Add to ORKGTo dynamically traverse challenging terrain, legged robots need to continually perceive and reason about upcoming features, adjust the locations and timings of future footfalls and leverage momentum strategically. We present a pipeline that enables flexibly-parametrized trajectories for perceptive and dynamic quadruped locomotion to be optimized in an online, receding-horizon manner. The initial guess passed to the optimizer affects the computation needed to achieve convergence and the quality of the solution. We consider two methods for generating good guesses. The first is a heuristic initializer which provides a simple guess and requires significant optimization but is nonetheless suitable for adaptation to upcoming terrain. We demonstra...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
Dynamic locomotion in rough terrain requires accurate foot placement, collision avoidance, and plann...
Legged robots promise a clear advantage in unstructured and challenging terrain, scenarios such as d...
Legged robots promise a clear advantage in unstructured and challenging terrain, scenarios such as d...
Abstract—We present a novel approach to legged locomotion over rough terrain that is thoroughly root...
Re-planning in legged locomotion is crucial to track the desired user velocity while adapting to the...
Abstract—We present a novel approach to legged locomotion over rough terrain that is thoroughly root...
Legged robot locomotion requires the planning of stable reference trajectories, especially while tra...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
We present a novel approach to legged locomotion over rough terrain that is thoroughly rooted in opt...
Compared to wheeled vehicles, legged systems have a vast potential to traverse challenging terrain. ...
Synthesizing kinematically feasible trajectories for legged robots becomes more and more challenging...
We present a unified model-based and data-driven approach for quadrupedal planning and control to ac...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
Dynamic locomotion in rough terrain requires accurate foot placement, collision avoidance, and plann...
Legged robots promise a clear advantage in unstructured and challenging terrain, scenarios such as d...
Legged robots promise a clear advantage in unstructured and challenging terrain, scenarios such as d...
Abstract—We present a novel approach to legged locomotion over rough terrain that is thoroughly root...
Re-planning in legged locomotion is crucial to track the desired user velocity while adapting to the...
Abstract—We present a novel approach to legged locomotion over rough terrain that is thoroughly root...
Legged robot locomotion requires the planning of stable reference trajectories, especially while tra...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
We present a novel approach to legged locomotion over rough terrain that is thoroughly rooted in opt...
Compared to wheeled vehicles, legged systems have a vast potential to traverse challenging terrain. ...
Synthesizing kinematically feasible trajectories for legged robots becomes more and more challenging...
We present a unified model-based and data-driven approach for quadrupedal planning and control to ac...
Robotic technologies will continue to enter new applications in addition to automated manufacturing ...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...
Wheeled-legged robots have the potential for highly agile and versatile locomotion. The combination ...