Erasmus ECTS Information Package

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Erasmus ECTS Information Package Faculty of EEEA 3181 Quality Control ECTS credits: 4 Weekly classes: 3lec + 0sem + 0labs + 3ps Assessment: exam Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Rusin Stefanov Tzonev, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 379, E-mail: rtzonev@uni-ruse.bg Abstract: Topics discussed are key elements, such as controlled object, base instruments for quality improvement and control, methods of standardization, certification of the measuring processes, analysis and improvements under the ISO 9000 certificate. Also commented are the uses of expert opinions during quality control, and development of concrete technical equipment for quality assessment. Key requirement for the course is knowledge of Mathematics, Control theory, Data and signal processing, System identification, and the course itself is a prerequisite for other courses and the diploma project. Course content: Quality as a tool for managing. Instruments for quality improvement. Quality control. Reliability of the end product as a measurement of quality. Systems for quality assurance. Applying expert opinions in the quality control. Examples of technical equipment for quality assessment. 3182 Digital Signal and Data Processing ECTS credits: 4 Weekly classes: 3lec + 0sem + 0labs + 3ps Assessment: exam Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Valentin Bogdanov Stojanov, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 372, E-mail: vstojanov@uni-ruse.bg 2. Assoc. Prof. Donka Ilieva Ivanova, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 266, E-mail: divanova@uni-ruse.bg Abstract: The course objective is to introduce the students to the current methods for one-dimensional digital signal processing. It introduces knowledge of the mathematical methods for digital signal processing, design of finite and infinite impulse response filters, spectral transference, decimation and interpolation of digital signals. The discipline forms knowledge and skills which are applied in image identification, analysis of biosignals, etc. Course content: Introduction to digital signal processing. Digital representation of signals. Representation of discrete signals in the frequency domain. Definition of the Fourier transform of discrete signals. Fast Fourier transform. Design of the finite and infinite impulse response filters. Spectral transference. Decimation and interpolation of digital signals. Application of the digital signal processing. Teaching and assessment: The subjects of the lectures introduce the students to the methods of digital signal and data processing. The exercises follow the lecture material. They are conducted after students are separated in subgroups. The students have to be ready for the exercise and they prepare a report on it. Assessment in this subject is based on the results of a written exam. 139
Erasmus ECTS Information Package Faculty of EEEA 3183 Distributed Measurement Systems ECTS credits: 4 Weekly classes: 3lec + 0sem + 0labs + 3ps Assessment: continuous assessment Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Plamen Ivanov Daskalov, MEng, PhD, Dept. of Automatics and Mechatronics, tel.: 082 888 747, E-mail: daskalov@uni-ruse.bg Abstract: Basic concepts about the architecture, technical devices of the Distributed measurement systems (DMS) and methods for transfer and processing of the measurement information are considered in the course. Measurement methods and basic principles for development of data processing algorithms are given too. Special attention is devoted to the software of DMS and use of advanced graphic programming languages. The discipline is based on the knowledge acquired during the following courses: Signals and data processing and Industrial Networks. Course content: System architecture and functions of DMS. Network topologies and industrial network components. DMS software structure. DAQ Assistant and LabVIEW software. Virtual measurement instruments. Measurement channels and digital communication technologies. Teaching and assessment: The available technical teaching devices are used during the lectures. Practical exercises are organized and carried out in a teaching laboratory. Students are provided with user manuals for their preparation. Before classes, the students’ knowledge is examined. The results of experiments and software developments are entered in individual reports. Final student assessment is based on the result of two test papers. 3184 Automatic Control System for Environment Parameters ECTS credits: 4 Weekly classes: 3lec + 0sem + 0labs + 3ps Assessment: continuous assessment Type of exam: written Departments involved: Department of Automatics and Mechatronics Faculty of Electrical Engineering, Electronics and Automation Lecturers: 1. Assoc. Prof. Donka Ilieva Ivanova, MEng, PhD, Dept. of Automatics and Mechatronics, tel.:082 888 266, E-mail: divanova@uni-ruse.bg 2. Principal Assistant Tzvetelina Dimitrova Draganova, MEng, PhD, , Department of Automatics, Information and Control Engineering, tel.: 082 888 668, E-mail: cgeorgieva@uni-ruse.bg Abstract: The aim of the Automatic Control System for Environment Parameters course is to acquaint the students with the air quality monitoring, natural and waste water monitoring and monitoring soil pollution. It is examines the methods and devices for monitoring of production damage, radiation and chemical pollution. Course content: Composition and properties of atmospheric air. Emissions. Qualitative indices of atmospheric air. Methods and devices of air quality monitoring. System for ecology monitoring. Water pollution and methods for purifying. Qualitative indices of water. Methods and devices for hydrophysical, hydrochemical and hidrobyological water indices monitoring. Methods and devices for soil pollution analysis. Methods and devices for monitoring of production damage, radiation and chemical pollution. Teaching and assessment: The lectures topics introduce the main methods of air quality monitoring, natural and waste water monitoring and monitoring soil pollution and production damage, radiation and chemical pollution. The exercises follow the lecture material. The students have to be ready for the exercises and after their completion they have to prepare a report. Final assessment is based on the results of the written exam. 140
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Erasmus ECTS Information Package

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