EAE specialization

Why is it worth studying the Electronic Equipment specialization?

The Electronic Equipment specialization is aimed at all those interested in the combination of theory and practice in the design, construction, programming, implementation, operation, and servicing of electronic equipment– devices that include sensors, microprocessors, microcontrollers, signal processors, signal controllers, and modern, specialized electronic circuits; instrumentation that can interface with computer systems.

Graduates of this specialization are prepared for creative roles (designers, consultants) and managerial positions (work coordinators), as well as for the operation and servicing of electronic instrumentation used in consumer, medical, and industrial applications.

The knowledge gained not only provides theoretical foundations but also allows for its practical application, particularly in:

  • Selecting appropriate sensors and transducers;
  • Utilizing the latest advancements in photonics and optoelectronics;
  • The mathematical and physical foundations of measurement and data processing;
  • Mathematical modeling and computer simulations (Matlab & Simulink);
  • Programming MSP430 and ARM microcontrollers (assembler, C);
  • Programming digital signal processors (DSP) and digital signal controllers (DSC);
  • Designing specialized electronic circuits (VHDL, CPLD, FPGA);
  • Microcontroller and signal processor applications in signal processing;
  • Creating virtual measurement-diagnostic instruments and programming measurement-control systems (VISA, SCPI, LabVIEW);
  • Multimedia applications and creating interactive web pages in Java;
  • Applying artificial intelligence methods;
  • Effective teamwork.

Electronic Equipment subjects include:

Sensor and Transducer Applications:

  • Physical principles of sensors
  • Sensors and transducers
  • Biosensors
  • Physicochemical measurements

Photonics and Optoelectronics:

  • Introduction to photonics
  • Optoelectronics
  • Optical metrology

Design:

  • Electronic device design
  • Electronics for renewable energy sources
  • Medical electronic instrumentation
  • Conditioning and analysis of biomedical signals
  • Electronic instrumentation design
  • Microcontrollers in analog applications
  • Analog circuits in microprocessor systems

Microcontrollers, Signal Processors, and Specialized Circuits:

  • Microcontrollers
  • Signal processors
  • Programmable circuits
  • Digital signal controllers
  • Programmable logic circuits
  • Signal processor applications
  • Selected microcontroller interfaces

Programming Microprocessor and Computer Systems:

  • Microcontroller programming
  • Data analysis in microprocessor systems
  • Microcontroller operating systems
  • Data acquisition and processing systems
  • Java programming
  • Information acquisition and processing

Modeling and Signal/Data Processing:

  • Mathematical and computer modeling
  • Stochastic modeling
  • Regression methods in metrology
  • Numerical signal and data analysis procedures
  • Signal processors in data processing
  • Digital signal processing algorithms
  • Tomographic techniques
  • Experimental techniques

Smart Electronics:

  • Smart buildings
  • Smart cars
  • Sensors and control systems in smart units
  • Artificial intelligence methods
  • Image recognition and processing principles

Electronic Equipment also includes:

  • Well-equipped computer, student, and research laboratories
  • Workstations in laboratories for individual use
  • Access to open laboratories connected to the Internet

For additional information about the specialization, contact:

Chair of the Program Committee for the specialization: Adam Polak, PhD, DSc, Assoc. Prof.