Quadrotors are agile platforms. With human experts, they can perform extremely high-speed flights in cluttered environments. However, fully autonomous flight at high speed remains a significant challenge. In this work, we propose a motion planning algorithm based on the corridor-constrained minimum control effort trajectory optimization (MINCO) framework. Specifically, we use a series of overlapping spheres to represent the free space of the environment and propose two novel designs that enable the algorithm to plan high-speed quadrotor trajectories in real-time. One is a sampling-based corridor generation method that generates spheres with large overlapped areas (hence overall corridor size) between two neighboring spheres. The second is a...
A Micro Aerial Vehicle (MAV) is capable of agile motion in 3D making it an ideal platform for develo...
© 2019 IEEE. High-speed trajectory planning through unknown environments requires algorithmic techni...
peer reviewedDeliberative capabilities are essential for intelligent aerial robotic applications in ...
We explore the challenges of planning trajectories for quadrotors through cluttered indoor environme...
Flight range and time, as well as autonomous flights in complex environments, are two challenges pre...
Quadrotors have the capability of being immensely useful vehicles to aid humans in labor intensive t...
Quadrotor flight has typically been limited to sparse environments due to numerical complications th...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
This paper presents a heuristic framework that generates trajectories for quadrotor UAVs in complex ...
Autonomous navigation of aerial drones has many real-world applications that can make some tasks fas...
We tackle the problem of planning a minimum-time trajectory for a quadrotor over a sequence of speci...
Quadrotors are amongst the most agile flying robots. However, planning time-optimal trajectories at ...
Quadrotors are among the most agile flying robots. However, planning time-optimal trajectories at th...
Motion‐planning algorithms play a vital role in attaining various levels of autonomy for any ground ...
International audienceThis paper proposes a novel strategy for completing a flight plan with a quadr...
A Micro Aerial Vehicle (MAV) is capable of agile motion in 3D making it an ideal platform for develo...
© 2019 IEEE. High-speed trajectory planning through unknown environments requires algorithmic techni...
peer reviewedDeliberative capabilities are essential for intelligent aerial robotic applications in ...
We explore the challenges of planning trajectories for quadrotors through cluttered indoor environme...
Flight range and time, as well as autonomous flights in complex environments, are two challenges pre...
Quadrotors have the capability of being immensely useful vehicles to aid humans in labor intensive t...
Quadrotor flight has typically been limited to sparse environments due to numerical complications th...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
This paper presents a heuristic framework that generates trajectories for quadrotor UAVs in complex ...
Autonomous navigation of aerial drones has many real-world applications that can make some tasks fas...
We tackle the problem of planning a minimum-time trajectory for a quadrotor over a sequence of speci...
Quadrotors are amongst the most agile flying robots. However, planning time-optimal trajectories at ...
Quadrotors are among the most agile flying robots. However, planning time-optimal trajectories at th...
Motion‐planning algorithms play a vital role in attaining various levels of autonomy for any ground ...
International audienceThis paper proposes a novel strategy for completing a flight plan with a quadr...
A Micro Aerial Vehicle (MAV) is capable of agile motion in 3D making it an ideal platform for develo...
© 2019 IEEE. High-speed trajectory planning through unknown environments requires algorithmic techni...
peer reviewedDeliberative capabilities are essential for intelligent aerial robotic applications in ...