Design and Trajectory Planning of Bipedal Walking Robot with Minimum Sufficient Actuation System

This paper presents a new type of mechanism and trajectory planning strategy for bipedal walking robot. The newly designed mechanism is able to improve the performance of bipedal walking robot in terms of energy efficiency and weight reduction by utilizing minimum number of actuators. The usage of parallelogram mechanism eliminates the needs of having an extra actuator at the knee joint. This mechanism works together with the joint space trajectory planning in order to realize straight legged walking which cannot be achieved by conventional inverse kinematics trajectory planning due to the singularity. The effectiveness of the proposed strategy is confirmed by computer simulation results

AAU-BOT1:a platform for studying dynamic, life-like walking

This paper describes the development of the humanoid robot AAU-BOT1. The purpose of the robot is to investigate human-like walking and in this connection, test prosthetic limbs. AAU-BOT1 has been designed with modularity in mind making it possible to replace, e.g. the lower leg to test transfemoral or transtibial prosthesis or orthosis. Recorded motion data from a male test person, along with approximated inertial and mass properties, were used to determine necessary joint torques in human walking which was used as design parameters for the robot. The robot has 19 degrees of freedom (DoF), 17 actuated and 2 unactuated acting as passive toe joints. The project was granted 60,000 Euro, and to keep development costs below this, the development and instrumentation was carried out by three groups of master students from the Department of Mechanical Engineering (ME) and the Department of Electronic Systems at Aalborg University and supported by the Department of Health Sciences and Technology (HST). To further reduce the cost, the robot uses off-the-shelf hardware which also reduced the time from idea to practical implementation. The result is a low-cost humanoid robot fully assembled and equipped with sensors ready to take its first steps

Online adaptation of reference trajectories for the control of walking systems

A simple and widely used way to make a robotic system walkwithout falling is to make it track a reference trajectory in one way or another, but the stability obtained this way may be limited and even small perturbations may lead to a fall. We propose here a series of heuristics to improve the stability that can be obtained from such a tracking control law, through an online adaptation of the choice of the reference trajectory being tracked. Encouraging simulations are obtained in the end on a simple planar biped model

Study on biped walking vehicle

制度:新 ; 文部省報告番号:甲2247号 ; 学位の種類:博士(工学) ; 授与年月日:2006/3/24 ; 早大学位記番号:新426

Multisensorielle diskret-kontinuierliche Überwachung und Regelung humanoider Roboter

In der vorliegenden Arbeit wird für eine neue Klasse von humanoiden Robotern ein generisches zweischichtiges diskret-kontinuierliches Regelungskonzept vorgestellt, welches eine operative multisensorielle Überwachung des Roboterumfeldes hinsichtlich störungsbedingter Abweichungen vom geplanten Bewegungsablauf beinhaltet und in der Lage ist, entsprechend zu reagieren. Auf der Grundlage des vorgeschlagenen Konzepts wurden verschiedene perzeptorisch geregelte Grundgeschicklichkeiten implementiert

Study on biped foot systems and controls adaptable to various terrains

制度:新 ; 報告番号:甲2842号 ; 学位の種類:博士(工学) ; 授与年月日:2009/3/15 ; 早大学位記番号:新506

Neues Konzept zur Planung, Ausführung und Überwachung von Roboteraufgaben mit hierarchischen Petri-Netzen

Es wird gezeigt, wie die aufgabenausführungsrelevanten Komponenten einer hybriden Steuerungsarchitektur mit Hilfe von hierarchischen Petri-Netzen umgesetzt, integriert und mit Überwachungsmodulen verknüpft werden können. Hierzu wird zunächst ein Konzept zur Generierung von Aufgabenwissen vorgeschlagen, das es erlaubt Bausteine komplexer Handlungen systematisiert zu entwerfen. Im Anschluss wird ein neues Konzept zur online Überwachung von Bewegungsvorgängen bei humanoiden Robotern vorgestellt