Engineering and Technology
Computer Engineering
ABOUT THE COURSE
The UNISANTA Computer Engineering Course graduates professionals prepared to work with computer and peripheral projects, residential and industrial automation, telecommunications systems applications, software development, hardware/software integration, robotics, management of computer networks, management industrial processes and application engineering, among others.
The computer engineer has specific knowledge and skills in the design and development and application of computerized systems, from the study and specification of materials, IT management, software and hardware, integrating them in the equipment and services for the desired purposes.
Internship in France - There are many cases of success of students and alumni of Computer Engineering of UNISANTA in multinationals and Brazilian companies of the area. It is the only Computer Engineering Course in Latin America that has an internship agreement for students at the National Institute of Applied Sciences in Toulouse, France, one of the most advanced Microelectronics Research Centers in the world. One of the classes won the second place in efficiency in the construction of a Chip - Integrated Circuit. With this experience in Toulouse, the chances increase in the job market and in postgraduate courses. In 2015, the 20th class was sent.
Congress - Participation in national congresses, such as the CONIC - National Congress of Scientific Initiation, obtaining the first positions, and also in COBRIC - Brazilian Congress of Scientific Initiation, besides national competitions, such as the Robot War (gladiator robots), Robots Football and the Aerodesign Competition, promoted by SAE - Society of Automotive Engineers-Brazil.
RECOGNITION
Ordinance Nº 218/02, published on 29/01/2002
Renewed by Ordinance No. 923/18, published 28/12/18
AUTHORIZATION
CONSUN Resolution No. 20/96, published on 21/11/96
CONCEPT OF THE MINISTRY OF EDUCATION
Good
INFORMATION
OTHER INFORMATION
Accreditation - In 2014, UNISANTA research units were accredited by the National Petroleum Agency, in Automation and Process Control, Development of Structured Algorithms in Paraconsistent Logic for Data Treatments and Decision Making.
UNISANTA hosted the Congress of Applied Logic to Technology and has relevant scientific research in the area of Robotic Artificial Intelligence (national reference).
Researches are encouraged by the groups of Paraconsistent Logic Applied in Automation and Robotics, Paraconsistent Logic Applied in Intelligent Systems, Research in Technological Methods Applied to Bioengineering and Research Group in Applied Engineering.
Students develop their Course Completion Works with support from the UNISANTA Electronic Research Center.
Know some of the advantages of being a UNISANTA student
https://unisanta.br/VidaAcademica/Beneficios
Success in the Labor Market, highlighted in Toulouse, France
COURSE FIELD
Computer Engineer can work in areas such as Telecommunications, Bioengineering, Electrical Automation (Robotics), Informatics, Computer Architecture and related areas.
DIRECTOR
Eng. Antônio de Salles Penteado
COORDINATOR
Prof. Luis Fernando Pompeo Ferrara
BENEFITS
Consult discount scholarship program and fundingCURRICULUM
General and Experimental Physics I
Analytic Geometry and Linear Algebra
Introduction to Computing
Principles of Electronic Engineering
Complementary Activities I
Differential and Integral Calculus II
Technical Drawing and CAD
Applied Electronics
General and Experimental Physics II
Complementary Activities II
General and Experimental Physics III
Probability and Statistics
Programming Techniques I
Topics of Mechanics
Complementary activities III
Electrical Circuits I
Electricity and Electromagnetism
Transportation Phenomena
Physical-Chemical of Materials
Programming Techniques II
Complementary Activities IV
Computer Graphics
Electromechanical Energy Conversion
Devices and Electronic Circuits I
Real Time Systems
Digital Systems I
Complementary Activities V
Devices and Electronic Circuits II
Principles of Communications
Operational systems
Information systems
Digital Systems II
Complementary Activities VI
Automation and Control I
Environmental Sciences
Computer Networks I
Communication Systems
Digital Systems III
Complementary Activities VII
Digital Communications
Quality Management
Electrical Installations
Microprocessors
Computer Networks II
Complementary Activities VIII
Data Structure
Humanities, Citizenship and the Environment
Formal Languages and Compilers
Microcontrollers
Graduation Project in Computer Engineering I
Complementary Activities IX
Graduation Project in Computer Engineering II
Integrated Systems Design
Supervisory Systems
Advanced Topics in Computing
Complementary Activities X
Supervised internship
Optional Discipline
Libras
EVALUATION CRITERIA
The evaluations of the students are based on the skills and abilities necessary for the professional exercise, being defined in the Pedagogical Project of each Course of Graduation or Technology, following the Curricular Guidelines and the General Regiment of UNISANTA.
The evaluation of the school performance is done by discipline, according to the curricular activities developed, covering the aspects of frequency and grade.
It is considered approved in each discipline the student who has attended at least 75% of the academic work expected and obtained arithmetic mean equal to or greater than 5 (five) between the grade resulting from the partial evaluations and the final exam.
The final evaluation is granted only to the student who obtains, in each discipline, arithmetic mean equal to or greater than 3 (three), resulting from the partial evaluations.
The student who, in the course under study, has met the minimum frequency requirement and obtained an average of 7 (seven) or higher as a result of the partial assessments is waived from the final exam.
MORE INFORMATION
+55-13-3202-7132
IMPORTANTS LINKS
Computer Engineering course website
http://cursos.UNISANTA.br/engcomputacao