A Robotic System with a Hybrid Motion Cueing Controller for Inertia Tensor Approximation in Micro-Manipulations

Abstract: This paper summarizes the development of a robotic system for the approximation of inertia tensor of micro-sized rigid bodies. We described the design and computer-based simulation of a 6-DOF motion platform in our earlier work [32] that benefits from an anthropological serial manipulator design. In [32] we emphasized that, in contrast to a standard configuration based on linear actuators, a mechanism with actuator design inspired from an anthropological kinematic structure offers relatively a larger motion en… Show more

“…Walking robots, compared with wheeled or tracked robots, are in the focus of high interest because of their terrain adaptation capabilities to access unstructured terrains in nature environments [1]. However, complete adaptive locomotion in uneven terrains requires ensuring stability at every posture of the robot while walking in order to guard against tip-over which may induce series of problems such as components' damages, operation failure and even system crash [2]. Furthermore, an inappropriate selection of footholds on a rough terrain can result in significant slipping/tripping or even the trembling of the robot [3].…”

Walking Stability Analysis of Multi-Legged Crablike Robot over Slope

“…Walking robots, compared with wheeled or tracked robots, are in the focus of high interest because of their terrain adaptation capabilities to access unstructured terrains in nature environments [1]. However, complete adaptive locomotion in uneven terrains requires ensuring stability at every posture of the robot while walking in order to guard against tip-over which may induce series of problems such as components' damages, operation failure and even system crash [2]. Furthermore, an inappropriate selection of footholds on a rough terrain can result in significant slipping/tripping or even the trembling of the robot [3].…”

Walking Stability Analysis of Multi-Legged Crablike Robot over Slope

“…Therefore, virtual prototyping technology serves a prime role that results in better design optimization and allows inspection and evaluation of the mathematical models specifically those which are complicated or impractical to estimate using real prototypes in real-world [16][17][18]. Virtual Reality Technology provides a rapid method of validating several characteristics of a mathematical model using dynamic simulations for the identification of potential errors in early design stages [8].…”

Virtual Reality to Simulate Adaptive Walking in Unstructured Terrains for Multi-Legged Robots

Motion cueing algorithms for aircraft maneuvering under variable g-loads