Robotic Arms
Chemin: Education
I'm a student and I need help on my capstone project that is a robotic arm specifically designed to imitate and predict movements to lift heavy things.
#Robotic_arm kinematics#degrees_of freedom#Actuators_and Motors#Sensors#Motion_planning#PID_control#Computer_Vision#Medical_robotics#ROS#Arduino#Raspberry_pi
1. Demonstrate comprehensive understanding of robotic arm kinematics by modeling, simulating, and implementing forward and inverse kinematic solutions.
Objectifs d'apprentissage:
1. Define and differentiate between forward and inverse kinematics using precise mathematical models.
2. Analyze geometric and trigonometric relationships governing multi-joint robotic movements in simulation environments.
3. Calculate end-effector positions and orientations across various configurations employing simulation tools such as MATLAB or Python.
4. Validate kinematic models through hands-on laboratory projects and real-time simulation comparisons.
Modules
1. Kinematics Analysis for Robotic Arms
1. 1. Introduction to Forward and Inverse Kinematics
Résultats d'apprentissage:
1. Define the basic concepts of forward kinematics with measurable mathematical formulations.
2. Explain inverse kinematics by contrasting it with forward kinematics using observable examples.
3. Illustrate geometric and trigonometric relationships governing robotic arm movements.
4. Summarize key principles of kinematic chains in multi-joint systems with clear metrics.
1. 2. Mathematical Modeling of Kinematic Systems
Résultats d'apprentissage:
1. Develop precise mathematical models for forward kinematics using defined parameters.
2. Construct inverse kinematic equations for multi-joint systems with measurable variables.
3. Simulate end-effector positions through step-by-step problem-solving exercises.
4. Validate model accuracy using quantifiable peer-review sessions.
1. 3. Simulation Techniques for Kinematic Analysis
Résultats d'apprentissage:
1. Implement simulation tools such as MATLAB or Python to model robotic kinematics.
2. Demonstrate simulation of forward and inverse kinematics in a controlled environment.