Engineering in Industrial Robotics

Objective

To form robotic engineers able to apply their scientific, technical and socio-cultural knowledge to design, manufacture and maintain automated systems and production equipment, as well as design, start up and maintain industrial plants, investigate and implement new technologies, create and manage micro, small and medium companies in the area of automation and manufacturing.

Candidate’s Profile

The candidate to one of the engineering majors that are taught in the four ESIME schools must have the following basic knowledge, skills, attitudes and values:

Knowledge

  • Theoretical and practical knowledge of the previous physical-mathematical sciences.
  • Fluency and reading comprehension, as well as ability to express themselves through everyday scientific language, both orally and writing.
  • Capacity for logical reasoning such as analysis, synthesis and application of knowledge.
  • Use of scientific methodology.
  • Comprehension, management and application of formulated information in various languages such as graphic, symbolic and computational as well as reading comprehension in English.
  • Hand skills for laboratory work with specialized instruments.
  • Empathy for self-learning that fosters intellectual, affective and social development.
  • Creativity to solve new situations, achieve improvement and solve problems.
  • Availability to work in teams.
  • Responsibility, respect, honesty and social solidarity.

Graduate´s profile

At the end of the degree, the graduate will be able to substantiate and apply scientific and technological knowledge, as well as use the skills, attitudes and values necessary for the exercise of the profession, for the benefit of society and the development of the nation.

In the professional activity the graduate will be able to:

  • Design, maintain and build devices, equipment and engineering machines in industrial robotics.
  • Portray, design and put into operation plants and systems that integrate engineering equipment in industrial robotics.
  • Research, adapt and build new technologies and knowledge.
  • Plan, organize, advise and direct service companies, manufacturing and maintenance in industrial robotics engineering.
  • Apply the national, international and industrial, technical, legal, ethical, ecological, hygiene and safety standards inherent to engineering in industrial robotics.
  • Enable, instruct and train in the branches of engineering in industrial robotics to diverse personnel.
  • Understand, apply and develop the basic scientific, technical and socioeconomic principles of engineering in industrial robotics.
  • Manage the principles and applications of other disciplines related to engineering in industrial robotics.
  • Obtain and process information in an oral and written manner for projects and research.
  • Apply analytical, creative and innovative thinking for problem analysis and decision-making.
  • Use the processes, methods, and tools of engineering in industrial robotics.

Academic Requirements

Comply in a timely manner with each of the stages of the admission process highlighted in the call for entry to the university system at IPN and show documents such as:

  • Official certificate of higher education.
  • Certificate of secondary education.
  • Single Population Registry Key (CURP).
  • Birth certificate.
  • Pass the entry examination.
  • 6 small size photos. (4x4)

Work Field

At the end of the degree, the graduate will be able to substantiate and apply scientific and technological knowledge, as well as the skills, attitudes and values necessary for the exercise of the profession, for the benefit of society and the development of the nation.

  • Design, maintain and build devices, equipment and engineering machines in industrial robotics.
  • Portray, design and put into operation plants and systems that integrate engineering equipment in industrial robotics.
  • Research, adapt and build new technologies and knowledge.
  • Plan, organize, advise and direct service companies, manufacturing and maintenance in industrial robotics engineering.
  • Apply the national, international and industrial, technical, legal, ethical, ecological, hygiene and safety standards inherent to engineering in industrial robotics.
  • Enable, instruct and train in the branches of engineering in industrial robotics to diverse personnel.
  • Understand, apply and develop the basic scientific, technical and socioeconomic principles of engineering in industrial robotics.
  • Manage the principles and applications of other disciplines related to engineering in industrial robotics.
  • Obtain and process information in an oral and written manner for projects and research.
  • Apply analytical, creative and innovative thinking for problem analysis and decision-making.
  • Use the processes, methods, and tools of engineering in industrial robotics.

Curriculum Map

Check the list of subjects, credits and total hours of the program on the website of each school.