Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 0231 Information Technologies ECTS credits: 6 Weekly classes: 3lec + 0sem + 0labs + 3ps Assessment: exam Type of exam: written and oral Departments involved: Department of Informatics and Information Technologies Faculty of Natural Sciences and Education Lecturers: Prof. Margarita Stefanova Teodosieva, MEng, PhD, Department of Informatics and Information Technologies, tel. 888464, Е-mail: mst@ami.uni-ruse.bg Abstract: The compulsory course aims at acquainting the students with contemporary information technologies in order to be able to create databases, to prepare presentations for participating in contests, conferences, etc., to prepare reports, contributions, publications, advertising and other type of materials. Course content: Packet Office 2000 presentation. Text processing and spreadsheets. Instructions for making reports and presentations of databases (DB) – general notions, data presentation, data relations, data models. Relational model, relational databases, relational algebra. Control system of databases. Service language of databases - SQL. Relational schemes analysis. Databases (DB) normalization. Normal forms. Application in Databases (DB) Access 2000. Design and implementation of databases and information systems. Teaching and assessment: Lectures present the main theoretical material. Practical exercises are held with computers. Students prepare and present one report in Word 2000, one publication in Publisher 2000, one presentation in Power Point 2000 and one information system in Access 2000. The final mark is based on a written exam on two topics. 0232 Automobile Electronics ECTS credits: 4 Weekly classes: 2lec+0sem+0labs+1ps Assessment: exam Type of exam: written and oral Departments involved: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Georgi Nikolov Krastev, MEng, PhD, Dept. of Computing; tel.: 888 672, Е-mail: gkrastev@ecs.uni-ruse.bg Abstract: The Automobile Electronics course aims at acquainting the students with modern electronic devices built in the cars. Different types of electronic voltage regulators, electronic ignition systems as well as different electronic injection systems, electronic control and measuring tools are discussed. Emphasis is also put on microcomputer systems for engine and car control. Course content: General information about cars. Classification. Main mechanisms in cars. Common structure and principle of operation in the piston internal combustion engines. Electrical installations in cars. Microcomputer systems and technologies for engine control. Engine particularities defining the control system. Main tasks performed by the multifunctional systems for engine control. Components of the electronic systems for engine control. Specialised integrated circuits. Architecture of electronic systems for engine control. Control of ignition and fuel content. Trends in the development of modern complex engine control systems. Electronic car control systems. Systems for automatic gear switching. Anti-blocking brakes systems. Systems for automatic regulation. Teaching and assessment: The basic forms of training are direct contact hours and independent student work. Direct contact includes lectures and practical exercises. These make use of industrial models, electrical drives, and custom-developed trial-pieces in the laboratory practice. Classes are visualized with prospectuses and company literature. Practice sessions last 2 hours and are conducted every second week. Term validation is based on attendance and the final mark is based on the result of the written test and the practice. There is an oral testing if needed. 225
Erasmus ECTS Information Package Faculty of EEEA 0235 Applied Electronics in Agriculture ECTS credits: 4 Weekly classes: 2lec + 0sem + 0labs + 1ps Assessment: exam Type of exam: written and oral Departments involved: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Ivan Borisov Evstatiev, MEng, PhD, Dept. of Electronics, tel.: 888 772; Senior Assistant Yavor Branimirov Neikov, MEng, Dept. of Electronics, tel.: 888 772; Е-mail: yneikov@ecs.uni-ruse.bg Abstract: The compulsory course aims to acquaint students with the application of electronic circuits and printed circuit boards used in devices for control of a variety of technological processes in agriculture. Course content: Management systems in current farm industry – ecology, cost price, energy efficiency. Technological processes in agriculture and farming, in treatment and storage of definite produce. Methods and devices for data acquisition, processing of informational parameters and carrying out control signals in field and livestock farming, treatment and storage of the produce. Requirements on electronic circuits applicable in branches of farm industry. Applied electronic circuits in agricultural and livestock production. Applied electronic circuits in melioration, soil-cultivation machinery, automotive and tractor-driven farm equipment. Current scientific methods for settling problems in the automation of farm processes. Teaching and assessment: The lectures focus on the features of special processes in the field of farm industry and application of electronic circuits for their control. The practical exercises cover the research of particular schematic circuits with real technological parameters. 0236 Theory of Experiment ECTS credits: 4 Weekly classes: 2lec + 0sem + 0labs + 1ps Assessment: continious assesssment Type of exam: written Departments involved: Department of Electronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: Assoc. Prof. Todor Tsanev Todorov, MEng, PhD, Dept. of Numerical Methods and Statistics, tel. 888 556; Е-mail: ttodorov@uni-ruse.bg Abstract: This optional course includes the main methods for experiment planning in the field of engineering, processing and analysis of results. In this connection the objects are classified according to the number of control factors in three groups – with no control factors, with one control factor and with more than one control factors. For the first group the methods of statistical estimation and of checking statistical hypothesis are considered. For the second and the third group the methods of single- and multi-factor regression and variances analysis are considered. Course content: Cybernetic approach in studying objects experimentally. The role of experiment in research. Types of experiments. Studying objects with no external influence. Studying single-factor objects. Single-factor regression analysis. Single-factor variances analysis. Studying multi-factor objects. Multi-factor regression analysis. Multifactor variances analysis. Planning regression experiments. First degree plans. Second degree plans. Data processing in planned experiments. Planning experiments for variances analysis. Optimizing multi-factor experiments. Statistical optimization. Software products experimental data processing. Teaching and assessment: The lectures are 2 and 4 hours a week. The practice sessions take place in computer labs and the students work on the above topics under the lecturer’s supervision. The final mark includes a contribution from continuous assessment and the test from the practice sessions. 226
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