Computer Science Engineering BSc - Questions for the final examination | Faculty of Informatics

General questions

1. The language of first-order-logic, terms, formulas. Interpretations, truth assignments, logical consequences, predicate calculus.
2. Operating systems, concepts, structure and classifications. The characteristics of operating systems (components and functions). The system administration. Supporting of development and applications.
3. Data types, constant, variable, expression. Evaluation of parameters, parameter passing. Scope and life time. Compilation unit. Exception handling.
4. Special tools of programming languages. Tools of object-oriented programming. Functional and logical programming.
5. Representation of data structures. Operations with data structures. Classification and description of data structures. Sequential data structures: row, stack, list, and string. Simple and compound data structures.
6. Relational, ER, and object-oriented models. Database system. Functional dependencies. Relational algebra, relational calculus. SQL.
7. The ISO OSI model. Ethernet standards. Routing mechanisms of the network layer. Internet network protocols, standards, and services.
8. Physical concepts and quantities. The concept of linear momentum and angular momentum. Newton's laws. The theorem of work. The first and second laws of the thermodynamics. The kinetic model of gases.
9. Basic concepts and phenomena of electrostatics. Ohmâs law. The concept of the magnetic field. Electromagnetic waves. The Bohr/Rutherford model of the atom. The effect and measurement of radioactive radiation.
10. Characteristics of passive electronic components; RC and RLC circuits; Semiconductors, p-n junctions. Characteristics of discrete semiconductors. Operation of simple discrete circuits: amplifiers, oscillators, power supplies.
11. Logic states, logic identities. Gates and truth tables. Discrete circuits for gates. IC gate circuits (TTL, CMOS, NMOS). Interfacing between logic families. Combinational logic circuits. Sequential logic circuits. A/D and D/A converters..

Specializations

Infocommunication Networks

1. Physical transmissions. Classifications of telecommunication systems. Requirements of signal transmission. Main network functions and their implementations. Typical network topologies any systems. Basics of mobile telecommunication. GPS system
2. Markov-chains, birth and death processes. The basic queueing systems. Methods for computing the system characteristics. Supporting tools.
3. Physical, administrative and algorithmic aspects of security, regulations. Foundation of cryptography. Cryptographic primitives: DSA. Digital signature.
4. The operation of RIP-protocol. Adjusting the parameters (configuring).
5. Aim and configuring traffic filtering and ACL based on a choosen example.
6. Advanced routing problems. Comparison of static and dynamic routing.

Corporate IT Systems

1. System technical fundamental conceptions. The production management as optimum problem: "production triangular" model. Mechanical engineering technology. Levels of planning of the production management. Classification of technological processes..
2. Management information systems. Enterprise communications, determining the demand of information, relation between the activity o fan enterprise and the structure of the management information system. Strategies of engineering MIS.
3. Production and operation management (P/OM). Production forecast. QFD, CAD. Leading and control of the production. Input-output data of the MRP. MRP II. KANBAN.
4. Computer aided quality management (CAQ). Computer aided engineering database management (EDB). Computer aided intelligent manufacturing systems (IMS). Computer aided simulation (CS). Building up the computer aided process control (SPC).
5. PLC. Main types, structures, and characteristics of Programmable Logical Controls (PLC). Possible solutions of programming. Comparison of compact and modular PLCs.
6. Robots in industry. Morphological analysis of robots. Hardware components of systems containing robots. Motion forms, sensors and controllers of industrial robots. Geometric systems of robots. AML languages

Measurement and Process Management

1. Relation of theory, experiment, and simulation. Model construction for natural phenomena. Monte Carlo simulation. Computer simulation of diffusion and growth processes. Molecular dynamics simulations. Cellular automata: discrete dynamical systems
2. Measurement systems. SI system. Measurement errors, error propagation. Measurement of current, potential, power, and energy. A/D, D/A converters.
3. Physical basics of the sensors. The main types of sensors: temperature, force, pressure, acceleration, conductivity, electromagnetic and ionizing radiation. Chemical signal conversion. Main categories of the controllers.
4. Measurement systems, equipments and measurement networks. Computerized measurement techniques: connection systems, methods of data transfers, communication methods, operating systems. Measurement oriented data flow programming languages. Process control with computer.
5. Introduction to the image processing. Geometrical transformations. Image enhancement: pixel brightness, local preprocessing, image restoration. Fourier transform and filtering. Segmentation: thresholding, edge-based segmentation.
6. Structure and properties of microcontrollers, digital signal processors, addressing methods, set of commands, memory models. Sampling and coding signals. Digital FIR and IIR filters, quick Fourier-transformation.