Mechatronics
ABOUT
The Mechatronics Undergraduate Program trains well-rounded professionals capable of revolutionizing the industry by incorporating advanced techs such as robotics, automation, and AI. Our graduates design and implement automatic systems that improve both competitiveness and efficiency in different productive sectors. They combine mechanics, electronics, and control in order to devise innovative and sustainable solutions—leading not only the technological progress but also bolstering the future of smart systems.
Professionals capable of designing, simulating, developing, and integrating state-of-the-art machines and automatic systems. Their theoretical and practical knowledge allows them to innovate productive processes through synergies in mechanics, electronics, programming, and control, in order to contribute towards organizational competitiveness.
Mission
We train innovative mechatronics engineers capable of integrating robotics, automation, and AI to design and enhance smart systems. We promote sustainable development and industrial competitiveness through our academic excellence focused on technological solutions with global impact.
Vision
Become leaders in mechatronics across Peru and a technological model in LatAm. Train well-rounded professionals who transform the industry with smart and sustainable systems, fostering innovation and technological development.
CURRICULUM
This flexible curriculum has a balance between sciences, technology and humanities. It also includes management subjects, which ensures the training of competent professionals capable of addressing challenges in automation, control, robotics, industry 4.0, machine design, monitoring, and maintenance of industrial equipment.
The Mechatronics Undergraduate Program comprises 205 credits (190 mandatory and 15 elective) distributed in 10 academic terms.
SPECIALIST CERTIFICATIONS
- AUTOMATION AND INDUSTRIAL ROBOTICS
- SIMULATION AND CYBER PHYSICAL SYSTEMS
- TECHNOLOGICAL INNOVATION
AUTOMATION AND INDUSTRIAL ROBOTICS
This Specialist Certification provides students with knowledge to transform industrial processes using advanced solutions. It addresses key technologies such as pneumatics, industrial networks, autonomous systems, gripper design, SCADA, and computer vision. It also prepares students to design and implement smart systems that optimize processes, boost operating efficiency, and revamp industrial robotics with a practical approach.
SIMULATION AND CYBER PHYSICAL SYSTEMS
This Specialist Certification provides key competences to lead digital transformation with big data, cybersecurity, VR and AR, computer vision, digital twins, and emerging technologies. It also prepares students to design and implement innovative solutions to revolutionize the industry with smart, secure and future-connected systems.
TECHNOLOGICAL INNOVATION
This Specialist Certification provides students with the right competences to lead disruptive projects using design management, prototype, and programming technologies. Students will learn how to integrate sustainability and innovation into technological solutions to improve processes and foster industrial competitiveness.
Labor Field
Mechatronics engineers design, implement and optimize automatic systems in production lines using different techs such as programmable logic controllers (PLC), industrial networks, and SCADA systems. Their daily work ensures efficiency, quality, and security in all industrial processes.
Develop, install and/or configure industrial, service or unmanned robots for applications in manufacturing, logistics, agriculture, and exploration. These systems integrate mechanics, electronics, computer vision, and programming in order to carry out tasks autonomously and accurately.
Develop innovative devices combining tools in CAD, 3D printing, and advanced manufacturing technologies. These systems are customized solutions that meet the specific market requirements.
It addresses disruptive technologies such as digital twins, AI, AR, and big data to streamline productive processes, optimize resources, and improve decision-making in real time.
Design and implement computer vision and advanced sensors systems for quality inspection, process monitoring, real-time control, which are paramount in automotive, food and beverage, gas, oil, and energy industries.
Lead digitalization projects and integration of physical and virtual systems for companies, devising solutions based on IoT, cybersecurity, and simulation, in order to maximize both productivity and connectivity.
Participate in multidisciplinary teams to create new technologies, products and systems that integrate mechanics, electronics, and programming. Their work fosters innovation and competitiveness in the global market.
Implement monitoring systems and data analysis to anticipate any failure in industrial equipment, improving maintenance management through predictive algorithms and smart techs.
Provide technical and strategic advice to implement technological projects, ensuring the integration of innovative and efficient solutions that meet the requirements of different industries.