Undergraduate Programs

  • Electrical Engineering
  • Electronic Enginnering

 

Undergraduate Degree in Electrical Engineering

Title

Electrical Engineer

Qualification

Resolution13890 of September 4th, 2015– seven (7) years term.

Level

Undergraduate

Program Length

Eight semester periods

Credits

137

Daytime track

Day track

Modality

on-site - Bogota

SNIES Register

1541

National accreditation

Resolution 2306 of April 28th, 2009 – eight (8) years term.

"B.S. degree of Electrical Engineering is accredited by the Engineering Accreditation Commission of ABEThttp://www.abet.org/"

The objective of Electrical Engineering is the study of design, planning and operation of the electricity sector in generation, electric power transmission and distribution areas, as well as in the telecommunications sector. In this way, the field contributes to the infrastructure development of a society and, therefore, to its own progress. Electrical Engineering also contributes to the technological progress to use electricity in industry, at home, in mass electric transit (clean transportation) and all human daily activities.

Applicant Profile

The applicant for Electrical Engineering at the University of Los Andes seeks knowledge in science, engineering and the use of new technologies to learn how to apply them to solve problems. The applicant looks forward to being part of multidisciplinary work teams in large projects in the future and is interested in the program for its great relevance to the country and the broad possibilities of professional development. The applicant is interested in aspects related to energy sector, power generation, alternative energy sources, electrical energy use in the industrial sector, electric vehicles, energy economy, etc.

 

Graduate Profile

Uniandino Electrical Engineers stand out for being capable of conducting research, applying and developing techniques and technologies; graduate focus on power systems study and analysis, design, planning and regulation in the electricity and energy sector. Electrical engineers can impact the development and modernization of the electrical infrastructure of the country. They also work in companies providing services in similar fields, telecommunications, information systems, education, health, recreation, safety services, etc

 

Educational Objectives

Human Dimension

Our engineers will have ethical, professional and environmental responsibility to provide leadership within the society, through the development of systemic and critic thinking in the analysis of their environment.

 

Technical Dimension

Our engineers will have competencies that will allow them to develop solutions from electrical engineering that generate wealth and social wellbeing,incorporating the evolving state of the art in their discipline and taking advantages of innovation opportunities, with autonomy and a continuous learning capacity as evidenced by participating in programs leading to advanced degrees.

 

Social Dimension

Our engineers will have the capacity to efficiently participate in an interdisciplinary framework to solve increasingly complex problems of the society.

 

Student Outcomes (SOs)

  1. Abilities to apply knowledge of mathematics, science and engineering.
  2. Abilities to design and conduct experiments, as well to analyze and interpret data.
  3. Abilities to design a system, component, or process to meet desired needs within realistic constraints (economic, environmental, social, political, ethical, health and safety).
  4. Abilities to function on multidisciplinary teams.
  5. Abilities to identify, formulate, and solve engineering problems.
  6. An understanding of professional and ethical responsibility.
  7. Abilities to communicate effectively.
  8. A broad education necessary to understand the impact of engineering solutions in a global, economic, environmental and societal context.
  9. A recognition of the need for, and an ability to engage in life-long learning.
  10. A knowledge of contemporary issues.
  11. Abilities to use the techniques, skills and modern engineering tools necessary for engineering practice.

New students registered in the first semester

 

2011-1

2011-2

2012-1

2012-2

2013-1

2013-2

2014-1

2014-2

2015-1

2015-2

2016-1

2016-2

   10

8

13

5

16

2

17

10

13

14

21 

   13

 

Students registered per semester

2011-1

2011-2

2012-1

2012-2

2013-1

2013-2

2014-1

2014-2

2015-1

2015-2

2016-1

2016-2

   97

91

86

81

88

88

93

93

97

99

103

 104


Graduated Student per semester

2011-1

2011-2

2012-1

2012-2

2013-1

2013-2

2014-1

2014-2

2015-1

2015-2

2016-1

2016-2

  18

32

16

24

23

12

17

18

26

21

22

16 

* Fuente [source]: Boletín estadístico  de la Universidad de los Andes [University Statistical Report]

 

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Undergraduate Degree in Electronic Engineering

Title

Electronic Engineer

Qualification

Resolution 6503 of September 16th, 2009 – seven (7) years term.

Level

Undergraduate

Program Length

Eight semester periods

Credits

137

Daytime track

Day track

Modality

on-site - Bogota

SNIES Register

4690

National accreditation

Resolution 3578 of June 16th, 2008– eight (8) years term. Renewal process in progress.

"B.S. degree of Electronic Engineering is accredited by the Engineering Accreditation Commission of ABEThttp://www.abet.org/"

Electronic Engineering is the basis of most of the high technology and services on which modern civilization is structured. Electronic Engineering applications and areas of development are in sophisticated telecommunication systems, in computer engineering, in information processing systems and in entertainment, instrumentation, biomedical applications and in automation and control systems of industrial processes, among others.

Applicant Profile

The applicant has a special taste for science, technology and its applications and wants to know and explore changes in this field. The applicant is a creative, curious and analytical person and seeks to study Electronic Engineering in the University of Los Andes to learn how to solve problems using technology and because they will be able to develop new products. Applicants are interested in robotics, automation, micro and nanotechnologies.

Graduate Profile

The Uniandino Electronic Engineer stands out for being capable of conducting research, applying and developing techniques and technologies for electronic systems and telecommunications design, development of instrumentation systems, signal processing, bioengineering, industrial automation and microelectronics. Graduates focus on devises circuits and electronic system design and production to use them in product and service areas.

 

Educational Objectives

Human Dimension

Our engineers will have ethical, professional and environmental responsibility to provide leadership within the society, through the development of the systemic and critic thinking in the analysis of their environment.

Technical Dimension

Our engineers will have competencies that will allow them to develop solutions from electronic engineering that generate wealth and social wellbeing,incorporating the evolving state of the art in their discipline and taking advantages of innovation opportunities, with autonomy and a continuous learning capacity as evidenced by participating in programs leading to advanced degrees.

Social Dimension

Our engineers will have the capacity to efficiently participate in an interdisciplinary framework to solve increasingly complex problems of the society

 

Student Outcomes (SOs)

 

  1. Abilities to apply knowledge of mathematics, science and engineering.
  2. Abilities to design and conduct experiments, as well to analyze and interpret data.
  3. Abilities to design a system, component, or process to meet desired needs within realistic constraints (economic, environmental, social, political, ethical, health and safety).
  4. Abilities to function on multidisciplinary teams.
  5. Abilities to identify, formulate, and solve engineering problems.
  6. An understanding of professional and ethical responsibility.
  7. Abilities to communicate effectively.
  8. A broad education necessary to understand the impact of engineering solutions in a global, economic, environmental and societal context.
  9. A recognition of the need for, and an ability to engage in life-long learning.
  10. A knowledge of contemporary issues.
  11. Abilities to use the techniques, skills and modern engineering tools necessary for engineering practice.

New students registered in the first semester

 

2011-1

2011-2

2012-1

2012-2

2013-1

2013-2

2014-1

2014-2

2015-1

2015-2

2016-1

2016-2

  70

30

69

36

64

26

53

26

82

29

 67

  32

 

Students registered per semester

2011-1

2011-2

2012-1

2012-2

2013-1

2013-2

2014-1

2014-2

2015-1

2015-2

2016-1

2016-2

  476

421

446

402

425

397

401

356

393

368

400

373 

 

Graduated Student per semester

2011-1

2011-2

2012-1

2012-2

2013-1

2013-2

2014-1

2014-2

2015-1

2015-2

2016-1

2016-2

  45

48

32

36

33

22

32

26

31

30

26

31 

 

* Fuente [source]: Boletín estadístico  de la Universidad de los Andes [University Statistical Report]

 

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