Choose C
|
Code |
Skill |
|
C1 |
CET1. Project, calculate and design products, processes, facilities and plants. |
|
C2 |
CET2. Manage, plan and supervise multidisciplinary teams. |
|
C3 |
CET3. Conduct research, development and innovation in products, processes and methods. |
|
C4 |
CET4. Perform strategic planning and apply to both constructive and production, quality and environmental management systems. |
|
C5 |
CET5. Technically and economically manage projects, installations, plants, companies and technology centers. |
|
C6 |
CET6. Able to exercise general direction, technical direction and project management R & D in plants and technology centers. |
|
C7 |
CET7. Apply their knowledge and solve problems in new or unfamiliar environments within broader contexts and multidisciplinary environments. |
|
C8 |
CET8. Being able to integrate knowledge and handle complexity and formulate judgments based on information that was incomplete or limited, include reflecting on social and ethical responsibilities linked to the application of their knowledge and judgments. |
|
C9 |
CET9. Knowing how to communicate the conclusions -and the knowledge and rationale underpinning these, to specialist and non-specialist audiences clearly and unambiguously. |
|
C10 |
CET10. Possess learning skills that will allow further study of a self-directed or autonomous mode. |
|
C11 |
CET11. Knowledge, understanding and ability to apply the necessary legislation in the exercise of the profession of Industrial Engineer. |
|
C12 |
CTI1. Knowledge and capacity for analysis and system design generation, transmission and distribution of electricity. |
|
C13 |
CTI2. Knowledge and ability to design, calculate and design integrated manufacturing systems. |
|
C14 |
CTI3. Ability to design and test machines. |
|
C15 |
CTI4. Capacity for analysis and design of chemical processes. |
|
C16 |
CTI5. Knowledge and skills for the design and analysis of thermal machines and engines, hydraulic machines and facilities for heat and industrial refrigeration |
|
C17 |
CTI6. Knowledge and capabilities to understand, analyze, operate and manage the different sources of energy. |
|
C18 |
CTI7. Ability to design electronic and industrial instrumentation systems. |
|
C19 |
CTI8. Ability to design and automated production systems design and advanced process control. |
|
C20 |
CGS1. Knowledge and skills to organize and run businesses. |
|
C21 |
CGS2. Knowledge and Skills strategy and planning applied to different organizational structures. |
|
C22 |
CGS3. Knowledge of commercial and labor law. |
|
C23 |
CGS4. Knowledge of financial accounting and cost. |
|
C24 |
CGS5. Knowledge of information systems management, industrial organization, logistics and production systems and quality management systems. |
|
C25 |
CGS6. Capacity for work organization and human resource management. Knowledge on prevention of occupational risks. |
|
C26 |
CGS7. Knowledge and Skills for Integrated Project Management. |
|
C27 |
CGS8. Ability to manage research, development and technological innovation. |
|
C28 |
CIPC1. Ability to design, construction and operation of industrial plants. |
|
C29 |
CIPC2. Knowledge of construction, building, facilities, infrastructure and urban planning in the field of industrial engineering. |
|
C30 |
CIPC3. Knowledge and Skills for the calculation and design of structures. |
|
C31 |
CIPC4. Knowledge and skills to plan and design intelligent electrical and fluid, lighting, air conditioning and ventilation, energy saving and, acoustic efficiency facilities, communications, automation and buildings and security installations. |
|
C32 |
CIPC5. Knowledge of methods and techniques of transportation and industrial maintenance. |
|
C33 |
CIPC6. Knowledge and skills to perform monitoring and control of facilities, processes and products. |
|
C34 |
CIPC7. Knowledge and skills for certification, audits, inspections, tests and reports. |
|
C35 |
CTFM1. Execution, presentation and defense, once obtained all the credits of the curriculum, from an original exercise done individually before a university tribunal, consisting of a comprehensive project of Industrial Engineering of professional nature in which the skills acquired in the lessons are synthesized. |
Choose D
|
Code |
Competences |
|
D1 |
ABET-a. An ability to apply knowledge of mathematics, science, and engineering. |
|
D2 |
ABET-b. An ability to design and conduct experiments, as well as to analyze and interpret data. |
|
D3 |
ABET-c. An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability. |
|
D4 |
ABET-d. An ability to function on multidisciplinary teams. |
|
D5 |
ABET-e. An ability to identify, formulate, and solve engineering problems. |
|
D6 |
ABET-f. An understanding of professional and ethical responsibility. |
|
D7 |
ABET-g. An ability to communicate effectively. |
|
D8 |
ABET-h. The broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context. |
|
D9 |
ABET-i. A recognition of the need for, and an ability to engage in life-long learning. |
|
D10 |
ABET-j. A knowledge of contemporary issues. |
|
D11 |
ABET-k. An ability to use the techniques, skills, and modern engineering tools necessary for engineering practice. |