The Computer-Aided Engineering (CAE) specialty focuses on the use of computational technology to design, analyze, and improve engineering products and systems. This specialty includes the use of advanced software to develop 3D models, simulate physical processes, and analyze engineering performance. This major aims to increase efficiency and accuracy in engineering processes and reduce the time and cost associated with product development. Here’s a comprehensive look at the main aspects of the computer-aided engineering major:

Theoretical and engineering basics:

• Study the basic principles of mechanical, electrical, and physical engineering.
• Understanding of advanced mathematics and physics as a basis for model analysis and simulation.

Computer Aided Design (CAD):

• Use CAD software such as AutoCAD and SolidWorks to design and develop 3D models.
• Create detailed drawings of engineering components and systems.

Computer Aided Analysis (CAE):

• Apply CAE techniques to analyze the performance of products under different conditions.
• Use software to analyze stress and strain, heat, aerodynamics, and thermodynamics.

Modeling and simulation:

• Develop simulation models to analyze physical and engineering processes.
• Use tools such as ANSYS and MATLAB to simulate performance and analyze data.

Computer Aided Manufacturing (CAM):

• Learn how to convert digital designs into operating instructions for manufacturing tools.
• Use CAM software such as Mastercam to plan manufacturing processes and control machines.

Engineering Data Management (PDM):

• Managing and storing engineering data and information related to projects.
• Use product lifecycle management (PLM) systems to coordinate information between different teams.

Analysis and optimization techniques:

• Use analysis tools to determine and improve performance and reliability.
• Apply techniques such as finite element analysis (FEA) and reliability analysis to improve designs.

Reverse Engineering:

• Use computational technology to analyze and iterate existing products.
• Applying techniques such as 3D scanning and inverse modeling to develop new models of existing products.

Virtual and augmented reality:

• Using virtual reality (VR) and augmented reality (AR) technologies to improve design and manufacturing processes.
• Apply these techniques to analyze 3D models in virtual environments.

Innovation and development:

• Participate in research and development projects to improve tools and techniques used in CAE.
• Develop innovative solutions to improve the efficiency and quality of products and engineering processes.

Professional ethics and practices:

• Understand the ethical and professional issues related to the use of technology in engineering.
• Adherence to engineering standards and laws to ensure safety and quality.

Practical training and applied projects:

• Obtain practical experience through training in engineering companies and using computer tools in real projects.
• Apply theoretical knowledge in real business environments to develop practical and effective solutions.

Project management and collaboration:

• Learn how to manage engineering projects and collaborate between different teams using CAE tools.
• Develop communication and coordination skills between teams to achieve common goals.

The Computer-Aided Engineering major provides broad opportunities to work in multiple fields such as product design, manufacturing, engineering analysis, research and development, and engineering consulting. This specialization contributes to improving engineering processes and increasing efficiency and productivity, which enhances competitiveness and innovation in different industries.