Add to ORKGThis work presents a novel formulation of the footstep planning problem as a mixed-integer convex optimization. The footstep planning problem involves choosing a set of footstep locations which a walking robot can follow to safely reach a goal through an environment with obstacles. Rather than attempting to avoid the obstacles, which would require non-convex constraints, we use integer variables to assign each footstep to a convex region of obstacle-free terrain, while simultaneously optimizing its pose within that safe region. Since existing methods for generating convex obstacle-free regions were ill-suited to this task, we also present IRIS (Iterative Regional Inflation by Semidefinite programming), a new method to generate such regions ...
Despite the recent achievements in stable dynamic walking for many humanoid robots, relatively littl...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
This work presents a novel formulation of the footstep planning problem as a mixed-integer convex op...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Abstract — We present a new method for planning footstep placements for a robot walking on uneven te...
This paper describes a collection of optimization algorithms for achieving dynamic planning, control...
Extended version of the paper to be published in IEEE Robotics and Automation LettersInternational a...
Extended version of the paper to be published in IEEE Robotics and Automation LettersInternational a...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Th...
Abstract—We present a novel approach for incorporating collision avoidance into trajectory optimizat...
This paper proposes the necessity of a walking period in footstep planning and details situations in...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
Despite the recent achievements in stable dynamic walking for many humanoid robots, relatively littl...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...
This work presents a novel formulation of the footstep planning problem as a mixed-integer convex op...
Thesis: S.M., Massachusetts Institute of Technology, Department of Electrical Engineering and Comput...
Abstract — We present a new method for planning footstep placements for a robot walking on uneven te...
This paper describes a collection of optimization algorithms for achieving dynamic planning, control...
Extended version of the paper to be published in IEEE Robotics and Automation LettersInternational a...
Extended version of the paper to be published in IEEE Robotics and Automation LettersInternational a...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Th...
Abstract—We present a novel approach for incorporating collision avoidance into trajectory optimizat...
This paper proposes the necessity of a walking period in footstep planning and details situations in...
This paper addresses the problem of walk planning for a humanoid robot on a flat ground cluttered by...
Despite the recent achievements in stable dynamic walking for many humanoid robots, relatively littl...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
In recent years, the numbers of life-size humanoids as well as their mobility capabilities have stea...