This paper presents an ambitious methodology of autonomous navigation for multirotor UAVs in obstructed environments. The strategy was formulated to provide the multirotor vehicles the capability to produce autonomously quasi-optimal and safe trajectories, although generally they have at their disposal limited computational resources on board. The problem is formulated in a model predictive control (MPC) architecture in which motion planning and trajectory tracking processes are solved separately as if they were stored in two different devices. The first process uses a spline-based motion planning approach to generate smooth and safe trajectories. At this step also a multirotor's simpified dynamic model and environment information are taken...
This article establishes a novel Non linear Model Predictive Control (MPC) scheme for the navigation...
Efficient trajectory generation in complex dynamic environments remains an open problem in the opera...
The vast utility of unmanned aerial systems in wide-ranging applications, whether civil, militaristi...
This paper presents an ambitious methodology of autonomous navigation for multirotor UAVs in obstruc...
This paper shows an ambitious methodology of autonomous navigation for multirotor UAVs in obstructed...
This paper addresses a methodology for autonomous motion planning of multirotor aircraft in obstruct...
A novel model predictive control (MPC) formulation, named multi-trajectory MPC (mt-MPC), is presente...
This compilation thesis presents an overarching framework on the utilization of nonlinear model pred...
peer reviewedFlying autonomously in a workspace populated by obstacles is one of the main goals when...
This paper describes and analyzes the performance of two different formulations of model predictive ...
The problem of navigating an unmanned aerial vehicle (UAV) in an unknown environment is addressed wi...
This report is a study of the coordination of multipleunmanned air vehicles (UAV). It begins with th...
Path planning for an autonomous vehicle in a dynamic environment is a challenging problem particular...
This paper proposes a hierarchical MPC strategy for autonomous navigation of a formation of unmanned...
Abstract To address the problems that the UAV (Unmanned Aerial Vehicle) is vulnerable to distance li...
This article establishes a novel Non linear Model Predictive Control (MPC) scheme for the navigation...
Efficient trajectory generation in complex dynamic environments remains an open problem in the opera...
The vast utility of unmanned aerial systems in wide-ranging applications, whether civil, militaristi...
This paper presents an ambitious methodology of autonomous navigation for multirotor UAVs in obstruc...
This paper shows an ambitious methodology of autonomous navigation for multirotor UAVs in obstructed...
This paper addresses a methodology for autonomous motion planning of multirotor aircraft in obstruct...
A novel model predictive control (MPC) formulation, named multi-trajectory MPC (mt-MPC), is presente...
This compilation thesis presents an overarching framework on the utilization of nonlinear model pred...
peer reviewedFlying autonomously in a workspace populated by obstacles is one of the main goals when...
This paper describes and analyzes the performance of two different formulations of model predictive ...
The problem of navigating an unmanned aerial vehicle (UAV) in an unknown environment is addressed wi...
This report is a study of the coordination of multipleunmanned air vehicles (UAV). It begins with th...
Path planning for an autonomous vehicle in a dynamic environment is a challenging problem particular...
This paper proposes a hierarchical MPC strategy for autonomous navigation of a formation of unmanned...
Abstract To address the problems that the UAV (Unmanned Aerial Vehicle) is vulnerable to distance li...
This article establishes a novel Non linear Model Predictive Control (MPC) scheme for the navigation...
Efficient trajectory generation in complex dynamic environments remains an open problem in the opera...
The vast utility of unmanned aerial systems in wide-ranging applications, whether civil, militaristi...