We consider a quadrotor equipped with a forward-facing camera, and an user freely moving in its proximity; we control the quadrotor in order to stay in front of the user, using only camera frames. To do so, we train a deep neural network to predict the drone controls given the camera image. Training data is acquired by running a simple hand-designed controller which relies on optical motion tracking data
We present the vision-based estimation and control of a quadrotor vehicle using a single camera rela...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this paper, a new vision-based adaptive control algorithm is proposed for the positioning of a qu...
Decentralized drone swarms deployed today either rely on sharing of positions among agents or detect...
We address the detection, tracking, and relative localization of the agents of a drone swarm from a ...
This paper proposes an obstacle avoidance strategy for small multi-rotor drones with a monocular cam...
Collision avoidance of drones in a complex environment, especially in an indoor environment, is a ch...
This work explores the feasibility of steering a drone with a (recurrent) neural network, based on i...
Humans race drones faster than neural networks trained for end-to-end autonomous flight. This may be...
Lightweight, autonomous drones are soon expected to be used in a wide variety of tasks such as aeria...
This paper, is the author's Final Year Project report represent the research on Vision Based Control...
Deep Reinforcement Learning (DRL) is attracting increasing interest due to its ability to learn how ...
We propose an extension of a recent work using convo-lutional neural networks and drones, such as Le...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Autonomous drones can operate in remote and unstructured environments, enabling various real-world a...
We present the vision-based estimation and control of a quadrotor vehicle using a single camera rela...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this paper, a new vision-based adaptive control algorithm is proposed for the positioning of a qu...
Decentralized drone swarms deployed today either rely on sharing of positions among agents or detect...
We address the detection, tracking, and relative localization of the agents of a drone swarm from a ...
This paper proposes an obstacle avoidance strategy for small multi-rotor drones with a monocular cam...
Collision avoidance of drones in a complex environment, especially in an indoor environment, is a ch...
This work explores the feasibility of steering a drone with a (recurrent) neural network, based on i...
Humans race drones faster than neural networks trained for end-to-end autonomous flight. This may be...
Lightweight, autonomous drones are soon expected to be used in a wide variety of tasks such as aeria...
This paper, is the author's Final Year Project report represent the research on Vision Based Control...
Deep Reinforcement Learning (DRL) is attracting increasing interest due to its ability to learn how ...
We propose an extension of a recent work using convo-lutional neural networks and drones, such as Le...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
Autonomous drones can operate in remote and unstructured environments, enabling various real-world a...
We present the vision-based estimation and control of a quadrotor vehicle using a single camera rela...
© 2019 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
In this paper, a new vision-based adaptive control algorithm is proposed for the positioning of a qu...