About the InstituteThe IICO - UASLP was created by resolution of the College Board in October 1990 with the following objectives: Develop scientific and technological research in areas related to science and technology of optical communications. Contribute to the training of highly qualified researchers and technicians in the country in the areas of competence of the Institute. Create a center for technological development projects of interest to both public and private sectors in the country. IICO-UASLP / Av. Karakorum 1470 Lomas 4a. 78210 San Luis Potosi, SLP México. / Tel. (444) -8 25 01 83 / Fax (444) 8 25 01 98 |
Diploma in Electronic Instrumentation and Solar Energy
Courses - Solar Energy
- Advanced Virtual Instrumentation
January 14, 2012
griselda@cactus.iico.uaslp.mx
Diploma in Electronic Instrumentation and Optics
Courses - Microcontrollers
- Advanced Virtual Instrumentation
January 14, 2012
griselda@cactus.iico.uaslp.mx
-
Diplomado
14 de Enero de 2012 -
Diplomado
14 de Enero de 2012 -
Seminario
Francisco Mejia Lira
- Facilities
- Library
Our library specializes in the areas of optics, semiconductors, optoelectronics, communications, and discrete math dynamical systems.
We have a collection of 4500 volumes of books and regularly receives about 100 journals on topics of interest the Institute.
Services offered:
Consultation | Compilations literature on particular topics and citation analysis | Acquisition Newsletters | Automated Search Information | Preparation of bibliography | Photocopying | Orientation users | Room Loan | Home Loan | Interlibrary Loan | Special loans | Scanning Service | Plotter printing service | Information Retrieval Service 
Missions
Provide information necessary for development in various areas IICO optical communications, engineering, mathematics and semiconductor materials. 
Vision
Being a specialized library that has updated information on the institute's research areas. 
Objectives
a) Support research and development of human resources in different areas of research carried out within the IICO. b) Meet the information needs of users (researchers and graduate students in applied science and electrical engineering) of IICO. |
Educational offerings
Bachelor of Engineering Physics
- Student Profile |
- Graduate Profile |
- Requirements |
- Stay |
- Degree |
- English |
- Plan |
- Country |
- Reports
Interest in the application of physics,mathematics and electronics to the solution of practical problems.
Ability to develop proyectosy solve technological problems
in both industrial and academic media. Training
address technical problems so Interdisciplinary. Capacity
equipo.Dominio to work in English.
address technical problems so Interdisciplinary. Capacity
equipo.Dominio to work in English.
Complete high school physics and mathematics, chemical
biological, unique high school or technical high school three years in the area adecuada.Aprobar the entrance examination
consists of the following assessments:
a) Health
b) Psychometric
c) Knowledge developed by the faculty
d) Knowledge of CENEVAL
a) Health
b) Psychometric
c) Knowledge developed by the faculty
d) Knowledge of CENEVAL
At the end of the first year the student must achieve a minimum 40 credits.
Failure to comply with this requirement will be suspended discharge of materials.
Registration for another year will have only to normalize
if situation.
Professional examination on the thesis work.
Examination of knowledge on matters of race, after have covered their curriculum.
Excenció of professional examination to have an average equal to or greater than 9.17.
Examination of knowledge on matters of race, after have covered their curriculum.
Excenció of professional examination to have an average equal to or greater than 9.17.
To prove knowledge of English in terms the corresponding representation of the student may choose the option that suits you.
The University offers English language training through the University Department of English.
The University offers English language training through the University Department of English.
Industry (technology development in air such as: Instrumentation, Electronics, innovation Automatizacióne
Process, etc..)
Academic (teaching). The race also prepares students to continue graduate studies in a wide number of air related to applied physics.
Academic (teaching). The race also prepares students to continue graduate studies in a wide number of air related to applied physics.
Dr. Luis Felipe Martinez Lastras
coordinator
Tel: (444) 8250183 ext 123
Email: lflm@cactus.iico.uaslp.mx
Karakorum 1470 Av
Lomas 4 th section
C.P. 78280
San Luis PotosíS.L.P.
coordinator
Tel: (444) 8250183 ext 123
Email: lflm@cactus.iico.uaslp.mx
Karakorum 1470 Av
Lomas 4 th section
C.P. 78280
San Luis PotosíS.L.P.
Degree in Electrical Engineering and Applied Sciences
- Applied Sciences
- Electrical Engineering
- Infrastructure |
- Photonics |
- Applied Mathematics |
- Scholarships |
- Notice |
- Reports
The Master and PhD program in Applied Sciences is based in the Institute of
Optical Communication Research.
This program is offered jointly with the Faculty of Sciences (FC).
The graduate has two development areas: Photonics and Applied Mathematics.
This program is offered jointly with the Faculty of Sciences (FC).
The graduate has two development areas: Photonics and Applied Mathematics.
- Description |
- Admission |
- Courses |
- Mastery Program |
- PhD Program
The area of photonics has three options:
Electro-optical devices
Optical signal processing
Electro-optic instrumentation.
Electro-optical devices
Optical signal processing
Electro-optic instrumentation.
To enter the master's program in applied science is required to have completed undergraduate studies in physics, mathematics, engineering or a related field.
Additionally, the applicant must take and pass three courses offered summer school
which prepared the IICO.
The Contender courses depends on the option chosen by the applicant according to
the following table.
Option electro-optical devices
Mathematical Methods
Electromagnetism
Thermodynamics
Processing and Instrumentation Option
Mathematical Methods
Electromagnetism
Electrical and electronic circuits.
Mathematical Methods
Electromagnetism
Thermodynamics
Processing and Instrumentation Option
Mathematical Methods
Electromagnetism
Electrical and electronic circuits.
The master is designed to be completed in four semesters. During the first
three semesters the student
must take ten compulsory subjects..
View plan
Some of the more optional subjects, which gives flexibility to the Master. Changes the proposed schemes require the approval of thesis director. Among them the following can be taken from the third semester as an option:
Fundamentals of Semiconductor Optical
Topics in Solid State Physics
Holography
must take ten compulsory subjects..
View plan
Some of the more optional subjects, which gives flexibility to the Master. Changes the proposed schemes require the approval of thesis director. Among them the following can be taken from the third semester as an option:
Fundamentals of Semiconductor Optical
Topics in Solid State Physics
Holography
The purpose of the doctoral program is to train independent researchers
who specialize in one area of knowledge that is grown in the IICO.
For this, the student must carry out a research project leading to original results, which must be published in a journal of international circulation arbitration.
This research project is usually carried out within three years.
For this, the student must carry out a research project leading to original results, which must be published in a journal of international circulation arbitration.
This research project is usually carried out within three years.
- Description |
- Admission |
- Courses |
- Mastery Program |
- PhD Program
The Applied Mathematics Option Terminal is served by seven researchers from the air
Dynamical Systems and Discrete
Mathematics.
All researchers have the Ph.D. degree and belong to the National System of Researchers.
Mathematics.
All researchers have the Ph.D. degree and belong to the National System of Researchers.
To enter the Master, the student must have completed their undergraduate studies
in Physics, Mathematics, Engineering or a related field.
Applicants must take and pass courses Propedeutics Summer School hosted by the IICO.
Applicants must take and pass courses Propedeutics Summer School hosted by the IICO.
Lines of development
Mathematical Methods
Analysis
Dynamical Systems
Start: June
Completion: July
Previously present EXANI II
Mathematical Methods
Analysis
Dynamical Systems
Start: June
Completion: July
Previously present EXANI II
The MSc is designed for completion in four semesters. During the first two
semesters the student must take six compulsory subjects.
View curriculum
View curriculum
Is aimed at training researchers in the areas of dynamical systems, combinatorial
and discrete mathematics.
The thesis is the central objective of the PhD program. Graduates are qualified to start their own research projects.
Applicants for a Doctorate must have the degree of Master of Science or equivalent and pass an oral and written examination.
Has duration 6 semesters.
The thesis is the central objective of the PhD program. Graduates are qualified to start their own research projects.
Applicants for a Doctorate must have the degree of Master of Science or equivalent and pass an oral and written examination.
Has duration 6 semesters.
The graduate is recognized in the PNP, SEP. Students admittedly
the average MBA program with more than 8 may apply for a grant CONACYT.
Dr. Raúl Balderas Navarro
Subcoordinador en Fotónica
Tel:(444) 8262362 ext. 111
Email: rbn@cactus.iico.uaslp.mx
Av. Karakorum 1470
Lomas 4ª sección
C.P. 78280
San Luis PotosíS.L.P.
Subcoordinador en Fotónica
Tel:(444) 8262362 ext. 111
Email: rbn@cactus.iico.uaslp.mx
Av. Karakorum 1470
Lomas 4ª sección
C.P. 78280
San Luis PotosíS.L.P.
Diploma in electronic instrumentation and solar energy
- Home |
- Objective |
- Student profile |
- Outcome Profile |
- Modules |
- Date |
- Cost |
- Notices |
- Reports
The Diploma in Electronics and Instrumentation Solar is headquartered in the Research Institute of Optical Communication (IICO). The IICO is a research institute holiday
Interdisciplinary. Its main objectives are: 1) development of research projects
science and technology in areas related to the field of optical communications and 2) the training of engineers and researchers in these areas.
Among the fields and specialization of these researchers include: Physics of Materials, Processing of Semiconductor Devices, Optics Communications, Discrete Mathematics and Mathematical Modelling.
The IICO has an infrastructure in the areas of experimental characterization and growth of semiconductor materials, which is one of the most sophisticated and complete the country. It also has an important infrastructure in communications, electronics and computers.
Our library specializes in the areas of optics, semiconductors, optoelectronics, communications, discrete mathematics and dynamical systems. We have a collection of 4462 volumes of books, 25 journal titles in microfilm format from 1964 to 1991, with a collection of 600 CDs and periodically received about 100 journals of interest to the Institute.
There is the option to enroll only in the modules of interest as 30-hour courses.
Among the fields and specialization of these researchers include: Physics of Materials, Processing of Semiconductor Devices, Optics Communications, Discrete Mathematics and Mathematical Modelling.
The IICO has an infrastructure in the areas of experimental characterization and growth of semiconductor materials, which is one of the most sophisticated and complete the country. It also has an important infrastructure in communications, electronics and computers.
Our library specializes in the areas of optics, semiconductors, optoelectronics, communications, discrete mathematics and dynamical systems. We have a collection of 4462 volumes of books, 25 journal titles in microfilm format from 1964 to 1991, with a collection of 600 CDs and periodically received about 100 journals of interest to the Institute.
There is the option to enroll only in the modules of interest as 30-hour courses.
Especilizacióny Contribiuir the training of professionals in the field of instrumentation Electronics and Solar Energy, expanding their knowledge and skills in the development of Analog and Digital Circuits, Ó Communication System optics and Solar Energy Systems.
Professionals in the field of electronics and physics interested in the tools of electronic instrumentation and solar energy, wanting to actualizarrse in this area.
The graduate will obtain the necessary training to join the knowledge of electronics, solar and programming to design and develop optoelectronic instruments and solar systems.
Date: Saturday 30 of September 24, 2011 to July 4, 20120
Schedule: From 8:00 to 14:00 hours
Duration:180 hours.
Schedule: From 8:00 to 14:00 hours
Duration:180 hours.
General Student $ 9,000.00 $ 15,000.00
Notice
M.I. Griselda Rodriguez Pedroza
Phones: (444) 8 25 01 83, 8 August 25 92 ext. 122
griselda@cactus.iico.uaslp.mx
Starts: September
Ends: June
Hours: 8:00 to 14:00 Saturday hours
Phones: (444) 8 25 01 83, 8 August 25 92 ext. 122
griselda@cactus.iico.uaslp.mx
Starts: September
Ends: June
Hours: 8:00 to 14:00 Saturday hours
Diplomado en instrumentación electrónica y Óptica
- Home |
- Objective |
- Student profile |
- Outcome Profile |
- Modules |
- Date |
- Cost |
- Notices |
- Reports
The Diploma in Electronics and Instrumentation Solar is headquartered in the Research Institute of Optical Communication (IICO). The IICO is a research institute holiday
Interdisciplinary. Its main objectives are: 1) development of research projects
science and technology in areas related to the field of optical communications and 2) the training of engineers and researchers in these areas.
Among the fields and specialization of these researchers include: Physics of Materials, Processing of Semiconductor Devices, Optics Communications, Discrete Mathematics and Mathematical Modelling.
The IICO has an infrastructure in the areas of experimental characterization and growth of semiconductor materials, which is one of the most sophisticated and complete the country. It also has an important infrastructure in communications, electronics and computers.
Our library specializes in the areas of optics, semiconductors, optoelectronics, communications, discrete mathematics and dynamical systems. We have a collection of 4462 volumes of books, 25 journal titles in microfilm format from 1964 to 1991, with a collection of 600 CDs and periodically received about 100 journals of interest to the Institute.
Among the fields and specialization of these researchers include: Physics of Materials, Processing of Semiconductor Devices, Optics Communications, Discrete Mathematics and Mathematical Modelling.
The IICO has an infrastructure in the areas of experimental characterization and growth of semiconductor materials, which is one of the most sophisticated and complete the country. It also has an important infrastructure in communications, electronics and computers.
Our library specializes in the areas of optics, semiconductors, optoelectronics, communications, discrete mathematics and dynamical systems. We have a collection of 4462 volumes of books, 25 journal titles in microfilm format from 1964 to 1991, with a collection of 600 CDs and periodically received about 100 journals of interest to the Institute.
Contribute to the formation of preofesionistasen especializacióny the field of electronics and optics instrumentation, extending their knowledge and skills in developing Analógicosy Digital Circuits, Optics Communication System and Programs rel controlde Electrópticos Systems.
Professionals in the field of electronics and physics interested in the tools of electronic instrumentation and solar energy, wanting to actualizarrse in this area.
The graduate training otendrá necessary to link the knowledge of electronics, optics and programming to design and develop optoelectronic instruments.
30 Saturday of September 24, 2011 to July 4, 2012
General Student $ 9000.00 $ 15000.00
Notice
M.I. Griselda Rodriguez Pedroza
Phones: (444) 8 25 01 83, 8 August 25 92 ext. 122
griselda@cactus.iico.uaslp.mx
Starts: September
Ends: June
Hours: 8:00 to Saturday 14:00 pm
Phones: (444) 8 25 01 83, 8 August 25 92 ext. 122
griselda@cactus.iico.uaslp.mx
Starts: September
Ends: June
Hours: 8:00 to Saturday 14:00 pm
Research
- Optoelectronic materials
Lastras Martínez, Alfonso, Dr. CINVESTAV (1977). Optical properties of semiconductors, semiconductor technology and devices. SNI level III
Lastras Martínez, Luis Felipe, Dr. Univ. Aut. de S.L.P. Méx.(1996). Optical properties of semiconductors. SNI Level II. 
Reyes Reyes, Marisol, Dra. UNAM, Méx. (2003) Nanoscience and nanotechnology, synthesis and characterization of nanostructured materials, electro-active organic devices and solar cells. Level II SNI 
Reyes Reyes, Marisol, Dra. UNAM, Méx. (2003) Nanoscience and nanotechnology, synthesis and characterization of nanostructured materials, electro-active organic devices and solar cells. Level II SNI - Applied mathematics
Afraimovich, Valentin, Dr., Univ. Novgorod Ninzhy, Rusia (1990) Dynamical systems. SNI Nivel III. 
Afraimovich, Valentin, Dr., Univ. Novgorod Ninzhy, Rusia (1990) Dynamical systems. SNI Nivel III. 
Mejía Carlos, Marcela, Dra. Univ. Aut. de S.L.P. Méx. (2001). Realization of encryption systems using cellular automata. Development of digital systems. 
Dr. Jorge Ortega Gallegos - Optoelectronics
De Anda Salazar, Francisco, Dr. Univ. de París VI “Pierre et Marie Curie”, Francia (1982) Materials science, semiconductor materials technology. SNI Level II. 
De Anda Salazar, Francisco, Dr. Univ. de París VI “Pierre et Marie Curie”, Francia (1982) Materials science, semiconductor materials technology. SNI Level II. 
Michournyi, Vytacheslav A., Dr. Inst. Físico Técnico A. F. Ioffe, Rusia (1973). Semiconductor laser technology. Level II SNI .. - Applied optics
Guel Sandoval, Salvador, Dr. Univ. de Nuevo México. U.S.A. (1994). Ciencia de materiales. Optoelectronic devices and semiconductor lasers, optical information processing. SNI Level I. 
Guel Sandoval, Salvador, Dr. Univ. de Nuevo México. U.S.A. (1994). Ciencia de materiales. Optoelectronic devices and semiconductor lasers, optical information processing. SNI Level I. 
Rodríguez Cobos, Amparo, Dra., Inst. Nac. Politécnico de Grenoble, Francia, (2002). Development and Manufacture of Integrated optical circuits. properties Thin Film Optical Polymers. Waveguide sensors and optical fibers. SNI Level C 
Rodríguez Cobos, Amparo, Dra., Inst. Nac. Politécnico de Grenoble, Francia, (2002). Development and Manufacture of Integrated optical circuits. properties Thin Film Optical Polymers. Waveguide sensors and optical fibers. SNI Level C - Technological development
Rodríguez Pedroza, Griselda, M.I. Univ. Aut. de S.L.P. Méx. (1996). Electronic instrumentation 
Núñez Olvera, Oscar Fernando, M.C. CENIDET, Mex. (1991). Instrumentation and process automation. 
Dr. Ismael Lara Velázquez
Staff
Av. Karakorum 1470 Lomas 4ª. Secc. C.P. 78210 San Luis Potosí, S.L.P. Tels.(444) 825 01 83, 825 08 92,825 05 08, 825 55 88 fax (444)825 01 98 |
- Administration
Name Email Extension L.A. Elodia Avila Valerio elodia@cactus.iico.uaslp.mx 103 Angélica María Hernández Guzmán angelica@cactus.iico.uaslp.mx 117 Sofia Ramos Torres sofia@cactus.iico.uaslp.mx 102 María Cruz Robledo Balderas maricruz@cactus.iico.uaslp.mx 107 L.A. Maira Solis Arredondo maira@cactus.iico.uaslp.mx 115
L.A. Claudia Torres Castañedaclaudia@cactus.iico.uaslp.mx 106 - Academic Technical
Name Email Extension Esequiel Ontiveros Hernéndez esequiel@cactus.iico.uaslp.mx 228 Ing. Francisco Ramirez Jacobo frj@cactus.iico.uaslp.mx 228 - Systems
Name Email Extension Ing. Jorge Antonio González Fortuna jfortuna@cactus.iico.uaslp.mx 225 Ing. Liliana del Carmen Mendoza Tello lilimt@cactus.iico.uaslp.mx 218 - Information Center
Name Email Extension Lic. María Guadalupe Carrizales Aguilar lupita@cactus.iico.uaslp.mx 208 Lic. Karla Marely Ortega González karla@cactus.iico.uaslp.mx 208