International audienceIn this paper, we show that a biped robot can walk dynamically using a simple control technique inspired from human locomotion. We introduce four critical angles that affect robot speed and step length. Our control approach consists in tuning the PID parameters of each joint for introducing active compliance and then to increase stability of the walk. This method could be easily implemented in real time because it needs acceptable calculation time. We validated the control approach to a dynamic simulation of our 14DOF biped called ROBIAN. A comparison with human walking is presented and discussed. We prove that we can maintain robot stability and walk cycle's repetition without referencing a predefined trajectory or de...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
Elasticity in conventionally built walking robots is an undesired side-effect that is suppressed as ...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Abstract—This paper presents a human-inspired control approach to bipedal robotic walking: utilizing...
International audienceThis paper concerns the simultaneous synthesis and control of walking gaits fo...
This paper concerns the simultaneous synthesis and control of walking gaits for biped robots. The go...
Bipedal walking with humanoid robots requires efficient real-time control. Nowadays, most bipedal ro...
in loving memory of Papa It is easier for bipedal robots to exist in a human oriented environment th...
Abstract: A human-inspired method for achieving bipedal robotic walking is proposed in which a hybri...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...
This paper describe walking control of biped robot. Most conventional two-legged robots are driven u...
A not trivial problem in bipedal robot walking is the instability produced by the violent transition...
From the 1970's biped robots have had a large attention from the robotic research community. Yet the...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
Elasticity in conventionally built walking robots is an undesired side-effect that is suppressed as ...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...
Abstract—This paper presents a human-inspired control approach to bipedal robotic walking: utilizing...
International audienceThis paper concerns the simultaneous synthesis and control of walking gaits fo...
This paper concerns the simultaneous synthesis and control of walking gaits for biped robots. The go...
Bipedal walking with humanoid robots requires efficient real-time control. Nowadays, most bipedal ro...
in loving memory of Papa It is easier for bipedal robots to exist in a human oriented environment th...
Abstract: A human-inspired method for achieving bipedal robotic walking is proposed in which a hybri...
Recently, a lot of research has been conducted in the area of biped walking robots that could be com...
This paper describe walking control of biped robot. Most conventional two-legged robots are driven u...
A not trivial problem in bipedal robot walking is the instability produced by the violent transition...
From the 1970's biped robots have had a large attention from the robotic research community. Yet the...
Biped locomotion has proven to be a very hard problem to solve. At current date, there exists no hum...
Design and control of the bipedal humanoid robot locomotion are challenging areas of research. Accur...
Abstract — This paper presents an approach to the devel-opment of bipedal robotic control techniques...
Elasticity in conventionally built walking robots is an undesired side-effect that is suppressed as ...
This paper demonstrates the process of utilizing human lo-comotion data to formally design controlle...