This is an updated release of OptSymQuad. This software uses through-contact optimization (the general approach is described at https://dx.doi.org/10.1371%2Fjournal.pcbi.1007444) to find symmetrical gaits that optimize a work-based objective. This particular code was used to explore the effect of speed and moment of inertia on optimal gait, as described in the paper "The Murphy number: how pitch moment of inertia dictates quadrupedal walking and running energetics". Optimal solutions and their beat number for a large set of moment of inertia and speed are also provided as matlab binaries
Abstract — This paper presents two planning methods for gen-erating fast walking gaits for the quadr...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
This paper introduces a method to simultaneously optimize design and control parameters for legged r...
This is the first pre-release of OptSymQuad. This software uses through-contact optimization (the ge...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
Optimal gait planning is applied in this work to the problem of improving stability in quadruped loc...
The purpose of the present paper is the identification of optimal trajectories of quadruped robots t...
Physics-based predictive simulations of human movement have the potential to support personalized me...
This paper demonstrates the Optimization of a single degree of freedom Desai’s walking leg mechanism...
Walking is an essential part of almost all activities of daily living. Depending on the situation, d...
Over the past decades, developments and scientific breakthroughs in the field of robotics have shown...
Background: As research on quadruped robots grows, so does the variety of designs available. These ...
We present an open-source framework for developing optimal leg designs for walking robots. The leg d...
It is widely held that quadrupeds choose steady gaits that minimize their energetic cost of transpor...
Over the past decades, developments and scientific breakthroughs in the field of robotics have shown...
Abstract — This paper presents two planning methods for gen-erating fast walking gaits for the quadr...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
This paper introduces a method to simultaneously optimize design and control parameters for legged r...
This is the first pre-release of OptSymQuad. This software uses through-contact optimization (the ge...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
Optimal gait planning is applied in this work to the problem of improving stability in quadruped loc...
The purpose of the present paper is the identification of optimal trajectories of quadruped robots t...
Physics-based predictive simulations of human movement have the potential to support personalized me...
This paper demonstrates the Optimization of a single degree of freedom Desai’s walking leg mechanism...
Walking is an essential part of almost all activities of daily living. Depending on the situation, d...
Over the past decades, developments and scientific breakthroughs in the field of robotics have shown...
Background: As research on quadruped robots grows, so does the variety of designs available. These ...
We present an open-source framework for developing optimal leg designs for walking robots. The leg d...
It is widely held that quadrupeds choose steady gaits that minimize their energetic cost of transpor...
Over the past decades, developments and scientific breakthroughs in the field of robotics have shown...
Abstract — This paper presents two planning methods for gen-erating fast walking gaits for the quadr...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
This paper introduces a method to simultaneously optimize design and control parameters for legged r...