Abstract- Bipedal locomotion is one of the most challenging problems in control, artificial intelligence, mechanics and other related fields. In this article a model free approach with emphasis on making robot’s walking more stable and faster is presented. In this regard we use Particle Swarm Optimization (PSO) to optimize the signals produced by Truncated Fourier Series (TFS) which control joints ’ angels. The role of hands is also considered to smooth walking and to increase its robustness. For the first time a new method will be introduced to improve the speed and robustness of bipedal walking by refining signals and reducing the role of inertia. Simulation results show this approach can make the robot's walking more stable and fast...
Optimal bipedal walking gaits subject to different energy-based objective functions are investigated...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
Most robot motion optimization methods use dynamic models in ways that the obtained solutions may be...
Abstract. Controlling a biped robot with a high degree of freedom to achieve stable and straight mov...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Abstract—This paper describes a novel walking gait generation algorithm based on inverse kinematics ...
Recently, the method of choice to exploit robot dynamics for efficient walking is numerical optimiza...
The paper presents a Partial Fourier Series (PFS) based bipedal gait in sagittal and transverse plan...
This paper proposes a new way to optimize the biped walking gait design for biped robots that permit...
In this paper, we propose a central pattern generator-based model to control the walking motion of a...
In this paper, we present an approach for passivity-based bipedal robots to achieve stable dynamic w...
Recently, the method of choice to exploit robot dynamics for efficient walking is numerical optimiza...
As robots become more sophisticated and move out of the laboratory, they need to be able to reliably...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Acquiring adequate sensory information and using it to provide motor control are important issues in...
Optimal bipedal walking gaits subject to different energy-based objective functions are investigated...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
Most robot motion optimization methods use dynamic models in ways that the obtained solutions may be...
Abstract. Controlling a biped robot with a high degree of freedom to achieve stable and straight mov...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Abstract—This paper describes a novel walking gait generation algorithm based on inverse kinematics ...
Recently, the method of choice to exploit robot dynamics for efficient walking is numerical optimiza...
The paper presents a Partial Fourier Series (PFS) based bipedal gait in sagittal and transverse plan...
This paper proposes a new way to optimize the biped walking gait design for biped robots that permit...
In this paper, we propose a central pattern generator-based model to control the walking motion of a...
In this paper, we present an approach for passivity-based bipedal robots to achieve stable dynamic w...
Recently, the method of choice to exploit robot dynamics for efficient walking is numerical optimiza...
As robots become more sophisticated and move out of the laboratory, they need to be able to reliably...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Acquiring adequate sensory information and using it to provide motor control are important issues in...
Optimal bipedal walking gaits subject to different energy-based objective functions are investigated...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
Most robot motion optimization methods use dynamic models in ways that the obtained solutions may be...