Mecatrónica en Colombia y en el Mundo
Presentado por:
Ali Amaya Torres
Asignatura:
Introducción a
la Mecatrónica
Grupo: M1C
Escuela Tecnológica
Instituto Técnico Central
2013
COLOMBIA
Escuela de ingeniería de Antioquia
GENERALIDADES
SNIES: 20024
Título: Ingeniero Mecatrónico Duración: 10 semestres Horario: Diurno Resolución de Registro Calificado: 2040 del 25 de marzo de 2010 |
- Estudio de
idiomas en universidades o institutos extranjeros.
- Semestre
Académico (a partir de sexto semestre)
- Doble titulación
con una universidad extranjera (a partir de noveno semestre)
- Semestre
Académico Complementario como opción SPE (a partir de noveno semestre)
- Participación en
un proyecto de investigación en una universidad extranjera como opción SPE
(a partir de noveno semestre)
- Práctica
empresarial en el extranjero como opción SPE (a partir noveno semestre)
- Práctica
social/empresarial con AIESEC.
Página Web
EN EL MUNDO
Universidad
de Melbourne (AUSTRALIA)
Universidad de Sídney (Australia)
La Escuela de Aeronáutica, Ingeniería Mecánica y Mecatrónica de la
Universidad de Sydney es una de las escuelas de ingeniería más importante de
Australia. Se corre un gran éxito programas de investigación de pregrado,
postgrado y. La escuela es un componente importante de la Ingeniería y la
Facultad de TI de la Universidad de Sydney. Clasificado con el número uno
en Nueva Gales del Sur (rankings AEN) y el tercero en Australia, la Universidad
de Sydney es un líder mundial en la Enseñanza y la Investigación.
Nuestro personal académico están involucrados en las áreas de
investigación incluyendo Biomateriales y Biomecánica, Combustión, optimización
de diseño, producción de energía, robótica de campo, Dinámica de Fluidos,
Materiales y Manufactura, Navegación y Control, Reología, Estructuras
inteligentes, termofluidos y UAV Vuelo Sistemas. El personal es muy
exitosa en la obtención de financiación de la investigación ARC y subvenciones
competitivas externas con la industria.
Una amplia gama de programas de pregrado y postgrado cubre,
·
Aeronáutica y
Aeronáutica (espacio) (294 estudiantes UG en 2011)
·
Biomédica (247
estudiantes UG en 2011)
·
Mecánica y Mecánica
(espacio) (351 estudiantes UG en 2011)
·
Mecatrónica y
Mecatrónica (espacio) (218 estudiantes UG en 2011)
·
La investigación
(PhD, MPhil) y Posgrado Cursos (201 estudiantes PG en 2011)
·
Combinado con
grados Comercio, Ciencia, Artes, Derecho y Ciencias Médicas
Ya sea que usted está estudiando, planeando estudiar, le gustaría unirse
a nuestros programas de investigación, consultar con nuestro personal o
simplemente estás visitando, siéntase libre de navegar por las páginas de este
sitio y ponerse en contacto con nosotros para más información.
Instituto
Avanzado de Ciencia y Tecnología de Corea
Plan de estudios
Nano/Micro Systems Technology
Nano/micro Systems technology, which features high
integration and high precision, has risen as a key technology. The important
role of mechanical engineering in the development of Nano/Micro Systems
Technology is the development and application of related components and system
technology in the sub-areas listed below.
1) Nano-mechatronics system design
2) Nano-precision measurement/actuation
3) Micro-electronic packaging
4) Micro-electro-mechanical-systems
5) Micro-fabrication/machining
6) Micro-thermo-fluids
7) Nano-particles engineering
IT-based Intelligent Mechanical System
IT-based Intelligent Mechanical Systems, which implant
intelligence to machine systems, is an interdisciplinary area combining
conventional mechanical technology and new information technology. The main
goal of IT-based Intelligent Mechanical Systems is to develop fundamental
technologies and to apply them to the industry field.
1) Intelligent Robot Systems
2) Computer-based Design
3) e-Manufacturing
4) Intelligent Manufacturing System
5) Entertainment Engineering
6)
Virtual Manufacturing System
7) Core Parts and Devices for Intelligent Systems
8) Smart Structure
9) Intelligent Transportation Systems
Thermofluid and Energy Systems
Thermofluid and Energy Systems deal with energy and
environment problems such as new power/energy generation and conversion, and
thermofluid flow. The study of Thermofluid and Energy Systems covers physical
phenomena related to heat and fluid in microstructures such as nano particle
control, micro fluid flow, and micro coolers used in next generation key
technologies such as BT, NT, and IT.
1) New Energy System The study of New Energy Systems
develops eco-friendly energy systems with high efficiency and low pollution and
new energy system technology such as substitute energy, fuel cell, and hydrogen
energy.
2) Micro Thermo-Fluid System The study of Micro
Thermo-Fluid Systems covers hear-transfer and flow control technology for
micro-systems such as Micro-fluidics and PCR (Polymerase Chain Reaction.)
3) Environmental Control System The study of
Environmental Control Systems covers the control of air pollution and
micro-particles in order to manage the global environment as well as the
domestic environment and to develop super clean technologies.
4) Study covers the direct utilization of
very-low-temperate technology and vacuum technology and the development of a
low-temperature cooler/refrigerator for use in a superconductivity system.
Biomedical System Engineering
The goal of Biomedical System Engineering, which has
an academic basis in life science and biomedical engineering, is to discover
the mechanisms of living bodies in motion, and to utilize the mechanisms in the
diagnosis of diseases. Research in this field also endeavors to invent new
diagnosis methods, and develop artificial organs and new treatments, and
nursing techniques using medical-purposed robots. All of the activities are for
the benefit of human existence.
1) Biomechanics
- The field of Biomechanics covers
implants, artificial arms and legs, medical- and welfare-purposed robots,
rehabilitation engineering, sports medical science, etc.
2)
Biofluids
- In the area of Biofluids, artificial
organs such as hearts and blood vessels are developed and studies are conducted
on the diagnosis of diseases related to artificial organs.
3) Biomaterials
- The study of Biomaterials deals with
the bioengineering of artificial material for artificial organs.
4) Bioinstrumentation
- Bioinstrumentation covers measurement
equipment for observation of living bodies.
5) Cell mechanics
- Cell mechanics studies the analysis and
control of cell motion.
6) Biomimetics
- The study of Biomimetics deals with the
discovery and utilization of the mechanisms of the motion
of the living body.
of the living body.
Mechanics & Design Innovation
The objective of Mechanics & Design Innovation is
to develop creative and innovative technologies for design and analysis of
future-oriented machines, mechanisms, software, and machine systems. The study
covers the development of new design theory and technology, mechanics, the innovation
of analysis methods, and the development of advanced-materials and design
databases.
1) Computational engineering science
2) Design optimization
3) Machine diagnostics & reliability
4) Advanced materials
5) Nonlinear stability
6) Design methodology
7) Nanomechanics
8) Sound, vibration and shock
9) Design of experiment
10) Bionic mechanism
Mechanics & Design Innovation
The goal of Pro Human Engineering is to implement a
human-centered engineering approach and to design machines that benefit humanity.
The activities include the study of human emotional responses toward sound,
vibration, vision, and touch, human reactions to machines, and the realistic
implementation of human senses.
1) Human Perception (Sound, Vibration, Vision and
Haptic)
2) Human-machine interaction
3) Ride Comfort and Safety
4) Virtual Reality and Entertainment
5) Tactile Sensors and Actuators
6)
Welfare Engineering
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