© 2019 IEEE. High-speed trajectory planning through unknown environments requires algorithmic techniques that enable fast reaction times while maintaining safety as new information about the operating environment is obtained. The requirement of computational tractability typically leads to optimization problems that do not include the obstacle constraints (collision checks are done on the solutions) or use a convex decomposition of the free space and then impose an ad-hoc time allocation scheme for each interval of the trajectory. Moreover, safety guarantees are usually obtained by having a local planner that plans a trajectory with a final 'stop' condition in the freeknown space. However, these two decisions typically lead to slow and cons...
We present a motion planning algorithm for dynamic vehicles navigating through unknown environments....
This paper describes a novel procedure to generate continuously differentiable optimal flight trajec...
Fast motion planning (FMP) of autonomous vehicles has been advanced rapidly for robotics research, p...
© 2019 IEEE. High-speed trajectory planning through unknown environments requires algorithmic techni...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
Real-time, guaranteed safe trajectory planning is vital for navigation in unknown environments. Howe...
© 2019 IEEE. Autonomous navigation through unknown environments is a challenging task that entails r...
We address the problem of constructing and executing control plans for safe, fully-autonomous operat...
Onboard and online flight path planning for smallscale unmanned rotorcraft requires very efficient a...
Motion planning in the most general sense is an optimization problem with a single elusive best solu...
Flight range and time, as well as autonomous flights in complex environments, are two challenges pre...
Quadrotors are agile platforms. With human experts, they can perform extremely high-speed flights in...
The ability of an autonomous Unmanned Aerial Vehicle (UAV) in an unknown environment is a prerequisi...
We explore the challenges of planning trajectories for quadrotors through cluttered indoor environme...
Onboard and online flight path planning for small-scale unmanned rotorcraft requires efficient algor...
We present a motion planning algorithm for dynamic vehicles navigating through unknown environments....
This paper describes a novel procedure to generate continuously differentiable optimal flight trajec...
Fast motion planning (FMP) of autonomous vehicles has been advanced rapidly for robotics research, p...
© 2019 IEEE. High-speed trajectory planning through unknown environments requires algorithmic techni...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
Real-time, guaranteed safe trajectory planning is vital for navigation in unknown environments. Howe...
© 2019 IEEE. Autonomous navigation through unknown environments is a challenging task that entails r...
We address the problem of constructing and executing control plans for safe, fully-autonomous operat...
Onboard and online flight path planning for smallscale unmanned rotorcraft requires very efficient a...
Motion planning in the most general sense is an optimization problem with a single elusive best solu...
Flight range and time, as well as autonomous flights in complex environments, are two challenges pre...
Quadrotors are agile platforms. With human experts, they can perform extremely high-speed flights in...
The ability of an autonomous Unmanned Aerial Vehicle (UAV) in an unknown environment is a prerequisi...
We explore the challenges of planning trajectories for quadrotors through cluttered indoor environme...
Onboard and online flight path planning for small-scale unmanned rotorcraft requires efficient algor...
We present a motion planning algorithm for dynamic vehicles navigating through unknown environments....
This paper describes a novel procedure to generate continuously differentiable optimal flight trajec...
Fast motion planning (FMP) of autonomous vehicles has been advanced rapidly for robotics research, p...