Engenharia Robótica - Carro Robô Inteligente from edX

Este curso de Engenharia Robótica é um programa abrangente e prático projetado para equipar os alunos com o conhecimento e as habilidades necessárias para prosperar no excitante campo da robótica.

Ao longo do curso, os alunos se aprofundarão nos princípios fundamentais da robótica, explorando tópicos como mecânica, eletrônica e programação. Eles obterão uma compreensão profunda do projeto e construção de robôs, aprendendo como selecionar e integrar componentes, desenvolver sistemas mecânicos e otimizar seu desempenho.

Os alunos também se aprofundarão nas complexidades da programação de robôs, aprimorando suas habilidades em linguagens de programação como C++. Eles descobrirão como implementar algoritmos avançados para percepção, planejamento e controle, permitindo que robôs naveguem em ambientes, interajam com objetos e executem diferentes tarefas.

Por meio de projetos práticos, os alunos terão a oportunidade de aplicar seus conhecimentos e liberar sua criatividade. Eles construirão seus próprios robôs, utilizando sensores, atuadores e microcontroladores, e desenvolverão soluções inovadoras para desafios do mundo real.

No final do curso, os alunos terão desenvolvido uma base sólida em engenharia robótica, posicionando-os para se destacarem no campo. Eles serão equipados com as habilidades necessárias para contribuírem para o avanço desse campo em rápida evolução.

What you'll learn

Princípios da robótica: Obtenha uma compreensão profunda dos princípios fundamentais da robótica, incluindo mecânica, eletrônica e programação.
Construção de robôs: Aprenda a construir robôs selecionando e integrando componentes, desenvolvendo sistemas mecânicos e otimizando seu desempenho.
Programação de robôs: Aprimore suas habilidades de programação em linguagens como C++ e implemente algoritmos avançados para percepção, planejamento e controle.
Projetos práticos: Aplique seu conhecimento e libere sua criatividade por meio de projetos práticos, projetando e construindo seus próprios robôs para solucionar desafios do mundo real.

What's inside

Learning objectives

Princípios da robótica: obtenha uma compreensão profunda dos princípios fundamentais da robótica, incluindo mecânica, eletrônica e programação.
Construção de robôs: aprenda a construir robôs selecionando e integrando componentes, desenvolvendo sistemas mecânicos e otimizando seu desempenho.

Programação de robôs: aprimore suas habilidades de programação em linguagens como c++ e implemente algoritmos avançados para percepção, planejamento e controle.
Projetos práticos: aplique seu conhecimento e libere sua criatividade por meio de projetos práticos, projetando e construindo seus próprios robôs para solucionar desafios do mundo real.

Princípios da robótica: obtenha uma compreensão profunda dos princípios fundamentais da robótica, incluindo mecânica, eletrônica e programação.
Construção de robôs: aprenda a construir robôs selecionando e integrando componentes, desenvolvendo sistemas mecânicos e otimizando seu desempenho.
Programação de robôs: aprimore suas habilidades de programação em linguagens como c++ e implemente algoritmos avançados para percepção, planejamento e controle.
Projetos práticos: aplique seu conhecimento e libere sua criatividade por meio de projetos práticos, projetando e construindo seus próprios robôs para solucionar desafios do mundo real.

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Desenvolve conhecimentos fundamentais em engenharia robótica, permitindo aos alunos se destacarem no campo

Aborda tópicos relevantes da área, como mecânica, eletrônica e programação, aprofundando o conhecimento dos alunos

Oferece oportunidades para aplicação prática dos conhecimentos adquiridos por meio de projetos, incentivando a criatividade e inovação dos alunos

Prepara os alunos para atuarem em um campo em constante evolução, contribuindo para o avanço da robótica

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Engenharia Robótica - Carro Robô Inteligente with these activities:

Organize and review course materials

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Ensure a strong foundation by systematically organizing and reviewing class notes, assignments, and other materials throughout the course.

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Create a system for organizing your notes and materials.
Regularly review your notes and highlight key concepts.
Complete practice questions or assignments to reinforce your understanding.

Revise fundamental engineering concepts

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Solidify your foundational knowledge in engineering principles to bolster your understanding throughout the robotics course.

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Review notes and textbooks from previous engineering courses.
Practice solving engineering problems.
Attend review sessions or online tutorials.

Explore ROS (Robot Operating System)

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Become familiar with ROS, an essential open-source software framework for robotics, enhancing your ability to develop complex robotic systems.

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Follow online tutorials or documentation on ROS.
Experiment with ROS by building simple programs.

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Explore Arduino microcontroller basics

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Develop a strong understanding of Arduino's capabilities, preparing you for programming and controlling robotic systems.

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Complete online tutorials or workshops on Arduino.
Experiment with Arduino hardware and software.
Build a simple Arduino project.

Practice programming with C++

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Enhance your programming abilities, enabling you to effectively control and manipulate robots within the course.

Browse courses on C++ Programming

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Solve coding challenges and practice exercises.
Build small C++ programs.

Join study groups or online forums

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Engage with fellow learners to discuss concepts, share insights, and enhance your understanding.

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Search for online forums or study groups related to robotics.
Join groups and actively participate in discussions.
Collaborate on projects or assignments with group members.

Build a line-following robot

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Apply your knowledge and skills to construct a simple robot, fostering a hands-on understanding of robot design and implementation.

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Gather necessary materials and components.
Design and build the robot's chassis.
Integrate sensors and actuators into the robot.
Program the robot to follow a line.

Develop a research proposal on a robotics topic

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Showcase your research skills by crafting a proposal that outlines your interests and potential contributions to the field of robotics.

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Identify a specific robotics topic that interests you.
Conduct a literature review to gather background information.
Formulate a research question or hypothesis.
Outline your proposed research methodology.
Write and submit your research proposal.

Career center

Learners who complete Engenharia Robótica - Carro Robô Inteligente will develop knowledge and skills that may be useful to these careers:

Robotics Technician

Robotics Technicians work with Robotics Engineers to build, test, and maintain robots. They may also provide technical support to customers. This course would be useful for someone who wants to become a Robotics Technician because it provides a foundation in the principles of robotics, including mechanics, electronics, and programming. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

See salaries and explore the career path for Robotics Technician

Control Systems Engineer

Control Systems Engineers design, build, and maintain systems that control the behavior of machines and processes. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course would be useful for someone who wants to become a Control Systems Engineer because it provides a foundation in the principles of robotics, including mechanics, electronics, and programming. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

See salaries and explore the career path for Control Systems Engineer

Robotics Engineer

Robotics Engineers design, build, and test robots. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course would be useful for someone who wants to become a Robotics Engineer because it provides a foundation in the principles of robotics, including mechanics, electronics, and programming. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

See salaries and explore the career path for Robotics Engineer

Mechatronics Engineer

Mechatronics Engineers design, build, and maintain systems that combine mechanical, electrical, and computer engineering. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course would be useful for someone who wants to become a Mechatronics Engineer because it provides a foundation in the principles of robotics, including mechanics, electronics, and programming. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

See salaries and explore the career path for Mechatronics Engineer

Systems Engineer

Systems Engineers design, build, and maintain complex systems that consist of multiple components. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course would be useful for someone who wants to become a Systems Engineer because it provides a foundation in the principles of robotics, including mechanics, electronics, and programming. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

See salaries and explore the career path for Systems Engineer

Automation Engineer

Automation Engineers design, build, and implement automated systems. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course would be useful for someone who wants to become an Automation Engineer because it provides a foundation in the principles of robotics, including mechanics, electronics, and programming. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

See salaries and explore the career path for Automation Engineer

Computer Engineer

Computer Engineers design, build, and maintain computer systems. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Computer Engineer because it provides a foundation in computer engineering. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Project Manager

Project Managers plan, execute, and close projects. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Project Manager because it provides a foundation in the principles of project management. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Industrial Engineer

Industrial Engineers design, build, and maintain industrial systems. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become an Industrial Engineer because it provides a foundation in industrial engineering. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Manufacturing Engineer

Manufacturing Engineers design, build, and maintain manufacturing systems. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Manufacturing Engineer because it provides a foundation in manufacturing engineering. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Data Scientist

Data Scientists use data to solve problems in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Data Scientist because it provides a foundation in data science. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Operations Research Analyst

Operations Research Analysts use mathematical and statistical methods to solve problems in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become an Operations Research Analyst because it provides a foundation in operations research. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Software Engineer

Software Engineers design, build, and maintain software systems. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Software Engineer because it provides a foundation in software engineering. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Technical Writer

Technical Writers create and maintain technical documentation, such as manuals, reports, and presentations. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Technical Writer because it provides a foundation in technical writing. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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Quality Assurance Engineer

Quality Assurance Engineers ensure that products and services meet quality standards. They work in a variety of industries, including manufacturing, healthcare, and transportation. This course may be useful for someone who wants to become a Quality Assurance Engineer because it provides a foundation in quality assurance. The course also includes practical projects that allow students to apply their knowledge to real-world problems.

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