You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
In this study, the materials coming from the conveyor line will be taken from the conveyor line using delta robot arm and placed in the desired position as required by the process. The program that will perform the 3D simulation of this system will be implemented. Thus, the instant movements of the system can be followed by the user through this…
Kinematic and dynamic modelling of a cable-driven parallel robot used to control an inverted pendulum. Development of a controller to stabilise the pendulum in its vertical unstable position by means of linear quadratic regulators. Validation of the controller in simulation, so it can maintain the equilibrium position despite the appearance of u…
This repository offers an exhaustive resource for the kinematic analysis of mechanical systems. It encompasses a comprehensive suite of tools and documentation for analyzing position, velocity, and acceleration of various mechanisms.
This repository contains Python code used for the extraction and clustering of muscle and kinematic synergies from preprocessed EMG data, as described in the research paper . The data was initially imported from Vicon c3d files.
This repository contains my final project for Mechanical and Aerospace Engineering 162A, Mechanisms and Mechanical Systems, taken with Prof. Jonathan Hopkins, Spring 2021
A free and open-source toolkit has been developed using an anthropomorphic arm model, allowing any data set containing joint angles over time to be implemented to visualise motion for kinematic analysis.
This repository contains the implementation of the stiffness analysis of the double pantograph transmission system using MSA, and VJM approaches for accuracy improvement purposes.
This GitHub repository contains the homework assignments completed as part of the course EE-CE-CS-366-366-380: Introduction to Robotics. The assignments include four different blocks: Vision Block, Forward Kinematics Block, Inverse Kinematics Block, Control Block, and Trajectory Block. Each block is a crucial aspect of robotics