This paper presents a sensor-based stability walk for bipedal robots by using force sensitive resistor (FSR) sensor. To perform walk stability on uneven terrain conditions, FSR sensor is used as feedbacks to evaluate the stability of bipedal robot instead of the center of pressure (CoP). In this work, CoP that was generated from four FSR sensors placed on each foot-pad is used to evaluate the walking stability. The robot CoP position provided an indication of walk stability. The CoP position information was further evaluated with a fuzzy logic controller (FLC) to generate appropriate offset angles to be applied to meet a stable situation. Moreover, in this paper designed a FLC through CoP region's stability and stable compliance control are...
This paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal walking...
The objectives of this study were to implement force sensors on the feet of a bipedal robot and anal...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
This paper presents a sensor-based stability walk for bipedal robots by using force sensitive resist...
AbstractIt is a challenge to maintain a steady and stable locomotion when a biped robot navigates an...
In this paper, the problem of controlling a human-like bipedal robot while walking is studied. The c...
The article centers round the problem of stabilization of biped robot gait through smoothing out the...
This paper presents an innovative algorithm for improvement of the walking robot dynamic stability, ...
This paper is mainly to concern the research of auto-balance control for the humanoid robot. A stabl...
The objectives of this study were to implement force sensors on the feet of a bipedal robot and anal...
Human locomotion is a coordinated motion between the upper and lower limbs, which should be consider...
One key problem to achieve a dynamically stable walking motion with biped robots is to measure and c...
AbstractThis paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal...
In this paper, we present a hybrid body state estimator for the locomotion stability control of a bi...
In this paper, we present a hybrid body state estimator for the locomotion stability control of a bi...
This paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal walking...
The objectives of this study were to implement force sensors on the feet of a bipedal robot and anal...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
This paper presents a sensor-based stability walk for bipedal robots by using force sensitive resist...
AbstractIt is a challenge to maintain a steady and stable locomotion when a biped robot navigates an...
In this paper, the problem of controlling a human-like bipedal robot while walking is studied. The c...
The article centers round the problem of stabilization of biped robot gait through smoothing out the...
This paper presents an innovative algorithm for improvement of the walking robot dynamic stability, ...
This paper is mainly to concern the research of auto-balance control for the humanoid robot. A stabl...
The objectives of this study were to implement force sensors on the feet of a bipedal robot and anal...
Human locomotion is a coordinated motion between the upper and lower limbs, which should be consider...
One key problem to achieve a dynamically stable walking motion with biped robots is to measure and c...
AbstractThis paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal...
In this paper, we present a hybrid body state estimator for the locomotion stability control of a bi...
In this paper, we present a hybrid body state estimator for the locomotion stability control of a bi...
This paper presents the conceptual design of a new four degree-of-freedom minimalist bipedal walking...
The objectives of this study were to implement force sensors on the feet of a bipedal robot and anal...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...