Add to ORKGA novel three-module robot has been introduced. It can change its configuration to adapt to the uneven terrain and to improve its tipover stability. This three-module tracked robot has three kinds of symmetry configuration. They are line type, triangle type, and row type. After the factors and the countermeasures of mobile robot's tipover problem are analyzed, stability pyramid and tipover stability index are proposed to globally determinate the mobile robot's static stability and dynamic stability. The shape shifting robot is tested by this technique under the combined disturbance of pitch, roll and yaw in simulation. The simulation result shows that this technique is effective for the analysis of mobile robot's tipover stabili...
Discussed in this paper is the tip-over stability analysis of a pelvic support walking robot. To imp...
A wheeled mobile robot (WMR) can move on uneven terrains without slip if the wheels are allowed to t...
Unstable legged robots fall over without active stabilization, typically by repositioning the feet t...
A novel three-module robot has been introduced. It can change its configuration to adapt to the unev...
Abstract—When a mobile robot performs some special tasks, such as carrying a heavy load, moving on a...
Abstract: This paper presents a practical method to establish the kinematics model for the mobile mo...
In this paper, a wheelchair robot equipped with new-style variable-geometry-tracked mechanism is pro...
The risk of tip-over is a common problem in agile, lightweight mobile manipulators. An easy-to-imple...
AbstractThis paper proposes a holonomic omnidirectional mobile robot with active dual-wheel caster a...
Future planetary exploration missions will require mobile robots to excess challenging terrain suc...
This paper introduces an originally designed wheelchair robot equipped with a novel type of Variable...
Being hyper-redundant, modularized and continuously driving, link-type robots have high mobility und...
Abstract—This paper firstly presents a method to formulate the dynamics of the mobile humanoid robot...
In this paper, a novel link-type modular robot, which can change its shape, has been developed for p...
The objective of this work is to enhance the robot’s mobility by linking several vehicles into...
Discussed in this paper is the tip-over stability analysis of a pelvic support walking robot. To imp...
A wheeled mobile robot (WMR) can move on uneven terrains without slip if the wheels are allowed to t...
Unstable legged robots fall over without active stabilization, typically by repositioning the feet t...
A novel three-module robot has been introduced. It can change its configuration to adapt to the unev...
Abstract—When a mobile robot performs some special tasks, such as carrying a heavy load, moving on a...
Abstract: This paper presents a practical method to establish the kinematics model for the mobile mo...
In this paper, a wheelchair robot equipped with new-style variable-geometry-tracked mechanism is pro...
The risk of tip-over is a common problem in agile, lightweight mobile manipulators. An easy-to-imple...
AbstractThis paper proposes a holonomic omnidirectional mobile robot with active dual-wheel caster a...
Future planetary exploration missions will require mobile robots to excess challenging terrain suc...
This paper introduces an originally designed wheelchair robot equipped with a novel type of Variable...
Being hyper-redundant, modularized and continuously driving, link-type robots have high mobility und...
Abstract—This paper firstly presents a method to formulate the dynamics of the mobile humanoid robot...
In this paper, a novel link-type modular robot, which can change its shape, has been developed for p...
The objective of this work is to enhance the robot’s mobility by linking several vehicles into...
Discussed in this paper is the tip-over stability analysis of a pelvic support walking robot. To imp...
A wheeled mobile robot (WMR) can move on uneven terrains without slip if the wheels are allowed to t...
Unstable legged robots fall over without active stabilization, typically by repositioning the feet t...