The article aims to describe stages of development of a mobile, anthropomorphic robot. The individual phases of the bio-inspired model-based design of a two-legged robot are described, from the analysis of human walking patterns, through the creation of a simulation model and a control system to the creation and testing the physical model of such a robot. The bio-inspired design is based on an analysis of the movements of the individual parts of a lower human body during walking locomotion. Based on this analysis, the chosen motion model is described as a combination of passive and dynamic walking with a controlled, linear inverted pendulum model. When creating the simulation model, an open kinematic chain consisting of a base (the frame) a...
Research on biologically inspired robots is advancing nowadays. Researhers observe mechanical proper...
Anthropomimetics copying nature in order to construct and control similar mechanism in technical wor...
Bio-inspired legged robots with compliant actuation can potentially achieve motion properties in rea...
The model-based investigation of motions of anthropomorphic systems is an important interdisciplinar...
Conventional models of bipedal walking generally assume rigid body structures, while elastic materia...
Bio-inspired musculoskeletal bipedal robots with tendon driven series elastic actuation including bi...
The current stage of development of robotic systems is characterized by the use of anthropomorphic r...
Nowadays, plenty of bipedal robots have already been developed but are still being improved. The pur...
This paper discusses how a biped robot with heterogeneous legs imitates a person's walking from ...
This dissertation proposes advanced feedback controllers that allow bipedal robots to perform anthro...
The book ‘BiLBIQ: A biologically inspired Robot with walking and rolling locomotion’ deals with impl...
A biped is a two legged walking robot which imitates human gait. It is used in places where wheels c...
International audienceThis paper presents an experimental approach to the problem of designing and e...
Robots of any kind, highly integrated mechatronic systems, are smart combina-tions of mechanics, ele...
For the further research on passive/active walking control, an anthropomorphic mechanical prototype ...
Research on biologically inspired robots is advancing nowadays. Researhers observe mechanical proper...
Anthropomimetics copying nature in order to construct and control similar mechanism in technical wor...
Bio-inspired legged robots with compliant actuation can potentially achieve motion properties in rea...
The model-based investigation of motions of anthropomorphic systems is an important interdisciplinar...
Conventional models of bipedal walking generally assume rigid body structures, while elastic materia...
Bio-inspired musculoskeletal bipedal robots with tendon driven series elastic actuation including bi...
The current stage of development of robotic systems is characterized by the use of anthropomorphic r...
Nowadays, plenty of bipedal robots have already been developed but are still being improved. The pur...
This paper discusses how a biped robot with heterogeneous legs imitates a person's walking from ...
This dissertation proposes advanced feedback controllers that allow bipedal robots to perform anthro...
The book ‘BiLBIQ: A biologically inspired Robot with walking and rolling locomotion’ deals with impl...
A biped is a two legged walking robot which imitates human gait. It is used in places where wheels c...
International audienceThis paper presents an experimental approach to the problem of designing and e...
Robots of any kind, highly integrated mechatronic systems, are smart combina-tions of mechanics, ele...
For the further research on passive/active walking control, an anthropomorphic mechanical prototype ...
Research on biologically inspired robots is advancing nowadays. Researhers observe mechanical proper...
Anthropomimetics copying nature in order to construct and control similar mechanism in technical wor...
Bio-inspired legged robots with compliant actuation can potentially achieve motion properties in rea...