Humans race drones faster than neural networks trained for end-to-end autonomous flight. This may be related to the ability of human pilots to select task-relevant visual information effectively. This work investigates whether neural networks capable of imitating human eye gaze behavior and attention can improve neural networks' performance for the challenging task of vision-based autonomous drone racing. We hypothesize that gaze-based attention prediction can be an efficient mechanism for visual information selection and decision making in a simulator-based drone racing task. We test this hypothesis using eye gaze and flight trajectory data from 18 human drone pilots to train a visual attention prediction model. We then use this visual att...
This thesis explores the application of AI in the realm of autonomous racing drones. The racing ind...
This work explores the feasibility of steering a drone with a (recurrent) neural network, based on i...
Visual attention is the cognitive process that allows humans to parse a large amount of sensory data...
Humans race drones faster than algorithms, despite being limited to a fixed camera angle, body rate ...
Autonomous drones can operate in remote and unstructured environments, enabling various real-world a...
Dynamically changing environments, unreliable state estimation, and operation under severe resource ...
During a flight, pilots must rigorously monitor their flight instruments since it is one of the crit...
A wealth of information regarding intelligent decision making is conveyed by human gaze and visual a...
Decentralized drone swarms deployed today either rely on sharing of positions among agents or detect...
We consider a quadrotor equipped with a forward-facing camera, and an user freely moving in its prox...
This paper explores the feasibility of a framework for vision-based obstacle avoidance techniques th...
The ability to converse with humans and follow commands in natural language is crucial for intellige...
For self-driving vehicles, aerial drones, and autonomous robots to be successfully deployed in the r...
Autonomous agile flight brings up fundamental challenges in robotics, such as coping with unreliable...
Robotics is the next frontier in the progress of Artificial Intelligence (AI), as the real world in ...
This thesis explores the application of AI in the realm of autonomous racing drones. The racing ind...
This work explores the feasibility of steering a drone with a (recurrent) neural network, based on i...
Visual attention is the cognitive process that allows humans to parse a large amount of sensory data...
Humans race drones faster than algorithms, despite being limited to a fixed camera angle, body rate ...
Autonomous drones can operate in remote and unstructured environments, enabling various real-world a...
Dynamically changing environments, unreliable state estimation, and operation under severe resource ...
During a flight, pilots must rigorously monitor their flight instruments since it is one of the crit...
A wealth of information regarding intelligent decision making is conveyed by human gaze and visual a...
Decentralized drone swarms deployed today either rely on sharing of positions among agents or detect...
We consider a quadrotor equipped with a forward-facing camera, and an user freely moving in its prox...
This paper explores the feasibility of a framework for vision-based obstacle avoidance techniques th...
The ability to converse with humans and follow commands in natural language is crucial for intellige...
For self-driving vehicles, aerial drones, and autonomous robots to be successfully deployed in the r...
Autonomous agile flight brings up fundamental challenges in robotics, such as coping with unreliable...
Robotics is the next frontier in the progress of Artificial Intelligence (AI), as the real world in ...
This thesis explores the application of AI in the realm of autonomous racing drones. The racing ind...
This work explores the feasibility of steering a drone with a (recurrent) neural network, based on i...
Visual attention is the cognitive process that allows humans to parse a large amount of sensory data...