Bachelor of Smart Electronic Systems
Riga, Latvia
DURATION
4 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Sep 2024
TUITION FEES
EUR 3,080
STUDY FORMAT
On-Campus
Introduction
Why Smart Electronic Systems at RTU?
Smart devices and technologies are changing the way we live, work, and interact with one another. Smart systems incorporate functions of sensing, actuation, and control to describe and analyze an integrated system and make decisions based on the available data in a predictive or adaptive manner, thereby performing smart actions.
Technology has improved the efficiency, productivity, and functionality of almost everything, from the home to industries. As the expansion of smart technologies continues — and as security challenges arise because of that expansion — employment opportunities for graduates in this field are increasing as well.
Questions?
Get the resources you need to make informed decisions about your education. Contact the Riga Technical University International Cooperation and Foreign Students Department:
Admission office Tel:
+ 371 67 08976
+ 371 67 089020
Email: [email protected]
Gallery
Admissions
Curriculum
The bachelors of Smart Electronic Systems program prepares students to engage in this new revolution in smart systems, system security, and embedded systems.
Through an extensive curriculum of lectures, practical classes, laboratory works, and projects, students develop expertise in digital electronics, microprocessors, and computer control, complemented by management and communication skills presented by these emerging technologies. Graduates leave as engineers with the skills to work in the fields of development, installation, operation, and research of smart electronic systems.
The professional specialization curriculum is combined into four modules: smart embedded systems, signal processing, and wireless communication systems, analog and radio frequency (RF) equipment and systems, and electronic hardware design.
Students acquire professional competence in digital and analog system design, embedded system and field-programmable gate array (FPGA) programming, analog and discrete signal processing, implementation of modern wireless communication systems, electromagnetic field analysis, and antenna design.
The program provides flexibility in thinking and action with the inclusion of courses in mathematics, sociology, and pedagogics—producing well-rounded graduates prepared for a successful engineering career or to continue their studies at the Ph.D. level.
The program curriculum includes:
- Innovative Product Development and Entrepreneurship
- Digital Electronics and Computer Architecture
- Embedded Systems Architecture and Peripherals
- Active Electronic Systems
- The C Programming Language
- Electroacoustics