SURALP is a 29 degrees-of-freedom full-body walking humanoid robot designed and constructed at Sabanci University - Turkey. The human-sized robot is actuated by DC motors, belt and pulley systems and Harmonic Drive reduction gears. The sensory equipment consists of joint encoders, force/torque sensors, inertial measurement systems and cameras. The control hardware is based on a dSpace digital signal processor. This paper reviews the design of this robot and presents experimental walking results. A posture zeroing procedure is followed after manual zeroing of the robot joints. A variety of controllers for landing impact reduction, early landing trajectory modification, foot–ground orientation compliance, body inclination and Zero Moment Poin...
This paper describes a walking stabilization control for a biped humanoid robot with narrow feet. Mo...
The walking control of a Humanoid robot is still a challenging task due to the non-linear dynamics a...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...
The desire to one day see a robot assistant cleaning our houses or walking our dogs has led to an in...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
This Ph.D. thesis contributes to the development of control architecture for robots. It provides a c...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...
The complete development process for achieving walking motion with a recently constructed humanoid r...
This project explores the design and implementation of walking patterns for humanoid robots. This re...
AbstractThis report presents the development of basic human-like motions of a 21-DOF humanoid robot ...
Humanoid robotics is a field of a great research interest nowadays. This work implements a low-cost ...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...
Humanoid robots are considered as complex and challenging platforms, and the state of the art in rob...
Humanoid robot research and development have been an ongoing effort since the 1900sand can be broken...
Abstract:- This report presents development of basic human-like motions using a research prototype 2...
This paper describes a walking stabilization control for a biped humanoid robot with narrow feet. Mo...
The walking control of a Humanoid robot is still a challenging task due to the non-linear dynamics a...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...
The desire to one day see a robot assistant cleaning our houses or walking our dogs has led to an in...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
This Ph.D. thesis contributes to the development of control architecture for robots. It provides a c...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...
The complete development process for achieving walking motion with a recently constructed humanoid r...
This project explores the design and implementation of walking patterns for humanoid robots. This re...
AbstractThis report presents the development of basic human-like motions of a 21-DOF humanoid robot ...
Humanoid robotics is a field of a great research interest nowadays. This work implements a low-cost ...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...
Humanoid robots are considered as complex and challenging platforms, and the state of the art in rob...
Humanoid robot research and development have been an ongoing effort since the 1900sand can be broken...
Abstract:- This report presents development of basic human-like motions using a research prototype 2...
This paper describes a walking stabilization control for a biped humanoid robot with narrow feet. Mo...
The walking control of a Humanoid robot is still a challenging task due to the non-linear dynamics a...
This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to ...