Bueno después de haber pasado toda una odisea en mi ciclo verano adelantando Fluidos de Perforación (Lodos) y Reservorios I puedo decir que me encuentro felizmente cansado pues desde el final de Lodos me había quedado en un estado de trance ya que no estaba seguro de haber alcanzado el puntaje necesario; finalmente ayer salieron las notas y este Blogger salió airoso! :D
Como decían en Dragon Ball "La tranquilidad nuevamente ha llegado..." aunque se viene el ciclo 2009-I aún tengo un par de semanas para descansar y dar libre albedrío a mi espíritu petrolero haciendo cosas que me gustan hacer, entre ellas Bloggear!
Quería empezar el día escribiendo un post relacionado a Ing. Mecatrónica, ya sé que no es mi especialidad ni tampoco me gustaría que lo fuese pero escribo este post inspirado en la carita bonita de una chinita (tenía apariencia de coreanita) que conocí en el Icpna cuando estaba en el primer turno pues quedé sorprendido cuando me dijo que estudiaba Ing. Mecatrónica, pensé que en la UNI :) pero me dijo que en la Católica :( ... Aunque no tenía tiempo para hacerle una conversa después de clase porque de ahí tenía que ir volando a la UNI, me hubiese gustado saber más de ella pero en español xD porque en inglés este blogger a veces se enredaba. Terminó el ciclo de inglés y ya no supe de ella, pero si algún día ve este post, aunque no sé si será asidua a los blogs, que sepa que me gustaba...
Terminando con ese ligero haz idílico de entrada, a continuación les dejo la información académica que corresponde a la carrera dictada en la UNI.
PERFIL PROFESIONAL Y CAMPO OCUPACIONAL DEL INGENIERO MECATRÓNICO
Al ser una especialidad con gran proyección, la formación constituye una integración de disciplinas que abarca la Mecánica, la Electrónica y la Informática, tanto para el diseño y la utilización de sistemas productivos. Para ese efecto, se recurre a técnicas de control digital basadas en computadoras y comunicación a distancia, aplicadas a la concepción, diseño y fabricación de sistemas mecánicos automatizados, robots, sistemas inteligentes, así como al ahorro de energía, la elevación de la productividad y calidad de la industria.
Como portador de conocimientos de mecánica, control de sistemas, informática, electrónica y electricidad, al trabajar en áreas que corresponden a diferentes disciplinas, el Ingeniero Mecatrónico es capaz de:
- Innovar y adaptar tecnología existente, proponiendo sistemas cuyos diseños hagan uso óptimo de tecnologías, desde el punto de vista de la operatividad y los recursos económicos, a seleccionar y poner en funcionamiento equipos y soluciones tecnológicas a gran escala, a bajo costo y preservando el medio ambiente; o programas de computación aplicadas a la automatización de equipos, máquinas y procesos industriales, incluyendo control, simulación y diseño de interfaces automatizadas de procesos, así como automatización de procesos industriales.
- Impulsar el desarrollo de proyectos de investigación e innovación tecnológica, tanto a través de la incorporación de nuevas tecnologías que permitan mejorar y modernizar procesos industriales diversos como la construcción de máquinas asistidas por sistemas de control electrónico.
PLAN DE ESTUDIOS
Primer Ciclo
- Cálculo Diferencial
- Geometría Analítica y Vectorial
- Física I
- Química General
- Comunicación y Redacción Técnica
- Dibujo Técnico
- Geometría Descriptiva
Segundo Ciclo
- Cálculo Integral
- Álgebra Superior
- Física II
- Computación I
- Elementos de Máquinas
- Dibujo Mecánico I
- Comportamiento Humano y Organizacional
Tercer Ciclo
- Cálculo Vectorial
- Física III
- Computación II
- Ciencias de los Materiales
- Estática
- Dibujo Mecánico II
Cuarto Ciclo
- Ecuaciones Diferenciales
- Estadística y Probabilidades
- Proceso de Manufactura
- Dinámica
- Circuitos Eléctricos
- Termodinámica
Quinto Ciclo
- Matemática Avanzada
- Resistencia de Materiales
- Laboratorio de Circuitos Eléctricos
- Máquinas Eléctricas
- Circuitos Electrónicos I
- Mecánica de Fluidos
- Circuitos Digitales I
Sexto Ciclo
- Cálculo Numérico
- Laboratorio de Máquinas Eléctricas
- Circuitos Electrónicos II
- Transferencia de Calor
- Laboratorio de Termofluidos
- Circuitos Digitales II
- Ingeniería de Control I
- Sistemas Electrohidráulicos y Electroneumáticos
Séptimo Ciclo
- Mecanismos
- Electrónica Industrial
- Máquinas Hidráulicas y sus Sistemas de Control
- Microprocesadores y Microcontroladores
- Ingeniería de Control II
- Tecnología de Sensores Actuadores y Mediciones
- Software de Simulación
Octvo Ciclo
- Control de Calidad
- Ingeniería Económica y Finanzas
- Ingeniería de Control III
- Control de Procesos
- Comunicación de Datos y Redes
- Procesamiento de Señales I
- Diseño de Máquinas
Noveno Ciclo
- Cálculos por Elementos Finito
- Constitución y Derecho Empresarial
- Procesamiento de Señales II
- Robótica I
- Inteligencia Artificial
- Proyecto de Automatización I
Décimo Ciclo
- Política y Entorno de los Negocios
- Robótica II
- Control Numérico CAD/CAM
- Proyecto Automatización II
a) Créditos de cursos obligatorios = 210
b) Créditos de cursos electivos y actividades diversas = 21
Total de créditos para egresar = 231
Fuente: Prospecto de Admisión UNI
ENGLISH VERSION
Well after spending an entire summer odyssey in my cycle ahead of drilling fluids (muds) and Reservoirs I can happily say that I am tired because of sludges from the end I had been in a state of trance since he was not sure I reached the necessary score finally came out yesterday that the notes and left gracefully Blogger! : D
As stated in Dragon Ball "The peace has come again ..." although the cycle is 2009-I still have a couple of weeks to rest and give free oil to my spirit by doing things that I like to do, including blogging!
I wanted to start the day by writing a post related to Mechatronic Engineer, I know it is not my specialty nor what I would write this post but was inspired by the beautiful face of a darling (I was coreanita appearance) had met on the ICPNA when he was in the first round because I was surprised when I said studying Mechatronics Engineer, I thought that at the UNI:) but he said that the Catholic (... Although I had no time to make a conversation after class because of there had to be flown to the UNI, I would have liked to know more of it in Spanish but in English xD because this blogger is sometimes mess. He completed the cycle of English and I did not know it, but if one day see this post although I do not know if it will be a regular blog, you know that I liked!
End this idyllic input light beam, then they leave the academic career is given in the UNI.
PROFILE OF OCCUPATIONAL AND FIELD ENGINEER Mecatronics
As a specialty with great projection, training is an integration of disciplines covering mechanics, electronics and computers, both for the design and use of productive systems. To that end, uses techniques of computer-based digital control and communication, applied to the development, design and manufacture of automated mechanical systems, robots, intelligent systems, as well as energy savings, higher productivity and quality of the industry.
As a bearer of knowledge of mechanics, control systems, computers, electronics and electricity, when working in areas that correspond to different disciplines, Mechatronics Engineering is able to:
Innovate and adapt existing technology, offering systems whose designs make optimum use of technologies, from the viewpoint of operational and financial resources to select and operate equipment and technology solutions to large-scale, low cost and preserving the environment environment, or computer programs applied to automation equipment, machinery and industrial processes, including monitoring, simulation and design of interfaces for automated processes, as well as automation of industrial processes.
Promote the development of research and technological innovation, both through the introduction of new technologies to enhance and modernize various industrial processes such as construction machinery-assisted electronic monitoring systems.
SYLLABUS
First Cycle
Differential Calculus
Vector and Analytic Geometry
Physics I
General Chemistry
Communication and Technical Writing
Technical Drawing
Descriptive Geometry
Second Cycle
Integral Calculus
Higher Algebra
Physics II
Computer I
Elements of Machines
Mechanical Drawing I
Human Behavior and Organizational
Third Cycle
Vector Calculus
Physics III
Computer II
Materials Science
Static
Mechanical Drawing II
Fourth Cycle
Differential Equations
Statistics and Probability
Manufacturing Process
Dynamics
Electrical Circuits
Thermodynamics
Fifth Cycle
Advanced Mathematics
Strength of Materials
Electrical Circuits Lab
Electrical Machines
Electronic Circuits I
Fluid Mechanics
Digital Circuits I
Sixth Cycle
Numerical Calculation
Electrical Machines Laboratory
Electronic Circuits II
Heat Transfer
Laboratory Termofluidos
Digital Circuits II
Control Engineering I
Electrohydraulic systems and electro -
Seventh Cycle
Mechanisms
Industrial Electronics
Hydraulic Machines and Systems Control
Microprocessors and Microcontrollers
Control Engineering II
Technology and Measurement Sensors Actuators
Software Simulation
Octvo Cycle
Quality Control
Engineering Economic and Finance
Control Engineering III
Process Control
Data Communication and Networks
Signal Processing I
Machine Design
Ninth Cycle
Finite element calculations
Constitution and Corporate Law
Signal Processing II
Robotics I
Artificial Intelligence
Automation Project I
Tenth Cycle
Politics and Business Environment
Robotics II
CNC CAD / CAM
Automation Project II
a) course credits required = 210
b) Credits and various elective courses = 21
Total credits for graduation = 231
Source: UNI Admission Brochure
As stated in Dragon Ball "The peace has come again ..." although the cycle is 2009-I still have a couple of weeks to rest and give free oil to my spirit by doing things that I like to do, including blogging!
I wanted to start the day by writing a post related to Mechatronic Engineer, I know it is not my specialty nor what I would write this post but was inspired by the beautiful face of a darling (I was coreanita appearance) had met on the ICPNA when he was in the first round because I was surprised when I said studying Mechatronics Engineer, I thought that at the UNI:) but he said that the Catholic (... Although I had no time to make a conversation after class because of there had to be flown to the UNI, I would have liked to know more of it in Spanish but in English xD because this blogger is sometimes mess. He completed the cycle of English and I did not know it, but if one day see this post although I do not know if it will be a regular blog, you know that I liked!
End this idyllic input light beam, then they leave the academic career is given in the UNI.
PROFILE OF OCCUPATIONAL AND FIELD ENGINEER Mecatronics
As a specialty with great projection, training is an integration of disciplines covering mechanics, electronics and computers, both for the design and use of productive systems. To that end, uses techniques of computer-based digital control and communication, applied to the development, design and manufacture of automated mechanical systems, robots, intelligent systems, as well as energy savings, higher productivity and quality of the industry.
As a bearer of knowledge of mechanics, control systems, computers, electronics and electricity, when working in areas that correspond to different disciplines, Mechatronics Engineering is able to:
Innovate and adapt existing technology, offering systems whose designs make optimum use of technologies, from the viewpoint of operational and financial resources to select and operate equipment and technology solutions to large-scale, low cost and preserving the environment environment, or computer programs applied to automation equipment, machinery and industrial processes, including monitoring, simulation and design of interfaces for automated processes, as well as automation of industrial processes.
Promote the development of research and technological innovation, both through the introduction of new technologies to enhance and modernize various industrial processes such as construction machinery-assisted electronic monitoring systems.
SYLLABUS
First Cycle
Differential Calculus
Vector and Analytic Geometry
Physics I
General Chemistry
Communication and Technical Writing
Technical Drawing
Descriptive Geometry
Second Cycle
Integral Calculus
Higher Algebra
Physics II
Computer I
Elements of Machines
Mechanical Drawing I
Human Behavior and Organizational
Third Cycle
Vector Calculus
Physics III
Computer II
Materials Science
Static
Mechanical Drawing II
Fourth Cycle
Differential Equations
Statistics and Probability
Manufacturing Process
Dynamics
Electrical Circuits
Thermodynamics
Fifth Cycle
Advanced Mathematics
Strength of Materials
Electrical Circuits Lab
Electrical Machines
Electronic Circuits I
Fluid Mechanics
Digital Circuits I
Sixth Cycle
Numerical Calculation
Electrical Machines Laboratory
Electronic Circuits II
Heat Transfer
Laboratory Termofluidos
Digital Circuits II
Control Engineering I
Electrohydraulic systems and electro -
Seventh Cycle
Mechanisms
Industrial Electronics
Hydraulic Machines and Systems Control
Microprocessors and Microcontrollers
Control Engineering II
Technology and Measurement Sensors Actuators
Software Simulation
Octvo Cycle
Quality Control
Engineering Economic and Finance
Control Engineering III
Process Control
Data Communication and Networks
Signal Processing I
Machine Design
Ninth Cycle
Finite element calculations
Constitution and Corporate Law
Signal Processing II
Robotics I
Artificial Intelligence
Automation Project I
Tenth Cycle
Politics and Business Environment
Robotics II
CNC CAD / CAM
Automation Project II
a) course credits required = 210
b) Credits and various elective courses = 21
Total credits for graduation = 231
Source: UNI Admission Brochure
Note: It's a literal translation!
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