IELE - Electric Engineering
Introductory course for engineering. The role of the engineering in society, the methods, attitudes and the expected abilities of an engineer are analyzed. Professional practice and its applications to different areas are contextualized. The student will contact groups and projects of development and research which are active in the Department of Electrical and Electronic Engineering. An introduction to university life, regulations and university resources is made.
Credits
3
Instructor
Bohorquez Reyes Juan
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0
Laboratory for the course IELE1000.
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0
This course presents students with the basic concepts involved in the electrical circuits: types of used elements, electrical circuits fundamental laws, theorems and structured analysis tools, time analysis and phasor analysis.,English,-
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3
Instructor
Salazar Antonio
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0
Course laboratory
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0
Instructor
Eljach Tatis Jairo
Credits
4
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0
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3
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0
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0
The Study of fundamental techniques for the design and implementation of digital logic design: combinational,English,-
logic, and sequential logic. Development of basic design concepts: binary number systems, Boolean algebra,,English,-
simplification methods and hardware implementation through logic gates, combinational block design,,English,-
programmable logic and memory. Sequential elements (flip-flops), finite state machines, design optimization,English,-
techniques. Structured design, high-level design. This course has laboratory practices (
IELE-1201).
Credits
3
Instructor
Segura Quijano Fredy
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0
Laboratory for the course IELE1200
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0
Crystal structure, mechanics, quantum and statistical. Piezo and ferroelectricity, magnetic properties of solids. Free electron. Band theory. Semiconductors. Photoelectric effect. Pn junction. Junction transistor, characteristics. FET characteristics. PIN and MOS. Electrical noise.,English,-
Credits
3
Instructor
Avila Bernal Alba
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0
Course laboratory
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0
Instructor
Avila Bernal Alba
Credits
3
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0
The concepts of signal and system are present in many fields in science and engineering. This course focuses primarily on methods of representation of signals that are appropriate for the study of linear and time invariant systems. Parallel treatment of continuous-time systems and discrete is done at the course, and sampling concepts are introduced in order to allow the student to understand the basic ideas used by discrete systems to process continuous signals.,English,-
Credits
3
Instructor
Lozano Martinez Fernando
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0
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0
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3
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0
AC single phase power. Multiphase systems. Phase power. Magnetic coupling. Transformers. Laplace,English,-
transform and its applications to circuits. Filtering. Analysis in the frequency domain. Resonance and,English,-
harmony. Analysis of two port networks, Elements of theory of realizability. Basic synthesis impedances and,English,-
transfer functions. Passive filter design.
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3
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0
Course laboratory
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0
In this course, the student acquires the ability of express electromagnetic phenomena through Maxwell equations in the frequency domain, taking into account the conditions and applications of static modeling of electromagnetic fields. Relationship of the electromagnetic phenomena and its modeling by electrical circuits is studied, understanding the constraints of this kind of model as well as the physical principles of the propagation and radiation phenomena and their telecommunication applications (radio frequency, microwaves and optic): Transmission lines, waveguides and antennas.
Credits
3
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0
Laboratory for the course IELE2002.
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0
Instructor
Peña Traslaviña Nestor
Credits
3
Instructor
Duque Escobar Ismael
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3
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0
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3
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3
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0
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0
The course presents basic theory of electromechanical energy conversion which includes basic concepts of active and reactive power, single-phase and three-phase transformers, concepts of induction machines and the synchronous machine. Additionally, the course introduces the students to basic concepts of high voltage transmission lines and their models. Then, power system representations per unit and in matrix form are analyzed. Technical fundamentals in power systems are presented: power flow in steady state and current computation of short circuit. The course includes basic laboratory practices and handling of computational tools to simulate a power system in steady state.,English,-
Credits
3
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0
Course laboratory
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0
Instructor
Ordo?Ez Medina Camilo
Study of the hardware and software elements of a microprocessor-based system. Processor implementation at a logical level, its elements and their control through microprogramming. Study and design of a microprocessor and its modules through their description and validation using high-level techniques and technologies. Micro-programs, machine language, assembly language, high-level language. Supporting ,English,-
devices, microprocessor architectures, microcontrollers and advanced computer architectures, operating system characteristics, resources management. Structured design methodologies. ASIC (Application-Specific Integrated Circuit) technologies. Economical issues and design styles. Design tools.,English,-
Credits
3
Instructor
Segura Quijano Fredy
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0
Course laboratory
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0
Instructor
Segura Quijano Fredy
Main electronic fundamentals are included in this course, where the student will acquire basic knowledge of comprehension and analysis of circuits including electronic components, mainly diodes and transistors. Basic DC and AC configuration and modules will be analyzed. This course is complemented by laboratory sessions where the student reinforces key concepts and becomes familiar with the elements and devices treated theoretically.
Credits
3
Instructor
Peñuela Calderon Lina
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0
Course laboratory
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0
Instructor
Peñuela Calderon Lina
Credits
3
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0
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3
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0
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0
Basic elements of control systems. State variables representations: Con- trollability, observability, canonical form. Feedback theory: Definition and Effects. Components of control systems. Typical probe signals: transient response, error definitions. Frequency re- sponse methods. Bode diagrams. Nyquist criterion. Geometric place of roots. State variables analysis. PID regulators. Leading or lagging networks. State feedback, observers. Introduction to digital control.
Credits
3
Instructor
Leirens Sylvain
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0
Course laboratory
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0
Instructor
Leirens Sylvain
Credits
3
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0
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0
Undergraduate monitor.
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0
Undergraduate Monitor.
Credits
3
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0
Instructor
Guerrero Hurtado Mauricio
Credits
3
Instructor
Guerrero Hurtado Mauricio
Credits
3
Individual research project of last semester students , which consists of the studying and developing of a problem, with the advisory of a professor.
Credits
3
Optimization theory is presented as an intermediate mathematical level. Static and dynamic cases, including,English,-
the basics of optimum control are shown, as well as linear and nonlinear problems, for continuous variables,,English,-
with few cases of discrete variables; and in general for deterministic cases. Design activities are proposed,,English,-
aiming to the presentation of optimization problems, types of design, control and applications in various areas,English,-
of electrical and electronic engineering.
Credits
3
Instructor
Giraldo Trujillo Luis
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0
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0
Credits
6
The aim of this course is to present students the design bases of the main components of infrastructure in a power system: power substations and high voltage transmission lines. This topics are presented in such a way that the student acquire the ability to,English,-
- Identify the design basic equipment of lines and substations,English,-
- Perform basic studies, required in the design process,English,-
- Understand the basic principles of electrical engineering design,English,-
Credits
3
Instructor
Rios Mesias Mario
The aim of this course is to introduce students to advanced techniques for the analysis of the behavior and performance of power systems in steady state, transient state and dynamic state. The course emphasizes the matrix representation and the computational methods for analysis of electrical power systems.,English,-
Credits
3
Instructor
Rios Mesias Mario
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0
This course aims at providing analysis and design tools for energy conversion systems which are based on electronic devices applied in the speed control of motors, switching power sources, reactive and harmonic reduction, UPS, FACTS, among others. Concepts of power quality are presented in order to allow the students to obtain a practical point of view of the applications of this course in the professional practice. The growth of semiconductor devices with higher energy handling capabilities poses a specific application reference in the conversion energy systems design with a higher level of complexity and automation, which implies the optimization of: industrial processes, energetic regulation and power quality related problems. Nowadays is common the use of FACTS devices (Flexible AC Transmission System), HVDC (High-Voltage Direct Current), ASCD (Automatic Speed Control Device), UPS (Uninterruptible Power Supply) and harmonic active filters, among other elements. Industry requires engineers with the appropriate criteria in design, selecting and maintenance of power electronic devices.,English,-
Credits
3
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0
Course laboratory IELE3106.
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0
Instructor
Ramos Lopez Gustavo
This course covers the applications of fundamentals of power systems structure and power systems components. The main power quality problems of industrial electrical Systems are presented. Finally, the students work team will apply design concepts by specifying the custom power solutions that covers the power quality solutions in industrial electrical systems.,English,-
Credits
3
Instructor
Ramos Lopez Gustavo
Throughout this course, concepts and necessary methods to analyze different policies in the energy sector are studied. Main aspects of energy sector are discussed in the new market context, taking into account new regulations and sector configuration, and constraints and environmental objectives. Necessary notions of energy, environmental economy and natural resources are reviewed in order to understand the energetic chain and its interrelations. This course presents methodologies and modeling tools to analyze energetic actions which are both economical and environmental sustainable.,English,-
Credits
3
This course concentrates on the planning, analysis and design of power distribution systems . It includes a presentation of basic concepts in distribution systems (equipment, typologies, primary and secondary network concepts) and characterization of electric demand. Distribution systems analysis tools (radial charge flow and short circuit analysis) are then introduced, together with the development of such systems’ protections coordination. Topics related to distribution systems planning are then addressed, starting with the forecast of electricity demand, and continuing with the philosophy of planning and analyzing the reliability of distribution systems. Sub-optimal problems are studied. It concludes with an overview of the regulatory and tariff framework for electricity distribution in Colombia.
Credits
3
Instructor
Torres Gutierrez Espeñanza
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3
Credits
3
Instructor
Torres Gutierrez Espeñanza
Tools for basic electrical circuit analysis: amplifiers, oscillators and filters. The use of structured methodologies is encouraged for the study, design and development of analog electronic systems which represent a solution to problems of medium and high complexity. In the context of amplification, concepts of frequency response and feedback are studied. CAD tools support the analog design process. The course is complemented by a laboratory section where the student enforces fundamental concepts and becomes familiar with the elements and devices addressed theoretically.,English,-
Credits
3
Instructor
Osma Cruz Johann
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0
Course’s laboratory IELE3200.
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0
Instructor
Perez Gordillo Fabian
Manufacturing process of Integrated Circuits (ICs), both bipolar and MOS. Definition and analysis of logic levels and noise margins. Input-Output specifications in logic gates. Basic Inverters, DTL, TTL, static logic NMOS and CMOS, ECL. Dynamic logic. RAM static and dynamic memories. ROM, EPROM and EEPROM memories: Physical structure and design applications. A/D and D/A converters, PLL, etc. Programmable logic devices: PLAs, PALs. Interfaces: CAD systems to digital design and simulation.,English,-
Credits
3
Instructor
Segura Quijano Fredy
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0
Course’s laboratory IELE3202.
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0
Study of both the analog and digital measurement chain, as well as the study of various electronic devices, specialized in signal conditioning circuits design. Knowledge of circuits and specific devices of each block composing the measurement chain, in order to implement a complete system capable of capture signals from a physical system. Sensors study, signal conditioning circuits and analog-to-digital and digital-to-analog conversion process.,English,-
Credits
3
Instructor
Guerrero Hurtado Mauricio
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0
Course’s laboratory IELE3206.
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0
In the workshop, the student face a design project in one of the application areas, under the guidance of a professor who acts as project director. Course members work on the same topic, but in different complementary modules of the project. This workshop presents the students to a real team work in which the result depends on the coordinated action of many teams. Among other topics, project management, quality, reliability, market analysis and social and environmental impact are included. The course must take the student to face a project comprehensively from the approach to the final implementation, moving through many aspects like technical, financial, administrative, economical and environmental, among others.,English,-
Credits
3
Course’s laboratory IELE3208.
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0
Instructor
Jimenez Vargas Jose
Credits
3
Credits
3
Instructor
Guerrero Hurtado Mauricio
Credits
3
Instructor
Espitia Nery Martin
In the workshop, the student undertakes a design project in one of the application areas, under the guidance of a professor who acts as project director. Course members work on the same topic, but in different complementary modules. This workshop presents the students to a real team work in which the result depends on the coordinated action of many teams. Among other topics, project management, quality, reliability, market analysis and social and environmental impact are included. The course must take the student to face a project comprehensively from the approach to the final implementation, moving through many aspects such as technical, financial, administrative, economical and environmental ones, to mention a few.,English,-
Credits
3
Instructor
Quijano Silva Nicanor
Credits
3
Credits
3
The course presents the fundamentals of communication systems. Modulation, multiplexing techniques, noise study in communication systems, sampling and digital communications.,English,-
,English,-
Credits
3
Instructor
Paez Carlos
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0
Course’s laboratory IELE3400.
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0
Instructor
Paez Carlos
Introduction to the main modern telecommunications, network concepts, protocols, architectures and applications. Quantitative treatment, analytic and simulation techniques for network modeling.
Credits
3
Instructor
Peña Traslaviña Nestor
Credits
3
Instructor
Peña Traslaviña Nestor
Credits
3
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3
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3
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3
Credits
3
In the workshops, the student faces a design project in one of the application areas, with the advisory of a professor, who acts as project director. The students work on the same subject , but in complementary modules. In these workshops the student is exposed to true team work, the results of which depend on the coordinated action of several groups. Among other systems, it includes themes such as project management, quality, reliability, market analysis and social and environmental impact. The course is intended to lead the students to face a project in a comprehensive manner, from its setting out to its final implementation, reviewing physical, financial, administrative, economic and environmental aspects.
Credits
3
Instructor
Bustamante Miller Roberto
Credits
3
Instructor
Bustamante Miller Roberto
The course’s objectives are: i- Capturing the attention of the participants through the proper information relative possible uses of new information and communication technologies, aimed at improving health care assistance and coverage of health care services. ii- Setting the methodological bases to study relevant, useful and efficient telemedicine applications. iii- Analyzing the most interesting experiences worldwide and others being efficiently developed in this area. iv- Understanding implementation possibilities and limitations. It addresses topics such as: Telemedicine general aspects, existing telemedicine technologies , Communications Technologies, representative experiences, evaluation of quality technique, Financial, profitability and sustainability assessment, Protocols and regulations, Legal Aspects, Health Systems and TIC, Hospital information systems and information networks.
Credits
3
Instructor
Salazar Antonio
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0
Instructor
Alvarez Mojica Ruth
Credits
3
Instructor
Castro Leal Miguel
Credits
3
Instructor
Castro Leal Miguel
Electric and Electronical Department’s master degree program seminar. This is a mandatory seminar for all students and it’s coordinated by the different research groups. In this seminar, the student gets to know research projects being developed by the groups and begins to gradually develop his/her proposal under a teacher’s guidance.
Credits
0
Electric and Electronical Department’s master degree program seminar. This is a mandatory seminar for all students , which is coordinated by different research groups. In this seminar, students get to know research projects being developed by the groups and begin to develop their research work to report on their progress and receive the group’s comments, advise and suggestions.
Credits
0
Instructor
Guerrero Hurtado Mauricio
Seminar o the Electric and Electronical Master`s Degree program. This is a mandatory seminar for all students and it is coordinated by different research groups. In this seminar, the students get to know research projects being developed by the groups and begins to develop research work to communicate their progress and receive feedback, directions and suggestions.
Credits
0
This is a special or regular course taken by the student under a teacher-tutor’s guidance individually or in small groups, which can be used to supplement the concentration area or support the research project.
Credits
4
Instructor
Guerrero Hurtado Mauricio
A study supervised by an advisor teacher about issues or topics within the students` focus and research area, aimed at complementing their concentration area or at complementing their preparation for the research project. At the beginning of the academic term, the student submits a proposal with the project’s objectives and scope, its methodology, expected results and the mechanism defined by the advisor for its development follow-up.
Credits
4
Instructor
Lozano Martinez Fernando
Credits
3
Instructor
Lozano Martinez Fernando
The course objective is to bring in the base methods for the analysis of dynamic linear systems with several entries and exits through linear algebra review, system’s mathematical descriptions, dynamic linear equations solutions, stability, controllability, observability and canonic forms of a system with multiple variables, transference matrix, representation by differential operator and multivariable control.
Credits
4
Instructor
Leirens Sylvain
The course’s main objective is providing the student with tools to identify the main features of typical stochastic processes and allowing them to analyze and design dynamic systems with uncertain variables. The course initially presents a profitability theory review with definitions, axioms, random variables concepts , distribution functions and profitability density, random variable functions, conditional moments and statistics, and random and statistical variable sequences basic concepts. The course focuses on stochastic processes and power spectrum general concepts, the study of basic processes such as Brownian movement, Poisson processes, white noise and Markov processes. Ergodicity and seasonability concepts. Stochastic differential and stochastic integration equations solving and linear systems with stochastic entries integration. Stochastic processes spectral representation. Orthogonality principle, filters, estimates and prediction.
Credits
4
Instructor
Torres Macias Alvaro
This course is an introduction to optimization techniques usually required to be used to solve problems in several engineering areas. It addresses non-restricted optimization problems and the main solving methods for this type of problems. It also addresses linear programming, including simplex method and applications to transport and flow problems. Finally, it will bring in basic restricted non-linear programming concepts.
Credits
4
Instructor
Lozano Martinez Fernando
Credits
4
This course covers models, methods and algorithms on machines (computers) learnt based on their experience. Mathematical learning models will be studied, based on which the fundamental elements of this type of systems from the statistical and computer standpoints. Based on the study of theory, methods of the status of art will be introduced, which are currently used with success in applications to actual problems in function classification, regression and approximation.
Credits
4
Instructor
Lozano Martinez Fernando
Credits
4
Credits
4
Graduation Project first term.
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4
Graduation Project second term
Credits
8
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0
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0
Credits
4
The objective of this course is to provide students with an introduction in the field of high speed transient electromagnetic phenomena that take place in power systems due to atmospheric phenomena. This way students can apply mathematical methods for their analysis and determination of protections against surges with these characteristics.
Credits
4
Instructor
Torres Macias Alvaro
Present, analyze and propose the concepts and methods needed to setup an economic, social and environmentally sustainable energy policy. Assimilate the main aspects of the problems associated with management in the energy context, within the new market context and in accordance with the new game rules and the sector organization. The discussion will be organized in three major topics: i- Sustainability concept and concepts related to energy systems and the energy chain. The aspects related to the assignment and utilization of energy resources in production, transformation, distribution and power consumption activities are identified. Natural resource and environmental economy (based on the economic functions of the environment) and energy balance concepts (sources, final and useful energy and losses are reviewed. A panorama of the international and Colombian energy systems is made and the international agreements regarding economic and environmental matters are examined, as well as their incidence and opportunities on the energy sector. Ii- The methodologies and tools designed to support the preparation of a sustainable energy policy are assessed, taking into consideration the technology, economic, social and environmental aspects, and taking into account the multiplicity of agents and interests involved in decision-making, the asymmetries of information and the existing limits to define such policy. The top-down and bottom-up support models for analysis will be reviewed – and the scenario technique. Iii- The restructuring processes carried out in the energy sector are discussed – changes in copyrights, activity disaggregation (des-regulation and new organization). The theories of regulation on the different State intervention means and the microeconomy fundamentals of market operation and monopoly activities are reviewed. Special emphasis is given to the rules to ensure freedom of access and to avoid restrictive practices of the competition and unfair competition, as well as the application of price regulation.
Credits
3
Credits
4
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3
Credits
4
Credits
4
Credits
3
Instructor
Segura Quijano Fredy
Current developments in the interaction of electronic and mechanical elements in micrometric scales have generated the microsystem concept (MST) /MEMS (micro-electromechanical system). The course is aimed at familiarizing the student with basic terms and concepts at the level of physical-mechanical parameters escalation, top-down manufacture simulation, CAD tools and applications management in the microsystems area. Tutorial work will be developed for the design of mechanical, electric, magnetic and thermal actuators that will enable the student to gain experience in description and multi-physical design of MST, using the ANSYS tool. At the end of the course, the student will have the opportunity to concentrate on a research Project.
Credits
3
Instructor
Avila Bernal Alba
Credits
3
Credits
4
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4
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4
Credits
3
Instructor
Gauthier Sellier Alain
Computer, telecommunications and sensor technology evolution has led to the emergence of new complex and highly technological systems. Generally speaking, networks, telecommunications systems, automated industrial processes, traffic control systems, diagnose and monitoring systems in extensive areas, logistics systems, etc, are examples of this type of systems. In such systems, the activity is governed by concurrent operational sequences designed by humans, which react to the asynchronous occurrence of discrete events. The purpose of the course is to conduct a unified introduction to the area of Dynamic Systems - Discrete Events as the basis for advanced courses in the Electrical, Electronic, Industrial and Mechanical Engineering masters degree program.
Credits
3
Instructor
Quijano Silva Nicanor
Credits
4
Credits
3
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4
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3
Credits
4
An in-depth treatment of the current communications digital systems is presented. Topics include, among others, the representation of deterministic and random signals, modulation and de-modulation schemes, including the current schemes, equalization, spectral properties, error correction codes, communication channel characteristics, applications.
Credits
3
Instructor
Bustamante Miller Roberto
Credits
3
Instructor
Peña Traslaviña Nestor
Credits
4
Credits
3
Instructor
Beltran Garcia Hector
Credits
4
Credits
4
Credits
4
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4
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4
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4
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4
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4
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4
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4
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4
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4
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4
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0
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4
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4
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4
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0
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4
Credits
8
Credits
12
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0
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0