ELECTROMECHANICAL ENGINEERING


Specialty

Automation


Main objective

Train professionals of excellence in electromechanical engineering, with an entrepreneurial attitude, leadership and the ability to: analyze, diagnose, design, select, install, manage, maintain and innovate electromechanical systems efficiently, safely and economically. Considering national and international norms and standards to promote sustainable development with full ethical, humanistic and social awareness.


Educational Objectives

  • The graduate implements electromechanical systems for the maintenance, control and/or automation of production processes.
  • The graduate exercises attitudes of competitiveness, leadership, entrepreneurship and teamwork to make decisions based on a professional ethical sense in the development and/or innovation of electromechanical systems or services.
  • The graduate manages and applies computational tools in projects and systems in the electromechanical area and he or she is capable of interpreting and communicating the results orally and in writing in a second language.
  • The graduate evaluates strategies for the efficient and sustainable use of energy in accordance with national and international standards.

Graduate Attributes

  • To identify, formulate and solve electromechanical engineering problems applying fundamentals of basic and applied sciences.
  • To use, examine and optimize engineering design processes in electromechanical systems that result in sustainable projects based on standards.
  • To develop and guide experimentation linked to the area of electromechanics; to analyze and interpret data and use engineering judgment to draw conclusions.
  • To create material to communicate effectively using different basic and cutting-edge tools for interaction with different audiences in electromechanical areas.
  • To visualize their ethical and professional responsibilities in situations relevant to electromechanical engineering, and make informed judgments that must consider the impact of engineering solutions in global, economic, environmental and social contexts.
  • To evaluate the need for additional knowledge and put it to the test to identify, justify, integrate and produce improvement proposals in the electromechanical area.
  • To effectively structure teamwork in person and/or virtually to respond to the goals and planned times with the analysis of risks and uncertainty.

Applicant Profile

THE APPLICANT TO THE CAREER IN ELECTROMECHANICAL ENGINEERING SHOULD HAVE THE FOLLOWING QUALITIES:


  • Entrepreneurial and leadership attitude with initiative.
  • Solid preparation in Mathematics and Physics.
  • Ease to analyze problems and propose practical solutions.
  • Teamwork capacity.
  • Adaptation to prolonged work sessions under adverse physical conditions and environments.

Graduate Profile

  • To formulate, manage and evaluate engineering projects related to systems and devices in the electromechanical area, proposing solutions with cutting-edge technologies within the framework of sustainable development.
  • To design and implement electromechanical systems and devices, using strategies for the efficient use of energy in the productive and service sectors, with attachment to national and international standards
  • To design and implement strategies and programs for the control and/or automation of production processes and devices in electromechanical systems.
  • To project, manage, implement and control activities of installation and operation of electromechanical systems.
  • To formulate, manage, and supervise maintenance programs for the continuity, and optimization of production processes considering the care of the environment.
  • To collaborate in research projects for technological development in the area of electromechanics.
  • To exercise attitudes of leadership and group work for decision making from a professional ethical sense.
  • To develop an entrepreneurial attitude through the creation and incubation of companies, innovating in products and services in the electromechanical sector.
  • To apply computational tools according to cutting-edge technologies for the design, simulation, and operation of electromechanical systems according to the demand of the industrial sector.
  • To interpret, understand and communicate ideas, texts and documents of different kinds in a second language.