Accurate trajectory tracking control for quadrotors is essential for safe navigation in cluttered environments. However, this is challenging in agile flights due to nonlinear dynamics, complex aerodynamic effects, and actuation constraints. In this article, we empirically compare two state-of-the-art control frameworks: the nonlinear-model-predictive controller (NMPC) and the differential-flatness-based controller (DFBC), by tracking a wide variety of agile trajectories at speeds up to 20 m/s (i.e.,72 km/h). The comparisons are performed in both simulation and real-world environments to systematically evaluate both methods from the aspect of tracking accuracy, robustness, and computational efficiency. We show the superiority of NMPC in trac...
© 1996-2012 IEEE. This paper focuses on the trajectory tracking control problem for an articulated u...
hen observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it ...
When observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it...
Agile quadrotor flight in challenging environments has the potential to revolutionize shipping, tran...
Abstract: In this letter, we prove that the dynamical model of a quadrotor subject to linear rotor d...
Aircraft lifespan can be extended by upgrading and modernizing the electrical subsystems and instrum...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
A new linear model predictive control (MPC) algorithm in a state-space framework is presented based ...
In this paper, we propose, discuss, and validate an online Nonlinear Model Predictive Control (NMPC)...
We tackle the problem of flying time-optimal trajectories through multiple waypoints with quadrotors...
In this paper, a predictive sliding mode control (PSMC) strategy for the quadrotors tracking traject...
This paper presents a solution to on-board trajectory tracking control of quadrotors. The proposed a...
Non-linear model predictive control (nMPC) is a powerful approach to control complex robots (such as...
As autonomous systems are deployed in increasingly complex and uncertain environments, safe, accurat...
Aerial robots can enhance their safe and agile navigation in complex and cluttered environments by e...
© 1996-2012 IEEE. This paper focuses on the trajectory tracking control problem for an articulated u...
hen observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it ...
When observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it...
Agile quadrotor flight in challenging environments has the potential to revolutionize shipping, tran...
Abstract: In this letter, we prove that the dynamical model of a quadrotor subject to linear rotor d...
Aircraft lifespan can be extended by upgrading and modernizing the electrical subsystems and instrum...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
A new linear model predictive control (MPC) algorithm in a state-space framework is presented based ...
In this paper, we propose, discuss, and validate an online Nonlinear Model Predictive Control (NMPC)...
We tackle the problem of flying time-optimal trajectories through multiple waypoints with quadrotors...
In this paper, a predictive sliding mode control (PSMC) strategy for the quadrotors tracking traject...
This paper presents a solution to on-board trajectory tracking control of quadrotors. The proposed a...
Non-linear model predictive control (nMPC) is a powerful approach to control complex robots (such as...
As autonomous systems are deployed in increasingly complex and uncertain environments, safe, accurat...
Aerial robots can enhance their safe and agile navigation in complex and cluttered environments by e...
© 1996-2012 IEEE. This paper focuses on the trajectory tracking control problem for an articulated u...
hen observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it ...
When observing an Autonomous Unmanned Aerial Vehicle(UAV) race, one would be hard-pressed to call it...