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Free Download Robotics Kinematics & Dynamics Simulation in MATLAB (Part3)
Published 11/2025
Created by Inderpreet Singh
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English | Duration: 59 Lectures ( 7h 36m ) | Size: 4 GB
MATLAB-based Forward & Inverse Kinematics, Euler-Lagrange torque computation, trajectory simulation for Manipulators
What you'll learn
Learn about Forward Kinematics using Classical and Modified Denavit Hartenberg Convention considering Mathematical Modeling of different Robotic Arms in MATLAB
Learn about inverse kinematics , Elbow up/ down configurations their workspace validity,
Simulate different manipulator configurations to compute Torques for joints using Euler-Lagrange Method
Simulate different trajectory profiles used in manipulators or Robotic arms
Requirements
You will learn everything you need to know
Description
The course " Robotics: Kinematics & Dynamics Simulation in MATLAB (Part3)" bridges theory and application by combining Denavit-Hartenberg (DH) modeling, kinematic analysis, and dynamic simulation through MATLAB programming. You will learn how to design and analyze robotic manipulators such as SCARA, RRP (Spherical) , RPP (Cylindrical), RRR (Articulated) , and PPP (Cartesian) arms; visualize their motion in both 2D and 3D, and understand how their physical structure influences workspace and performance.Starting with the fundamentals of Classical and Modified Denavit-Hartenberg (DH) conventions, you'll learn to construct transformation matrices, derive forward and inverse kinematics, and explore the geometric interpretation of elbow-up and elbow-down configurations in 2-link planar robots. This provides a clear understanding of how multiple joint combinations can achieve the same end-effector position, and when each configuration is most suitable in industrial or academic contexts.Moving beyond kinematics, the course delves into robot dynamics using the Euler-Lagrange formulation. You will derive and implement the Inertia (M), Coriolis/Centrifugal (C), and Gravity (G) matrices, and learn how these affect manipulator motion and control. With complete MATLAB coding demonstrations, you'll generate end-effector trajectories, visualize workspace coverage, and animate manipulator motion step-by-step.By the end of this course, you will be able to
evelop kinematic and dynamic models of robotic manipulatorsApply Classical Denavit-Hartenberg and Modified Denavit-Hartenberg conventions for serial link robotsSimulate 3D motions and 2D projections (XY, XZ, or YZ views) using MATLAB visualization toolsDerive and implement forward and inverse kinematics (including elbow-up and elbow-down such as for 2R and 3R planar manipulator arms)Construct Euler-Lagrange dynamic equations for manipulators like RRR and RRP Analyze Coriolis, centrifugal, and gravitational effects on motionGenerate and interpret end-effector trajectories and workspace plotsThis course is ideal for:Students and researchers in Mechanical, Mechatronics, Robotics, or Electrical EngineeringProfessionals and enthusiasts looking to strengthen skills in robot modeling, kinematics, and dynamicsAutomation and control engineers, software developers, and hobbyists working with MATLAB or robotic manipulatorsParticipants preparing for robotics projects, simulations, or competitionsWho this course is for
Students and researchers in Mechanical, Mechatronics, Robotics, Aerospace, Computer , Electronics or Electrical Engineering ; Professionals and enthusiasts looking to strengthen skills in robot modeling, kinematics, and dynamics Automation and control engineers, software developers, and hobbyists working with MATLAB or robotic manipulators; Participants preparing for robotics projects, simulations, or competitions
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Code:
RapidGator
https://rg.to/file/781048ba9b53cc1678351c8ea3183c20/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part1.rar.html
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https://rg.to/file/75518251eb8bd2a119f88f16010f166a/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part3.rar.html
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https://rg.to/file/c694e85ddd833555f86877d8acef152b/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part5.rar.html
FreeDL
https://frdl.io/jfdvwi5c903w/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part1.rar.html
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https://frdl.io/288aa3yngs5s/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part3.rar.html
https://frdl.io/dhs7xs1tkli7/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part4.rar.html
https://frdl.io/7b7bbzpao8d1/dhkcc.Robotics.Kinematics..Dynamics.Simulation.in.MATLAB.Part3.part5.rar.html