Generative Design for Industrial Applications from Coursera

The foundation of engineering design is exploration and iteration. Design is rarely a perfectly linear and straightforward process. In this course, we explore a design for a traditional manufacturing method and use generative design to create the perfect iteration of it. From that point, we'll reverse engineer the generative design and recreate it for a traditional manufacturing method and explore the option of fabricating the generative version to weigh the pros and cons of each.

You’ll need a paid subscription to Fusion 360 to complete the assignments in this course. Be sure to review your access or payment options before enrolling: https://www.autodesk.com/products/fusion-360

Want to take your learning to the next level? Complete the Autodesk Generative Design for Manufacturing Specialization, and you’ll unlock an additional Autodesk Credential as further recognition of your success! The Autodesk Credential comes with a digital badge and certificate, which you can add to your resume and share on social media platforms like LinkedIn, Facebook, and Twitter. Sharing your Autodesk Credential can signal to hiring managers that you’ve got the right skills for the job and you’re up on the latest industry trends like generative design.

Enroll in the Specialization here: https://www.coursera.org/specializations/autodesk-generative-design-manufacturing

Looking for Autodesk Fusion 360 certification prep courses? Check out additional learning resources to help you uplevel your skills: https://www.autodesk.com/learning

What's inside

Syllabus

Working with an Initial Design

In Week 1, we’ll explore taking a design and identifying an optimal manufacturing method as well as the addition and creation of features for a specific manufacturing method.

Defining a Generative Setup and Reviewing Outcomes

In Week 2, we’ll overview the final setup of a generative design study, solving it, and the creation of a generative design outcome.

Reverse Engineering a Generative Design

In Week 3, we’ll focus on comparing an original design to a generative design. Using the generative design to make informed decisions about a design path and ultimately creating a new generative inspired design. We’ll also look at performing a static simulation to ensure our new design meets the criteria set in our generative design study.

Reviewing and Refining a Design

In Week 4, we’ll compare the three simulation study results and capture any pertinent design data that needs to be adjusted for a final design. Finally, we’ll explore the creation of images and exploded view drawings for manufacture.

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Designed for students with access to Autodesk Fusion 360 software

Guides students through the process of designing for traditional manufacturing methods and using generative design to refine their designs

Provides hands-on exercises in Autodesk Fusion 360

Teaches students about generative design techniques, which are becoming increasingly used in the manufacturing industry

Requires students to explore different design options and make decisions based on their understanding of generative design

Provides opportunities for students to compare and contrast traditional and generative design methods

Reviews summary

Highly respected generative design course

Learners say Generative Design for Industrial Applications is a largely positive experience with many positive reviews. Students are satisfied with the great content, great explanations, and engaging assignments that help them apply their skills. The course is well tailored from start to finish and includes complex topics such as generative design. Students also mention appreciating how the course uses real-world applications that can be adapted to many manufacturing methods. However, a couple of students mention that the peer assessment and moderation could be improved and that they experienced some issues with plagiarism.

The materials and topics covered are very interesting.

"The course is pretty interesting"

This course helps students develop generative design skills.

"Learned more than I expected to with this course."

"It's great to augment the Generative Design Skills with the added skills taught in this course."

This is an excellent course that provides a great foundation.

"Awesome course! i didn't expect to acquire so much knowledge."

"Great course to earn about Design for Industrial Applications."

Peer assessment can be slow, but the course is very good.

"La calificación peer to peer tarda mucho pero el curso esta buenísimo! "

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 Generative Design for Industrial Applications with these activities:

Review key concepts from engineering mechanics

Show steps

This course assumes a basic understanding of engineering mechanics. Reviewing key concepts will strengthen your foundation.

Browse courses on Engineering Mechanics

Show steps

Review notes from previous engineering mechanics courses.
Go through online resources on engineering mechanics.
Solve practice problems to test your understanding.

Review engineering design basics

Show steps

Understanding the fundamentals of engineering design will provide a strong foundation for this course.

Browse courses on Engineering Design

Show steps

Review notes from previous engineering design courses.
Go through online tutorials on engineering design.
Read articles and research papers on engineering design.

Learn about generative design concepts

Show steps

Generative design is a key concept in this course. These tutorials will provide a solid understanding of its principles.

Browse courses on Generative Design

Show steps

Follow online tutorials on generative design.
Watch videos and webinars on generative design applications.
Explore case studies of generative design in practice.

Five other activities

Expand to see all activities and additional details

Show all eight activities

Practice creating manufacturing method designs

Show steps

This course involves designing for specific manufacturing methods. Practice will improve your ability to create effective designs.

Browse courses on Design for Manufacturing

Show steps

Use Fusion 360 or similar software to create designs for different manufacturing methods.
Analyze the designs for manufacturability, cost, and performance.
Iterate on the designs to optimize them for the specific manufacturing method.

Volunteer in a design-related organization

Show steps

Volunteering will provide practical experience and exposure to real-world design challenges.

Browse courses on Volunteering

Show steps

Identify design-related organizations or community projects.
Contact them to inquire about volunteering opportunities.
Participate in design events or projects organized by these organizations.

Participate in design competitions

Show steps

Participating in design competitions will challenge you to apply the concepts learned in this course in a practical setting.

Show steps

Identify relevant design competitions that align with the course topics.
Form a team or work independently to develop a design solution.
Submit your design and compete against others.

Mentor junior students in engineering design

Show steps

Mentoring others will reinforce your understanding of engineering design principles and improve your communication skills.

Browse courses on Mentoring

Show steps

Volunteer as a mentor in engineering design clubs or organizations.
Provide guidance and support to junior students on their design projects.
Review their designs and offer constructive feedback.

Create a design portfolio or website

Show steps

Creating a design portfolio will showcase your skills and help you stand out in the job market.

Show steps

Collect your best design projects and create a portfolio website or online gallery.
Include descriptions, images, and videos to highlight your design process and outcomes.
Share your portfolio with potential employers, clients, or collaborators.

Career center

Learners who complete Generative Design for Industrial Applications will develop knowledge and skills that may be useful to these careers:

Mechanical Engineer

Mechanical Engineers analyze, design, and develop machinery and systems. They typically use computer-aided design (CAD) software to create virtual models of their designs. This course can help Mechanical Engineers build a foundation in generative design, which optimizes designs for specific goals. By learning generative design, Mechanical Engineers can stay up-to-date on the latest industry trends and improve their ability to design innovative products.

See salaries and explore the career path for Mechanical Engineer

Industrial Designer

Industrial Designers create and develop concepts for mass-produced products, such as cars, furniture, and appliances. They need to be able to create designs that are both functional and visually appealing. This course can help Industrial Designers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Industrial Designer

Product Designer

Product Designers create and develop products for mass production. They need to be able to create designs that are both functional and visually appealing. This course can help Product Designers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Product Designer

Manufacturing Engineer

Manufacturing Engineers plan and supervise the production of goods. They need to be able to understand and optimize manufacturing processes. This course can help Manufacturing Engineers build a foundation in generative design, which can help them to optimize manufacturing processes and reduce costs.

See salaries and explore the career path for Manufacturing Engineer

Design Engineer

Design Engineers create and develop new products and systems. They need to be able to understand and apply engineering principles. This course can help Design Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Design Engineer

Simulation Engineer

Simulation Engineers use computer simulations to analyze and predict the behavior of products and systems. They need to be able to understand and apply engineering principles. This course can help Simulation Engineers build a foundation in generative design, which can help them to create more accurate and efficient simulations.

See salaries and explore the career path for Simulation Engineer

Mechanical Design Engineer

Mechanical Design Engineers create and develop designs for mechanical systems and components. They need to be able to understand and apply engineering principles. This course can help Mechanical Design Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Mechanical Design Engineer

Aerospace Engineer

Aerospace Engineers design and develop aircraft, spacecraft, and other aerospace systems. They need to be able to understand and apply engineering principles. This course can help Aerospace Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Aerospace Engineer

Automotive Engineer

Automotive Engineers design and develop automobiles and other vehicles. They need to be able to understand and apply engineering principles. This course can help Automotive Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Automotive Engineer

Biomedical Engineer

Biomedical Engineers design and develop medical devices and systems. They need to be able to understand and apply engineering principles. This course can help Biomedical Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Biomedical Engineer

Chemical Engineer

Chemical Engineers design and develop chemical processes and systems. They need to be able to understand and apply engineering principles. This course can help Chemical Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Chemical Engineer

Civil Engineer

Civil Engineers design and develop infrastructure systems, such as roads, bridges, and buildings. They need to be able to understand and apply engineering principles. This course can help Civil Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Civil Engineer

Electrical Engineer

Electrical Engineers design and develop electrical systems and components. They need to be able to understand and apply engineering principles. This course can help Electrical Engineers build a foundation in generative design, which can help them to create innovative and efficient designs.

See salaries and explore the career path for Electrical Engineer

Environmental Engineer

Environmental Engineers design and develop solutions to environmental problems. They need to be able to understand and apply engineering principles. This course can help Environmental Engineers build a foundation in generative design, which can help them to create innovative and efficient solutions.

See salaries and explore the career path for Environmental Engineer

Materials Scientist

Materials Scientists develop new materials and improve existing materials. They need to be able to understand and apply engineering principles. This course can help Materials Scientists build a foundation in generative design, which can help them to create innovative and efficient materials.

See salaries and explore the career path for Materials Scientist