Mechatronics Engineering

Available in:

8 semesters

Semester-based program

On-site modality

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Hands-on automation and robotics

A Mechatronics Engineer solves problems through the design, creation, and integration of machines and automatic systems that allow the optimization and automation of manufacturing processes, as well as industrial robotics for the industrial, commercial or service sector.

Admission Profile

Are you interested in this program? Applicants should have an interest and/or abilities in:

  • Mathematics. 
  • Physics. 
  • Chemistry. 
  • Information technology.

Graduate Profile

Upon completing your Undergraduate Degree, you will have gained the ability to:

  • Solve problems through the design, creation, and integration of machines and automatic systems that allow for the optimization of manufacturing processes, as well as develop industrial robotics for the industrial, commercial or service sector.

Career Prospects

You will have the necessary knowledge and skills to develop professionally in areas such as:

  • Automation of devices and processes. 
  • Machine design.
  • Research.
  • Consulting and project management.
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Investment that secures your future

Finance up to 30% of the total cost of your university studies, featuring flexible long-term conditions and compatibility with scholarships and discounts.

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Semester-based program

Human being as a project Introduction to engineering Programming methods Differential calculus Chemistry for engineering

Effective communication Materials for engineering Integral calculus Engineering Drawing I Statics

Holistic Development Elective: Block II Digital electronics Differential equations Probability and Statistics Dynamics Materials manufacturing

Scientific research Object-oriented programming language Numerical methods Electricity and magnetism Multivariable calculus Mechanics of materials

Holistic Development Elective: Block III Mathematical Modeling of Systems Electric circuits Mechanism dynamics Computer-aided manufacturing Elective I

Holistic Education Elective: Block IV Control engineering Microcontrollers and Embedded Systems Introduction to Mechanical Design Analog electronics Elective II

Ethics for 21st century society Power systems Project management Specialization I: Industrial automation Capstone project I Certification I: Electronic instrumentation (LABVIEW)

Global competence Industrial computer networks Engineering Economics Topics Specialization II: Robotics Capstone Project II Certification II: Cybersecurity

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Learning Outcomes

Learning Outcome Description
Applies Engineering Knowledge Applies knowledge of mathematics, natural sciences, computing, and engineering fundamentals to develop solutions to complex engineering problems in Mechatronics.
Problem Identification and Analysis Identifies, formulates, investigates relevant literature, and analyzes complex engineering problems, reaching substantiated conclusions through the application of fundamental principles of mathematics, natural sciences, and engineering sciences, while incorporating holistic considerations for sustainable development.
Design of Creative Solutions Designs creative solutions to complex engineering problems and designs systems, components, or processes to meet identified needs, while considering public health and safety, life-cycle costs, net-zero carbon objectives, and resource, cultural, societal, and environmental factors relevant to the practice of Mechatronics Engineering.
Investigation of Complex Problems Conducts investigations of complex engineering problems using research methods, including research-based knowledge, the design of experiments, data analysis and interpretation, and the synthesis of information to provide valid conclusions.
Modern Engineering Tools and Techniques Creates, selects, and applies appropriate engineering techniques, resources, and modern engineering and information technology tools, while recognizing their limitations, including the prediction and modeling of complex engineering problems in Mechatronics.
Sustainable Development Impact Analyzes and evaluates the impacts of sustainable development on society, the economy, sustainability, health, safety, legal frameworks, and the environment when solving complex engineering problems in the field of Mechatronics.
Professional Ethics Applies ethical principles and demonstrates commitment to professional ethics, engineering practice standards, and compliance with national and international laws relevant to professional practice. Demonstrates an understanding of the importance of diversity and social inclusion.
Teamwork and Leadership Performs effectively as an individual and as a leader or member of diverse and inclusive teams in multidisciplinary, face-to-face, remote, and/or distributed environments.
Effective and Inclusive Communication Communicates effectively and inclusively in complex engineering activities with the engineering community and society at large, taking into account cultural, linguistic, and learning differences through both oral and written communication.
Project Management Manages engineering projects using methodologies appropriate to the problem, while providing effective leadership to multidisciplinary teams.
Lifelong Learning and Adaptability Recognizes the need for and demonstrates the ability to: (i) engage in independent lifelong learning, (ii) adapt to new and emerging technologies, and (iii) apply critical thinking within the broader context of technological change.

Educational Objectives

Educational Objective Description
Automation and Manufacturing Graduates of the program are employed in professional positions related to process automation, robotics, technology consulting, control engineering, manufacturing, and mechanical design.
Leadership and Management Graduates of the program hold supervisory, middle-management, or senior-management positions, leading multidisciplinary teams.
Continuing Education Graduates pursue continued formal professional development as an integral part of their professional practice.
Community Impact Graduates of the program contribute to society through active participation in organizations and initiatives that have a positive impact on the community.
Innovation and Value Creation Graduates participate in the development of innovative projects that generate value for their organizations and/or contribute to the advancement of knowledge.
Sustainability in Design Graduates of the program perform engineering design and professional practice while considering sustainability criteria, such as energy efficiency and waste generation throughout the product life cycle.

Why Choose CETYS?

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Different ways to have an international experience

+69%

of students have an international experience

+70%

of faculty members hold a Doctor’s Degree

80%

of students receive a scholarship or financial support

+10

Accrediting agencies endorse our educational quality

+10

Different ways to have an international experience

+69%

of students have an international experience

+70%

of faculty members hold a Doctor’s Degree

80%

of students receive a scholarship or financial support

+10

Accrediting agencies endorse our educational quality

International Experience

Immerse yourself in other cultures both inside and outside the classroom. Whether you choose to study abroad for a short or long term, or take classes with our international faculty, we offer different options for you to explore new places, cultures, and perspectives.

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Collaboration

Apply what you learn in real-life situations while establishing valuable connections in your field by working on joint projects together with local or international companies and professors.

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Accredited Quality

Study in academic programs that continuously comply with rigorous national and international standards.

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Financial Support

Our commitment towards student talent allows 8 out of 10 students to have some type of financial support through our many scholarships and financial aid options.

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FAQ

The duration of each program is approximately two years, depending on your chosen academic workload. Programs are divided into trimesters or semesters.

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The cost varies depending on the program you choose. You may check out our Tuition Simulator to get an estimate.

 

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We offer both in-person programs and some Virtual Flex programs.

 

 

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To graduate, you need to complete all the required courses, have no pending documents with the academic department, and no outstanding fees. Our staff will guide you through this process.

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