone Racing dataset, consisting of over 27 sequences, with more than 10 km of flight distance, ca...
Robotics is the next frontier in the progress of Artificial Intelligence (AI), as the real world in ...
The e-sport of drone-racing involves human pilots to race against time. Recently, drone races have a...
The final publication is available at link.springer.comThis chapter explains a fast and low-cost sta...
Despite impressive results in visual-inertial state estimation in recent years, high speed trajector...
This paper presents a novel system for autonomous, vision-based drone racing combining learned data ...
Inertial odometry is an attractive solution to the problem of state estimation for agile quadrotor f...
This paper presents a novel system for autonomous,vision-based drone racing combining learned d...
Humans race drones faster than algorithms, despite being limited to a fixed camera angle, body rate ...
Autonomous agile flight brings up fundamental challenges in robotics, such as coping with unreliable...
Autonomous drone racing has taken a turn for the better in recent years. Drones are becoming faster ...
Dynamically changing environments, unreliable state estimation, and operation under severe resource ...
Today’s autonomous drones have reaction times of tens of milliseconds, which is not enough for navig...
This thesis delves into the integration of Artificial Intelligence (AI) within the realm of autonomo...
Autonomous micro aerial vehicles still struggle with fast and agile maneuvers, dynamic environments,...
High-speed flight in GPS-denied environments is currently an important frontier in the research on a...
Robotics is the next frontier in the progress of Artificial Intelligence (AI), as the real world in ...
The e-sport of drone-racing involves human pilots to race against time. Recently, drone races have a...
The final publication is available at link.springer.comThis chapter explains a fast and low-cost sta...
Despite impressive results in visual-inertial state estimation in recent years, high speed trajector...
This paper presents a novel system for autonomous, vision-based drone racing combining learned data ...
Inertial odometry is an attractive solution to the problem of state estimation for agile quadrotor f...
This paper presents a novel system for autonomous,vision-based drone racing combining learned d...
Humans race drones faster than algorithms, despite being limited to a fixed camera angle, body rate ...
Autonomous agile flight brings up fundamental challenges in robotics, such as coping with unreliable...
Autonomous drone racing has taken a turn for the better in recent years. Drones are becoming faster ...
Dynamically changing environments, unreliable state estimation, and operation under severe resource ...
Today’s autonomous drones have reaction times of tens of milliseconds, which is not enough for navig...
This thesis delves into the integration of Artificial Intelligence (AI) within the realm of autonomo...
Autonomous micro aerial vehicles still struggle with fast and agile maneuvers, dynamic environments,...
High-speed flight in GPS-denied environments is currently an important frontier in the research on a...
Robotics is the next frontier in the progress of Artificial Intelligence (AI), as the real world in ...
The e-sport of drone-racing involves human pilots to race against time. Recently, drone races have a...
The final publication is available at link.springer.comThis chapter explains a fast and low-cost sta...