* Cantinho Satkeys

Refresh History
  • j.s.: bom fim de semana  49E09B4F
    Hoje às 21:01
  • j.s.: try65hytr a todos
    Hoje às 21:01
  • FELISCUNHA: dgtgtr   49E09B4F  e bom fim de semana
    Hoje às 12:27
  • JPratas: try65hytr A Todos  101yd91 k7y8j0
    22 de Novembro de 2024, 02:46
  • j.s.: try65hytr a todos  4tj97u<z 4tj97u<z
    21 de Novembro de 2024, 18:43
  • FELISCUNHA: dgtgtr  pessoal   49E09B4F
    20 de Novembro de 2024, 12:26
  • JPratas: try65hytr Pessoal  4tj97u<z classic k7y8j0
    19 de Novembro de 2024, 02:06
  • FELISCUNHA: ghyt74   49E09B4F  e bom fim de semana  4tj97u<z
    16 de Novembro de 2024, 11:11
  • j.s.: bom fim de semana  49E09B4F
    15 de Novembro de 2024, 17:29
  • j.s.: try65hytr a todos  4tj97u<z
    15 de Novembro de 2024, 17:29
  • FELISCUNHA: ghyt74  pessoal   49E09B4F
    15 de Novembro de 2024, 10:07
  • JPratas: try65hytr A Todos  4tj97u<z classic k7y8j0
    15 de Novembro de 2024, 03:53
  • FELISCUNHA: dgtgtr   49E09B4F
    12 de Novembro de 2024, 12:25
  • JPratas: try65hytr Pessoal  classic k7y8j0 yu7gh8
    12 de Novembro de 2024, 01:59
  • j.s.: try65hytr a todos  4tj97u<z
    11 de Novembro de 2024, 19:31
  • cereal killa: try65hytr pessoal  2dgh8i
    11 de Novembro de 2024, 18:16
  • FELISCUNHA: ghyt74   49E09B4F  e bom fim de semana  4tj97u<z
    09 de Novembro de 2024, 11:43
  • JPratas: try65hytr Pessoal  classic k7y8j0
    08 de Novembro de 2024, 01:42
  • j.s.: try65hytr a todos  49E09B4F
    07 de Novembro de 2024, 18:10
  • JPratas: dgtgtr Pessoal  49E09B4F k7y8j0
    06 de Novembro de 2024, 17:19

Autor Tópico: Applied Control Systems for Engineers 1 - autonomous vehicle  (Lida 251 vezes)

0 Membros e 1 Visitante estão a ver este tópico.

Online mitsumi

  • Moderador Global
  • ***
  • Mensagens: 117428
  • Karma: +0/-0

Hot & New | h264, yuv420p, 1280x720 |ENGLISH, aac, 44100 Hz, 2Channels | 14h 18mn | 4.82 GB
Created by: Mark Misin

Modelling + state-space systems + PID + Model Predictive Control + Python simulation: autonomous vehicle lateral control

What you'll learn

mathematical modelling of systems
reformulating models into state-space equations
applying a PID controller to systems (simple magnetic train catching objects)
applying Model Predictive Control (MPC) to systems (autonomous car: lane changing maneuvers)

Requirements

Basic Calculus: Functions, Derivatives, Integrals
Vector-Matrix multiplication

Description

The world is changing! The technology is changing! The advent of automation in our societies is spreading faster than anyone could have anticipated. At the forefront of our technological progress is autonomy in systems.

Welcome! In this course, you will be exposed to one of the most POWERFUL techniques there are, that are able to guide and control systems precisely and reliably.

You are going to DESIGN, MASTER and APPLY:

mathematical models in the form of state-space systems and equations of motion

a PID controller to a simple magnetic train that needs to catch objects that randomly fall from the sky

a Model Predictive Controller (MPC) to an autonomous vehicle in a simple lane changing maneuver on a straight road at a constant forward speed.

You will LEARN the fundamentals and the logic of Modelling, PID and MPC that will allow you to apply it to other systems you might encounter in the future.

You need 3 things when solving an Engineering problem: INTUITION, MATHEMATICS, CODING! You can't choose - you really need them all. After this course, you will master Modelling, PID and MPC in all these 3 ways. That's a promise!

I'm very excited to have you in my course and I can't wait to teach you what I know.

Let's get started!
Who this course is for:

Science and Engineering students
Working Scientists and Engineers
Screenshots

Download link:
Só visivel para registados e com resposta ao tópico.

Only visible to registered and with a reply to the topic.

Links are Interchangeable - No Password - Single Extraction