Teaching

GI5025 – Thesis I

It is a graduate research course designed to instruct students to develop and report progress of the research project showing the domain-specific knowledge area and appropriate to the Masters level. More details.

MR5037 – Applied Robotics

This is an advanced course which aims to present state of the art trends in robotics and the basic theory needed to complete robot design projects, and applications in capstone projects. Knowledge of vector analysis and computer programming are required. More details.

Universidad Autónoma de San Luis Potosí

• Mathematical Methods (2016-2020) – Universidad Autónoma de San Luis Potosí; Graduate Level (64h) More details.
• Mechatronics (2016-2020) – Universidad Autónoma de San Luis Potosí; Graduate Level (96h)
• Differential Equations (2016-2020) – Universidad Autónoma de San Luis Potosí; Graduate Level (60h)

MR2007B – Automation of Manufacturing Systems

In this intermediate mechatronics engineering course, students develop the skills to integrate and implement an industrial process automation solution, using state-of-the-art technology tools and validating their viability and functioning. More details.

MR3001C – Cyberphysical Systems I

In this advanced level engineering course, the student is intended to solve a challenge in the area of ​​cyber-physical systems. Requires prior knowledge of control systems, digital systems and programming. More details.

MR3002B – Design and Implementation of Mechatronic Systems

At the end of the training unit the student is able to: (1) Propose feasible and cutting-edge technological solutions to solve industrial, social and environmental problems. (2) Apply methodologies and technological tools for the design of mechatronic systems.(3) Validate automation proposals guaranteeing quality, safety and productivity. (4) Implement automation proposals using cutting-edge technologies. (5) Prepare state-of-the-art research based on reliable sources to generate a proposal for a mechatronic system. (6) Generate innovative proposals for a mechatronic system according to standards. (7) Evaluate the technical and economic feasibility of technological development based on restrictions. More details.

MR3002C – Cyberphysical Systems II

In this advanced level engineering course, the student is intended to solve a challenge in the area of ​​cyber-physical systems by applying the competencies developed in the focus stage in their study plan. Requires prior knowledge of control systems, digital systems and programming. More details.

MR3038 – Research Internship

It is an advanced level learning experience, which is intended to involve the student with expert teachers in strategic projects with a focus on research. The activities to be carried out will provide opportunities to focus on finding solutions to high-impact problems in highly relevant areas. Requires basic knowledge of project management, self-management, problem solving and research. More details.

NN2009 – U-LEAD Collaboration with Faculty Projects: Engineering and Sciences Approach

It is an intermediate learning experience, intended to involve the student with expert profesors from the different Schools and in strategic projects focused on research, consultancy, entrepreneurship and social innovation, among others. The activities to be conducted will provide opportunities to focus on the search of solutions to high-impact problms in highly relevant areas. It requires basic knowledge on project management, selfmanagement, problem solving, research, consultancy, entrepeneurship and innovation. As a learning outcome, the student  collaborates in a research subject, consultancy project, social innovation, or entrepreneurship of academic, economic and/or social impact, addressing/solving an open and relevant problem for the community and the society. More details.

WA3072 – Workshop: Preparation for Final Exams (IMT)

It is an advanced level workshop in their discipline, in which the student demonstrates the disciplinary knowledge acquired in their career. More details.

WKMR2001S – Week 18 Focus IMT

More details

WKMR3002S – Final Stage Assessment – IMT

In this course, the student carries out a recapitulation and integration of the learning of the final stage of the curriculum is carried out, it has the intention of evaluating the competencies that the student has developed, observing his capacity to integrate the sub-disciplinary and transversal competencies, achieved in the last curricular stage. More details.

MR3031 Industrial Robotics

This is an advanced level course, designed to provide students with the basic tools needed to identify and solve industrial problems that require the installation of industrial robots in assembly lines. More details.

5719 – Robotics A

At the end of the course, the student should be able to apply the concepts of kinematics, dynamics and control of robot manipultators. They will be able to compute and program trajectories to operate an industrial robot. More details.