Studies
Bachelor’s Degree studies
Computer Engineering Department students can choose electronics or computer engineering bachelor's studies programs.Electronics study program has a Design of Electronics Devices specialization and Computer Engineering study programhas two specializations: Embedded Computers, and Computer Technology. Specializations of these programmes provide a relatively wide range of preparation for electronics engineering technicians and allow graduates to better satisfy their individual needs and interests. More detailed information on these specializations here.
Complementary studies
In Computer Engineering Department students can choose Computer Engineering complementary study program. This study program is designed for students who have completed university studies in another field and a bachelor's degree or have completed college and have completed their Degree. The volume of the complementary studies is 60 ECTS credits and the duration is 1 year. These subjects are necessary for a student to have the knowledge and skills necessary for Master's Degree studies. For more information on this study program you can find here.
Master’s Degree studies
After their Bachelor’s Degree studies, students can choose to enter the Master of Electronics Engineering or Computer Engineering program with two specializations: Computer Technology and Micro- and Nano-electronics with concentrationrelated courses taken from the 2nd semester. In this program, studies last 4 semesters, where each semester lasts 20 weeks and the 4th semester is dedicated to the preparation and defense of one’s thesis. The volume of each semester’s studies is 30 credits. One’s studies end with the thesis preparation and defense. In the first through third semesters the activities comprise a total of 16 weeks. Each semester ends with a 4 week examination session. After one’s Master studies has been completed, the diploma of Master Degree is conferred and one has the opportunity to be admitted to the PhD studies.
CONTENS
- INTRODUCTION
- MICROELECTRONICS EDUCATION HISTORY IN VGTU
- CURRICULUM OF BACHELOR’S DEGREE STUDIES
- CURRICULUM OF MASTER’S DEGREE STUDIES
- FUTURE PLANS
- CONCLUSIONS
- REFERENCES
- CONTACTS
Presently technology is ubiquitous in our daily lives: from our kitchen appliances to our vehicles. The rapid development in Micro- and Nano-electronics has enabled the capabilities to solve a new batch of problems with novel technologies The development of the Micro- and Nano-electronics technologies has led to new challenges in the area of technology, processes and facilities management. The department of Computer Engineering in VGTU performs studies in the Micro- and Nano-electronics engineering field and prepares professionals in challenging and promising fields of studies in Lithuania. In Lithuania, in Vilnius and its surrounding region, the demand for professionals who have a broad university education in electronics engineering and are capable to work in all sectors of the economy is only increasing [1].
The attractiveness of the Micro- and Nano-electronics engineering studies increases every year. Graduates work not only in electronics, telecommunications, and computer hardware companies, but in Lithuanian state institutions, medical offices, banks, well-established commercial firms and in the world famous research institutes and companies.
This paper is organized as follows. Section II describes the Microelectronics education history in Lithuania. Section III discusses the curriculum and the course objectives of the Bachelor’s Degree studies program. Section IV outlines of the Master’s Degree studies program. Section V presents future plans to improving these studies programs. Finally, Section VI concludes the paper.
II. MICROELECTRONICS EDUCATION HISTORY IN VGTU
The beginning of Microelectronics in Lithuania can be traced back to the year 1962 with the creation of the scientific research institute "Venta" in Vilnius. In this institute, the first hybrid integrated circuit was constructed in 1963, and the first planar transistor on February 16, 1967. The day, February 16, is significant in Lithuania as it is our Independence Day. Therefore, the announcement of the first Lithuanian transistor was a "silent protest" against the order of the USSR. The first integrated circuit from "Venta" was created in 1968 [2]. The teaching of microelectronics related subjects started in the Vilnius branch of Kaunas Polytechnic Institute (KPI) during 1967-1969. During that period the following subjects were taught: "Fundamentals of Microelectronics", "IC technology", and "IC design". At that time the only existing literature (papers, books etc.) covering fields of microelectronics were available in Russian and English languages. The first Microelectronics-related book published in the Lithuanian language was called "Silicon Integrated Circuits Manufacturing Guide". It was released in 1989 and has been widely used in studies [2]. In 1969, the Vilnius branch of KPI was reorganized into the Vilnius Civil Engineering Institute (VISI) – the first independent High Technical School in Vilnius. In 1991, the VlSI curriculum was restructured in the Vilnius Technical University (VTU). Studying plans and programs were reorganized according to the western education model.
The VTU Electronics faculty taught Master Degree students of Radioeletronics studies the following subjects, which are directly related to microelectronics: "Physical and functional electronics", "Circuit analysis and synthesis", "Very large scale IC", and "VLSI CAD system". These subjects were taught by professors-emeritus R. Kirvaitis and S. Štaras, and prof. habil. dr. A. J. Marcinkevičius. Meanwhile, Bachelor Degree students were taught these Microelectronics-related subjects: "Integrated circuits design and manufacturing 1, 2". In 1995 the "Fundamentals of Microelectronics" textbook was published. It covered the theory of semiconductor and integrated circuit manufacturing processes [3].
Today the scientists of Vilnius Gediminas Technical University, Department of Computer Engineering are specialising in integrated circuit design and offer a variety of lectures to the students on the subject. Presently one may choose the programmes of Bachelor’s and Master’s Degree of Electronics and Electricity Engineering in Vilnius Gediminas Technical University (VGTU), Department of Electronics. These studies teach students the design of integrated circuits, the understanding of the technology process of manufacturing and testing as well as other subjects related to cutting-edge electronics. This paper surveys the studies programs of the Bachelor’s and Master’s Degree at VGTU.
III. CURRICULUM OF BACHELOR’S DEGREE STUDIES
VGTU carries out the following Bachelor’s Degree study programs in the area of Electronics and Electrical engineering: Automation, Electronics engineering, Computer engineering, and Telecommunications engineering. The Electronics engineering program is designated to train professionals with universal abilities suitable for work specifically applicable in various sectors of the economies of the Republic of Lithuania and the European Union.
The total volume of study for the Electronics engineering program is 240 ECTS credits, and lasts for 8 semesters or four years. Additionally, one is required to obtain one professional practice experience in order to graduate. Studies finish through the completion of all work and its defense. Following these studies, students receive the Bachelor of Electronics Engineering qualification degree.
During the first two years of studies, electronics and electrical engineering students are required to also take courses in general theoretical subjects, for example Mathematics, Physics, Chemistry, Informatics, Languages, and so on.
Concentrations within the Electronics engineering programme commence starting in the 5nd semester. Three specializations are provided in the study program of Electronics engineering: Design of Electronics Devices, Computerized electronics systems and Avionics. Specializations of the program provide a relatively wide range of preparation for electronics engineering technicians and allow graduates to better satisfy their individual needs and interests.
A diagram of third and fourth academic year subjects in the Design of Electronics Devices specialization is shown in Fig. 1.

Fig. 1. Curriculum of Design of Electronics Devices specialization
The objectives of Design of Electronics Devices specialization are to identify, formulate and solve the problems of electronics engineering; to independently develop, maintain and improve modern ICs and micro- and nano-systems on a chip; to be aware of the latest electronics technologies, their trends and design principles of electronics systems and devices; to develop a passion for electrical and electronic engineering science topics and to maintain professional competence through lifelong learning. The detailed aims and learning outcomes of Design of Electronics Devices specialization are published on the VGTU website [4]. In this paper, we will review only basic subjects related to ICs and System-on-Chip (SoC) design.
ELKIB11531 – Technologies of Chip Manufacturing. This subject explores the key technological processes of chip manufacturing, such as silicon growth and epitaxy; photo, electron, ion and X-ray lithographies; wet and dry etching; thermal diffusion and implantation of ions; deposition of dielectrics layers and metallization technologies. Other, closely related subjects like the packaging process; flowcharts of unipolar and bipolar transistors technologies; challenges of micro- and nanotechnologies and future features are also discussed. Altogether this provides students with developed abilities to analyze and simulate chip manufacturing technology processes. A laboratory manual for this course has been developed. This manual includes materials related to the TCAD tools and is recognized by Silvaco Inc. and linked to their website [5]. Examples of computer simulations provide a technically accurate introduction to advanced semiconductor manufacturing technologies.
ELKIB11532 – Integrated Circuits (ICs) Design and Technologies. The objective of this subject is to give an understanding of the entire design process for ICs. It starts from analysis of different design technologies like submicron CMOS, BiCMOS and nanometer CMOS. Following this introduction, schematic and layout design principles and issues of main analog and digital electronics blocks like CMOS inverters/keys, current mirrors and sources, active loads, operational amplifiers, comparators, ADC and DAC structures are analyzed. Additionally, students are familiarized with various software packages for IC design as well as IC manufacturers, design kits and libraries. The associated laboratory provides students with the capabilities to simulate and design ICs using the industrial standard CAD design software, Cadence.
To encapsulate the material presented in lectures and laboratories, students work on an IC design project using Cadence tools. The best design projects have the opportunity to be fabricated through the EUROPRACTICE or MOSIS IC prototyping service.
ELKIB11740 – Programmable Logic Devices. The Programmable Logic Devices course provides skills and insight about CPLDs and FPGAs architectures, features and application areas. Students gain a better understanding of how programmable logic chips are applied in signal processing, signal analysis, artificial intelligence, parallel calculation and other fields. This subject also introduces students to the test methods of ICs using FPGA development boards.
ELKIB11842 – Systems on Chip (SoC) Design. This laboratory-centric subject delivers knowledge about the integration of digital/mixed-signal and RF circuit functions on a single chip using VHDL, Verilog, SystemC hardware description languages and full custom, application specific integrated circuits (ASICs), standard cells and programmable gate array technologies. The accompanying laboratory gives students hands-on experience with Xilinx and Myriad-RF FPGA boards. Also, students are exposed to the rigors of multi-member projects by working together in teams of three or four on a semester long SoC prototyping effort.
ELKIB11846 – Final Work. The final work course consists of the preparation and presentation of one’s final thesis. For the preparation of the final thesis three modules are assigned: one in semester 7 (3 credits) and two in semester 8 (6 credits each). This extended period of time for this course allows students to not only develop a sound project idea, but to also properly complete the work. The student prepares and presents an engineering design, or the theoretical or experimental project, on a subject included in his academic study course, or on a subject chosen by the student with the approval of the professor. Typically, students design various FPGA or microcontroller based devices as well as analog/mixed signal ICs for their final projects.
IV.CURRICULUM OF MASTER’S DEGREE STUDIES
After their Bachelor’s Degree studies, students can choose to enter the Master of Electronics Engineering program [6], which has three specializations: Computerized electronic systems, Avionics and Micro- and Nano-electronics with concentration-related courses taken from the 2nd semester. In this program, studies last 4 semesters, where each semester lasts 20 weeks and the 4th semester is dedicated to the preparation and defense of one’s thesis. The volume of each semester’s studies is 30 credits. One’s studies end with the thesis preparation and defense. In the first through third semesters the activities comprise a total of 16 weeks. Each semester ends with a 4 week examination session. In addition, during each of one’s first through third semesters, one must complete a week of independent research. After one’s Master studies has been completed, the diploma of Master Degree is conferred and one has the opportunity to be admitted to the PhD studies. In this paper, we will review only a few basic graduate courses offered in the Micro- and Nano-electronics concentration. The curriculum of the Micro- and Nano-electronics specialization is shown in Fig. 2.

Fig. 2. Curriculum of Micro- and Nano-electronics specialization
ELKIM11221 – Very Large Scale Integration (VLSI) Circuits. This subject is a continuation of the IC Design and Technologies Bachelor’s Degree study program and delivers latest information about novel CMOS, SiGe, GaAs technologies, digital, analog and mixed-signal VLSI circuits layout and their optimization algorithms, synthesis and analysis methods.
It should also be mentioned, that VLSI Circuits is a project-oriented subject in which groups of three or four students design and simulate a complete and ready-for-fabrication VLSI chip in a 0.5 μm or 0.18 μm CMOS technology process. Team-work, task assignment and team communication provide students skills, techniques and understanding required by industry to run large and complex design projects. Past project examples include: charge sensitive amplifiers, transimpedance amplifiers, LC-voltage oscillators, frequency dividers, ADC, DAC, etc.
As mentioned previously, theses design projects can be manufactured through the EUROPRACTICE or MOSIS IC prototyping service. When chips are returned from the manufacturer, students also have the opportunity to test their designs.
ELKIM11215 – New Micro and Nanotechnologies. This subject is more theoretical and includes discussions on the tendencies and trends of Micro- and Nano-electronics in 21th century, the limitations of silicon technologies, and the improvements of CMOS transistors technologies. As well, this subject introduces students to the future prospects of Nano-electronics: carbon nanotubes, spintronics and molecular electronics technological processes, quantum computers and single electron devices, etc.
The simulation-based laboratory (using simulation tools available at http://nanoHUB.org) allows students to understand the nano-devices concept.
EKIM11219 – Design of Radio Frequency (RF) Integrated Circuits. This subject is designed to provide students with fundamentals of Radio Frequency (RF) transceiver design. The main objective of this subject is that the student shall learn basic methods and techniques for RF circuit design oriented to CMOS/BiCMOS technologies. The content of this subject is as follows: low-noise RF amplifiers design methodologies and topologies, RF power amplifiers, high-frequency filters, RF mixers, RF generators, modulators/demodulators, ultra low noise frequency synthesizers, phase-locked loops, RF transmitter/receiver architectures, etc. The laboratory portion of this subject consists of two parts. In the first part, students simulate the designed RF circuits using Cadence software tools. In the second part, students carry out investigations in LMS6002D transceiver IC by Lime Microsystems. This transceiver is implemented in the Myriad-RF board with Altera DE0 Nano FPGA interface.
ELKIM11315 – Heterogeneuos Systems. The objective of this subject is to study the principles of modeling and simulation of complex heterogeneous devices and systems. Analysis of the "More than Moore" and "More Moore" areas of Nano-electronics, the integration of the "System on/in Package" solutions, 2D and 3D systems integration, new interconnections nanotechnology features, MEMS/NEMS are introduced in the lectures and via discussion in the seminars. During the seminars, students with the professor’s guidance new Nano-electronics solutions.
ELKIM11403 – Final Work. Four courses comprising this subject are designed for the preparation of Master’s thesis: a single course of 3 credit value is taken by the student each of his first three semesters and secondly a 30 credit course is taken one’s entire fourth year. The total preparation of one’s Master’s thesis consists of 39 credits. This duration of Master’s thesis preparation allows students the proper time period for the preparation of their thesis.
Vilnius Gediminas Technical University cooperates with leading industry companies. These relationships provide students with opportunities to conduct their Master’s reasearch directly within a company. After the successful preparation and defense of one’s Master thesis, these companies typically offer students a full-time position.
The purpose of the Master thesis is to develop the capability to perform independent research in the field of electrical engineering. The topics of Master’s theses at VGTU vary from IC design and testing to reverse engineering and analysis and the evaluation and preparation of recommendations for chip vulnerability resistance improvements.
All Master students must present their experimental results during the period of thesis preparation in a scientific conference. The Annual Conference of Young Scientists for Electronics and Electrical Engineering is the typically the most suitable avenue for this end. The best theses of this conference are published in the periodical science journal "Science – the Future of Lithuania" [7].
V.FUTURE PLANS
Lithuanian Government, universities and science institutions pay a great amount of attention to investments in scientific research, science and business incubators, as well as the creation and development of national science and business valleys.
Currently there are five integrated scientific, academic and business valleys being created in Lithuania: "Santara" and the Sunrise Valley in Vilnius, "Santaka" and "Nemunas" in Kaunas and the Marine Valley in Klaipėda. These valleys are the nuclei of cooperation between the science and business communities and will lay the foundations of a competitive economy based on high-tech.
The following fields of activity are planned to be developed in the Sunrise Valley: semiconductor physics and electronics, civil engineering, laser and light technology, and materials science and nanotechnology [8]. The National Centre of Physics and Technology Sciences will be established in this valley, and the science and technology park will also be developed.
There will also be a laboratory of Micro- and Nano-electronics system design and research at Vilnius Gediminas Technical University, in the Department of Electronics in the Sunrise Valley facility. The requisite equipment for integrated circuit design, testing and research in general will be available in this laboratory. Additionally, this same equipment will be used for satisfying commercial endeavours which will generate revenue and other research projects.
Having an established laboratory within the Sunrise Valley, the study programmes of VGTU will be renewed and fortified. This in turn will provide the means to educate students of even higher qualification and abilities, as well as engineers capable of performing scientific research and innovation at the same level of the world’s top research institutions.
VI.CONCLUSIONS
From the above discussion, the following conclusions are drawn:
1. Lithuanian scientists are well-known globally and have deep-rooted traditions in semiconductor appliance design, production and research.
2. In Lithuania, integrated circuit design and testing is currently taught primarily at Vilnius Gediminas Technical University, in the Department of Electronics. University-level specialists of electronic engineering are trained at VGTU and are qualified to work at a variety of industrial fields both in Lithuania and abroad. These specialists have a demonstrated record of navigating through requirements of the modern job market with a high-level of adeptness.
3. Both the Bachelor’s Degree and the Master’s Degree programmes are state-of-the-art. The variety of offered concentrations guarantees a broad scope of electronic engineering specialists and allows the faculty to better meet the individual needs and interests of the students.
4. In the Bachelor’s Degree studies, students are taught to design the main integrated circuit building blocks. These skills are honed during the Master’s degree program where students are asked to assemble these basic building blocks into complex, multi-purpose integrated circuits. Close cooperation exists with economic agents to further develop the IC design curriculum and prepare thesis topics desired by industry.
5. After the establishment of the Sunrise Valley and the laboratory of Micro- and Nano-electronics system design and research, the perfect environment will exist for the means to conduct complex scientific research as well as to attract financial investment both from inside Lithuania and abroad.
REFERENCES
[1] Lithuanian Labour Market Exchange. Employment opportunities barometer in Lithuania 2013. [Online]. Available:http://www.ldb.lt/en/Information/LabourMarket/Pages/Forecast.aspx
[2] A. Kvedaravičius, R. Navickas, "Silicon Integrated Circuits Manufacturing Guide", Vilnius: Science Press, 1989, 326 p. [in Lithuanian]
[3] S. Štaras, R. Kirvaitis, "Fundamentals of Microelectronics", Vilnius: Science and Encyclopaedia Press, 1995, 292 p. [in Lithuanian]
[4] Bachelor Studies of Electronics Engineering in VGTU. [Online]. Available: https://medeine.vgtu.lt/programos/programa.jsp?fak=5&prog=47&sid=F&rus=U&klb=en
[5] Silvaco Inc. TCAD Training Materials. [Online]. Available: http://www.silvaco.com/tech_lib_TCAD/training_materials.html
[6] Master Studies of Electronics Engineering in VGTU. [Online]. Available: https://medeine.vgtu.lt/programos/programa.jsp?fak=5&prog=51&sid=F&rus=U&klb=en
[7] Journal "Science – the Future of Lithuania". [Online]. Available: http://www.mla.vgtu.lt
[8] Official Sunrise Valley website. Sunrise valley. [Online]. Available: http://www.sunrisevalley.lt
CONTACTS
crypt:PGEgaHJlZj0ibWFpbHRvOnZhaWRvdGFzLmJhcnpkZW5hc0B2Z3R1Lmx0Ij5Bc3NvYy4gcHJvZi4gZHIuIFZhaWRvdGFzIEJhcnpkxJduYXM8L2E+:xx Department of Computer Engineering, Faculty of Electronics, Vilnius Gediminas Technical University Naugarduko str. 41-439, LT- 03227 Vilnius, Lithuania.2014 year's final work annotation
2014 year's final work annotation | |||||
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Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Gražvydas Kaminskas | Automatic Car License Plate Recognition Algorithm | M | Giedrius Masalskis | Anotacijos nėra | Anotacijos nėra |
Aleksandras Rancevas | Research and Development of Balance Control System | M | Nerijus Paulauskas | Anotacijos nėra | Anotacijos nėra |
Aleksandr Vasjanov | CMOS Power Amplifier Design and Research in 65 nm Technology | M | Vaidotas Barzdėnas | Anotacijos nėra | Anotacijos nėra |
Augustinas Paukštys | Investigation and Analysis of Computer Network Flow Behavior | M | Nerijus Paulauskas | Anotacijos nėra | Anotacijos nėra |
Andrej Vukolov | Research of Steganography Implementation and Application in PLDs | M | Giedrius Masalskis | Anotacijos nėra | Anotacijos nėra |
Dariuš Legus | Cloud Computing Technology Infrastructure and Security Analysis | M | Gediminas Gražulevičius | Anotacijos nėra | Anotacijos nėra |
Gediminas Obolevičius | Sport Shooting Hindsight System | B | Giedrius Masalskis | Anotacijos nėra | Anotacijos nėra |
Mantas Petravičius | Voltage and Current Band Gap Reference | M | Karolis Kiela | Anotacijos nėra | Anotacijos nėra |
Benas Baltrimas | Investigation of Microcontrollers Performance | M | Algirdas Baškys | Anotacijos nėra | Anotacijos nėra |
Žygimantas Bružas | Design and Research of Intrusion Prevention System | M | Eimantas Garšva | Anotacijos nėra | Anotacijos nėra |
Mantas Labanauskas | Research of Security Information and Event Management Operation | M | Eimantas Garšva | Anotacijos nėra | Anotacijos nėra |
Povilas Šiaudinis | Cars Keys System Research Using "Software Defined Radio" | M | Tadas Lipinskis | Anotacijos nėra | Anotacijos nėra |
Žilvinas Norkus | Digital Frequency Counter | B | Karolis Kiela | Anotacijos nėra | Anotacijos nėra |
Juozas Vaičiūnas | Balansing Robot | B | Vytautas Bleizgys | Anotacijos nėra | Anotacijos nėra |
Deivydas Šabaras | Teperature Measure with Colorful View and Remote Control | B | Vytautas Bleizgys | Anotacijos nėra | Anotacijos nėra |
Mindaugas Taučkėla | Acoustic Control Device Design | B | Julius Skudutis | Anotacijos nėra | Anotacijos nėra |
Paulius Andriuškevičius | Light Effects Controller | B | Algirdas Baškys | Anotacijos nėra | Anotacijos nėra |
Tomas Sosnovskij | Analysis of "AMD Bulldozer" Microarchitecture | B | Gediminas Gražulevičius | Anotacijos nėra | Anotacijos nėra |
Valentas Žymantas | Firewall Rule Efficiency Research | M | Eimantas Garšva | Anotacijos nėra | Anotacijos nėra |
Tomas Bladykas | Robot for Lifting Items | B | Algirdas Baškys | Anotacijos nėra | Anotacijos nėra |
Tomas Barsukovas | Smart House System (Slave Devices) | B | Vytautas Bleizgys | Anotacijos nėra | Anotacijos nėra |
Dalius Kazakevičius | Design of Wireless-Controlled Biomechanical Hand | B | Vaidotas Barzdėnas | Anotacijos nėra | Anotacijos nėra |
Ernest Baltrukovič | Smart House System (Master Device) | B | Vytautas Bleizgys | Anotacijos nėra | Anotacijos nėra |
Igoris Bogačiovas | Design of a Magnetic Levitacion Train Model | B | Nerijus Paulauskas | Anotacijos nėra | Anotacijos nėra |
Justin Byčkovič | Motion Sensitive Computer Interface Device | B | Gediminas Gražulevičius | Anotacijos nėra | Anotacijos nėra |
Marius Virbalas | Spinning LED Display Clock-Thermometer | B | Martynas Šapurov | Anotacijos nėra | Anotacijos nėra |
Marius Jaraminas | Signals Receiving and Decoding System for Small Size Satellites | B | Zigmas Balevičius | Anotacijos nėra | Anotacijos nėra |
Viktor Derevnickij | Design of Electric Drive for Drift Tricycle - Hardware Design | B | Nerijus Paulauskas | Anotacijos nėra | Anotacijos nėra |
Vilius Belkevičius | Audio Spectrum Visualisation Using RGB Ligth ant Air Flow Control | B | Valerijus Zlosnikas | Anotacijos nėra | Anotacijos nėra |
Evaldas Staškus | Design of 4-bit Arithmetic Logic Unit | B | Vaidotas Barzdėnas | Anotacijos nėra | Anotacijos nėra |
Marekas Klimaševskis | Network Devices Monitoring System | B | Giedrius Masalskis | Anotacijos nėra | Anotacijos nėra |
Saulius Arlauskas | Vehicle Model Controlled via "Bluetooth" | B | Martynas Šapurov | Anotacijos nėra | Anotacijos nėra |
Saulius Skarulskis | Wireless Weather Station | B | Nerijus Paulauskas | Anotacijos nėra | Anotacijos nėra |
Vytenis Krūminis | Design of Wireless-Controlled Biomechanical Hand Control System | B | Vaidotas Barzdėnas | Anotacijos nėra | Anotacijos nėra |
Algirdas Rukšėnas | Versatile Speed Meter in Fired Range | B | Martynas Šapurov | Anotacijos nėra | Anotacijos nėra |
Edmundas Andriuška | Design of Electric Drive for Drift Tricycle - Firmware Design | B | Nerijus Paulauskas | Anotacijos nėra | Anotacijos nėra |
Egidijus Korablikovas | Remotely Controlled Robot Ball | B | Tadas Lipinskis | Anotacijos nėra | Anotacijos nėra |
Jevgenij Petrik | Management System for the LiIon Battery's | B | Tadas Lipinskis | Anotacijos nėra | Anotacijos nėra |
Teisutis Navickas | Sound Amplifier Project | B | Martynas Šapurov | Anotacijos nėra | Anotacijos nėra |
Vytautas Mačionis | Design of 8-bit Synchronous Programmable Counter | B | Vaidotas Barzdėnas | Anotacijos nėra | Anotacijos nėra |
Žilvinas Repečka | "iButton" Key Reader and Writer Device | B | Tadas Lipinskis | Anotacijos nėra | Anotacijos nėra |
Daumantas Stravinskas | Light Music-Matrix | B | Vytautas Bleizgys | Anotacijos nėra | Anotacijos nėra |
Lukas Jokūbas Bogomolovas | Creation of Heaphones with Active Noise Cancellation | B | Martynas Šapurov | Anotacijos nėra | Anotacijos nėra |
Justas Dilys | Development of Frequency Converter Embedded System | M | Algirdas Baškys | Anotacijos nėra | Anotacijos nėra |
2013 year's final work annotation
2013 year's final work annotation | |||||
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Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Andrius Čibiras | Design of Sun-Tracking Solar Cell System | B | Audrius Lučinskis | Annotation | Annotation |
Martynas Šapurov | Investigation of the Embedded System for AC Induction Motor Slip Control | M | Algirdas Baškys | Annotation | Annotation |
Valdas Astrauskas | Design and Invesitgation of Charge Sensitive Preamplifier in CMOS 0,25 micro m Technology | M | Vaidotas Barzdėnas | Annotation | Annotation |
Mindaugas Miškinis | Research of Pseudo-Random Number Generator Implementation in Programmable Logic Devices | M | Giedrius Masalskis | Annotation | Annotation |
Povilas Jasaitis | Investigation and Development of the Electronic System for Optimization of Car Engine Control | M | Artūras Serackis | Annotation | Annotation |
Ramūnas Jurkonis | Capacitor Leakage Meter | B | Giedrius Masalskis | Annotation | Annotation |
Donatas Čepelis | Design of 10-bit, 40 Ms/s pipeline ADC | M | Vaidotas Barzdėnas | Annotation | Annotation |
Eduardas Meilė | Investigation of Control Systems with Asymmetric Dynamics | M | Algirdas Baškys | Annotation | Annotation |
Marijan Jurgo | Analysis and Design of Phase-Locked Loop CMOS Integrated Circuits | M | Romualdas Navickas | Annotation | Annotation |
Pavelas Zolotariovas | Investigation of the Photovoltaic Cell Technology | M | Vaidotas Barzdėnas | Annotation | Annotation |
Raimondas Zubavičius | Development and Research of Hexapod Robot Control System | M | Nerijus Paulauskas | Annotation | Annotation |
Povilas Strakšas | Maximum Power Point Tracking Controller for Photovoltaic Solar Module | B | Dominykas Vasarevičius | Annotation | Annotation |
Dovydas Jurgelevičius | Investigation of EMD Resistant Controller Algorithms | M | Algirdas Baškys | Annotation | Annotation |
Vytautas Mačaitis | Design and Investigation of Voltage Controlled Oscillator in CMOS 65nm Technology | M | Vaidotas Barzdėnas | Annotation | Annotation |
Artūras Apolianskas | Face Detection and Tracking System for Algorithm Validation | M | Andrius Ušinskas | Annotation | Annotation |
Tadas Ilekis | Firewalls Security Systems | M | Gediminas Gražulevičius | Annotation | Annotation |
Vaiva Šlegerytė | Programmable Logic Device Application in PC Using USB Interface | M | Giedrius Masalskis | Annotation | Annotation |
Martynas Vansevičius | Research of Round Thyristors | B | Romualdas Navickas | Annotation | Annotation |
Evaldas Didjurgis | Study of Solar Cell Optical Responce by Computer Based Models of Spectroscopic Ellipsometry | B | Zigmas Balevičius | Annotation | Annotation |
Kęstutis Želnys | Design of Remote Controll System | B | Vytautas Bleizgys | Annotation | Annotation |
Arsenij Andrijanov | Information Flow in Computer Systems Modeling and Analysis | M | Julius Skudutis | Annotation | Annotation |
Paulius Šlikas | Remote Car Security System with GPS | B | Audrius Lučinskis | Annotation | Annotation |
Virgilijus Bračiulis | Piano Note and Chord Recognition System | B | Gintautas Tamulevičius | Annotation | Annotation |
Laurynas Subačius | Local Network and Data Management System Reconstruction and Modernisation | B | Julius Skardžius | Annotation | Annotation |
Aurimas Sendzikaitis | Design of Spices Dosing Device | B | Valerijus Zlosnikas | Annotation | Annotation |
Gediminas Haroldas Juškėnas | Investigation of Modified Solar Cell Absorbtion Spectra Using Computer Based Models of Ellipsometry Method | B | Zigmas Balevičius | Annotation | Annotation |
Tomas Bogužis | Robot - Metal Detector | B | Vytautas Bleizgys | Annotation | Annotation |
Jaroslav Olechnovič | Solar Tracking System for Fotovoltaic Cells | B | Karolis Kiela | Annotation | Annotation |
Valdas Simpukas | Alcotester | B | Audrius Lučinskis | Annotation | Annotation |
Modestas Svirbutavičius | Meteorological Station | B | Karolis Kiela | Annotation | Annotation |
Justas Abramavičius | Home Security System Controlled Using SMS | B | Karolis Kiela | Annotation | Annotation |
Eldar Šabanovič | Design of CANSAT Satellite System | B | Raimondas Pomarnacki | Annotation | Annotation |
Povilas Marazas | Heating System Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Sergej Akstiukevič | Room Heating Control System | B | Julius Skardžius | Annotation | Annotation |
Dovydas Zelenius | Car Model Controlled Using "Android" | B | Vladislavas Daškevičius | Annotation | Annotation |
Rokas Mikalkėnas | Portable Electronic Drums | B | Tadas Lipinskis | Annotation | Annotation |
Justinas Samoška | WEB Server Design Using ATLYS FPGA Development Board | B | Vaidotas Barzdėnas | Annotation | Annotation |
Katažyna Dzikevičienė | Parking Space Counting System | B | Vaidotas Barzdėnas | Annotation | Annotation |
Paulius Lebedys | Automatic Room Light Switch and Control System | B | Aldas Dervinis | Annotation | Annotation |
Vytautas Lukminas | Ultrasonic Security System | B | Karolis Kiela | Annotation | Annotation |
Donatas Aviltis | Room Lighting Control System | B | Karolis Kiela | Annotation | Annotation |
Deivydas Šabaras | Temperature Measure with Colorful View and Remote Control | B | Vytautas Bleizgys | Annotation | Annotation |
Rimas Ciplinskas | Design of Internet Radio Player | B | Nerijus Paulauskas | Annotation | Annotation |
Dimitrij Kuch | High Frequency Measurement Device Control System Implemented Using GPIB (General Purpose Interface Bus) Interface | B | Tadas Lipinskis | Annotation | Annotation |
Edgaras Korsakas | Optical Power Meter Front-End Design | B | Jevgenij Charlamov | Annotation | Annotation |
Ramūnas Adamonis | Ground Control Station Software for Remotely Operated Vechicle | B | Tadas Lipinskis | Annotation | Annotation |
Andžej Matuiza | Greenhouse Controller | B | Aldas Dervinis | Annotation | Annotation |
Tomas Tamulionis | Cooling System Controller | B | Algirdas Baškys | Annotation | Annotation |
Gediminas Šilanskas | Design of Laser-Based Multimedia Projector | B | Audrius Lučinskis | Annotation | Annotation |
Šarūnas Venclovas | Wireless Optical Heart Rate Monitor | B | Jevgenij Charlamov | Annotation | Annotation |
Vykintas Balčiūnas | Design of Wireless-Controlled Submarine Model | B | Vaidotas Barzdėnas | Annotation | Annotation |
Arvydas Ruibys | Micorcontroller-Based Digital Oscilloscope | B | Tadas Lipinskis | Annotation | Annotation |
Lukas Palevičius | Universal MIDI Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Ramūnas Jagminas | Design of Light Music Device | B | Vladislavas Daškevičius | Annotation | Annotation |
Mantas Šopa | Multicopter Control Using Mobile Phone | B | Tadas Lipinskis | Annotation | Annotation |
Andrius Monkauskas | Computerized Knowledge Testing and Evaluation System | B | Julius Skardžius | Annotation | Annotation |
Andžej Krupoves | Car Protection System with Mobile Connection | B | Audrius Lučinskis | Annotation | Annotation |
Žilvinas Naudžiūnas | Design of a Hexapod Robot | B | Nerijus Paulauskas | Annotation | Annotation |
Leonid Kladovščikov | Design of Programmable Drilling Machine and its Control Interface | B | Nerijus Paulauskas | Annotation | Annotation |
Eligijus Betingis | People Accountancy and Electric Lighting Management in Premises | B | Julius Skardžius | Annotation | Annotation |
Karolis Bliūdžius | Wall Clock-Matrix | B | Vytautas Bleizgys | Annotation | Annotation |
Mindaugas Čiuželis | Automatic Door Lock System | B | Giedrius Masalskis | Annotation | Annotation |
Marius Markevičius | Design of Geiger Counter | B | Aldas Dervinis | Annotation | Annotation |
Rolandas Grabys | Design of LED Display Information Board | B | Vaidotas Barzdėnas | Annotation | Annotation |
Linas Juozas Jočys | Gas Leakage and Fire Prevention System | B | Julius Skardžius | Annotation | Annotation |
Dainius Stundžia | Trade Companies Computerized Information System | B | Julius Skardžius | Annotation | Annotation |
Linas Aidokas | Design of Maze Exploration and Environment Mapping Robot | B | Valerijus Zlosnikas | Annotation | Annotation |
2012 year's final work annotation
2012 year's final work annotation | |||||
---|---|---|---|---|---|
Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Povilas Kaziukevičius | Design and Investigation of Audiometer | M | Julius Skudutis | Annotation | Annotation |
Edgar Blaževič | Development and Investigation of GPS/GPRES Tracking Device | M | Vladislavas Daškevičius | Annotation | Annotation |
Audrius Radvilavičius | Design of Risk Evaluation System | M | Eimantas Garšva | Annotation | Annotation |
Rimas Mickevičius | Object Tracking Using the GSM Connection | B | Nerijus Paulauskas | Annotation | Annotation |
Nerijus Uža | Carbon Nanotubes Technologies in Nanoelectronics | M | Romualdas Navickas | Annotation | Annotation |
Marius Švedas | Investigation of Self-Formation Processes in Nanoelectronics | M | Romualdas Navickas | Annotation | Annotation |
Arūnas Survila | Investigation of Sound Recognition System | M | Dalius Navakauskas | Annotation | Annotation |
Vaidotas Norkūnas | Audio Signal Processing for Discrimination of Respiratory Pathologies | M | Nerijus Paulauskas | Annotation | Annotation |
Gintaras Grybas | Investigation of Crystalline, Thin Film and Tandem Solar Cell Efficiency | M | Vaidotas Barzdėnas | Annotation | Annotation |
Andrius Nikelis | Design and Investigation of a Operational Amplifiers for Optical telecommunication Systems | M | Romualdas Navickas | Annotation | Annotation |
Karolis Kiela | Investigation of Integrated Filter Circuits | M | Romualdas Navickas | Annotation | Annotation |
Ramūnas Jurkonis | Car Alarm System with Remote Control | B | Andrius Platakis | Annotation | Annotation |
Tomas Latvėnas | Tests Creation and Student Testing System | B | Vaidotas Barzdėnas | Annotation | Annotation |
Balys Rutkauskas | Design of Reprogramming the Radio Communication System | B | Artūras Medeišis | Annotation | Annotation |
Marijus Romanovas | Research of "Basys-2" Field Programmable Gate Array Development Board | B | Vaidotas Barzdėnas | Annotation | Annotation |
Justinas Andrulionis | Driver's Warning System | B | Julius Skardžius | Annotation | Annotation |
Aleksandr Vasjanov | Interactive Reconstruction and Control of Graphical Data from External Memory Storage Using 8 bit Microcontroller | B | Valerijus Zlosnikas | Annotation | Annotation |
Augustinas Minkauskas | Sound Pressure Level Meter | B | Arvydas Stankevičius | Annotation | Annotation |
Augustinas Paukštys | Flying Object Inertial Measurement Unit | B | Nerijus Paulauskas | Annotation | Annotation |
Andrej Vukolov | Design of Mobile Telemetry System | B | Valerijus Zlosnikas | Annotation | Annotation |
Robert Žibert | Design of Car Diagnostic Device | B | Vaidotas Barzdėnas | Annotation | Annotation |
Andrius Cibulskas | Computer-Controlled Milling Machine Module | B | Gediminas Gražulevičius | Annotation | Annotation |
Dariuš Legus | Design of the "Theremin" Musical Instrument | B | Nerijus Paulauskas | Annotation | Annotation |
Justinas Trapnauskas | Contact-less Investigation of High-k Dielectrics Electrical Properties | B | Vaidotas Barzdėnas | Annotation | Annotation |
Ignas Poškevičius | Microcontroller-Based LED Indicator Panel | B | Vladislavas Daškevičius | Annotation | Annotation |
Justinas Umbrasas | Design of Music Disc's Player with Compact Disc Optical Drive | B | Vaidotas Barzdėnas | Annotation | Annotation |
Tomas Sakalauskas | Design of Advertising Airchip | B | Nerijus Paulauskas | Annotation | Annotation |
Gediminas Žukas | Controller for Ventilation System of company Industrial Premises | B | Gediminas Gražulevičius | Annotation | Annotation |
Mindaugas Ragaišis | Control Unit of Air Compressor Car Painting Chamber | B | Tadas Lipinskis | Annotation | Annotation |
Mindaugas Karla | Design of Four-engined Helicopter Model | B | Vaidotas Barzdėnas | Annotation | Annotation |
Vaidotas Ražaitis | Bicycle Speedometer | B | Gediminas Gražulevičius | Annotation | Annotation |
Lina Vaickutė | Design of Car Parking System | B | Valerijus Zlosnikas | Annotation | Annotation |
Dovydas Rimeisis | Computer-Controlled Power Supply Testing Device | B | Arvydas Stankevičius | Annotation | Annotation |
Vitold Leonovič | Intellectual Line Following Robot | B | Vytautas Bleizgys | Annotation | Annotation |
Mantas Petravičius | Optical Tachometer | B | Gediminas Gražulevičius | Annotation | Annotation |
Vytautas Mendelis | Solar Energy Measurement Device | B | Vaidotas Barzdėnas | Annotation | Annotation |
Kęstutis Masaitis | Adaptive Control System of Field Lighting | B | Romualdas Navickas | Annotation | Annotation |
Gintas Bernadišius | Design of Mailbox Powered by Solar Energy | B | Julius Skudutis | Annotation | Annotation |
Oskaras Jieznys | Programmable Temperature Controller | B | Julius Skudutis | Annotation | Annotation |
Donatas Adomonis | Automatic PET Feeder | B | Arvydas Stankevičius | Annotation | Annotation |
Žygimantas Bružas | Denial of Service Mitigation System Design | B | Eimantas Garšva | Annotation | Annotation |
Martynas Kizys | Automated Product Vending Machine | B | Nerijus Paulauskas | Annotation | Annotation |
Paulius Bartusevičius | Medium Sized Company Information System Design | B | Nerijus Paulauskas | Annotation | Annotation |
Gediminas Urbanovičius | Electronic Device for Instruction of Checkers Player | B | Gediminas Gražulevičius | Annotation | Annotation |
Tautvydas Petniūnas | Digital Audio Amplifier with Tone Control | B | Vytautas Bleizgys | Annotation | Annotation |
Tautvydas Brukštus | Laser Systems Remote User Interface | B | Giedrius Masalskis | Annotation | Annotation |
Robertas Andrašiūnas | Room Management System Applying Mobile Phone with Android OS | B | Julius Skardžius | Annotation | Annotation |
Povilas Kizikas | GSM Traffic Control System | B | Nerijus Paulauskas | Annotation | Annotation |
Eglė Vaitekėnaitė | Virtual Classroom | B | Julius Skardžius | Annotation | Annotation |
Andrius Geleževičius | Design of GSM Alarm System | B | Vaidotas Barzdėnas | Annotation | Annotation |
Povilas Šiaudinis | Design of Aquarium Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Paulius Balčiūnas | Inventory Accounting System | B | Gediminas Gražulevičius | Annotation | Annotation |
Ugnius Savickas | Design of Digital Audio Player Integrated into Car Radio | B | Nerijus Paulauskas | Annotation | Annotation |
Jevgenij Krumplevskij | Variable Brighgtness LCD Matrix and its Control System | B | Vladislavas Daškevičius | Annotation | Annotation |
Eimantas Kačergis | Design of Backyard Lighting System Using Renewable Natural Resources | B | Algirdas Baškys | Annotation | Annotation |
Vygandas Šoblinskas | Denial of Service Attacks Investigation | B | Eimantas Garšva | Annotation | Annotation |
Rokas Išmakovas | Intelligent Battery Charger | B | Algirdas Baškys | Annotation | Annotation |
Marius Aleksandravičius | Development and Investigation of the Closed Loop V/F Control System of Frequency Converter | M | Algirdas Baškys | Annotation | Annotation |
2011 year's final work annotation
2011 year's final work annotation | |||||
---|---|---|---|---|---|
Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Ignas Skudrickas | Electronic System for Passengers Counting | M | Andrius Ušinskas | Annotation | Annotation |
Igor Christoforov | Roller Shutter Controller | B | Nerijus Paulauskas | Annotation | Annotation |
Igor Radajev | Investigation of Controller of the Processes with the Asymetric Dynamics | M | Algirdas Baškys | Annotation | Annotation |
Linas Tūska | Design of the 2,5 GHz Optoelectronic Amplifier in 90 nm CMOS | M | Vaidotas Barzdėnas | Annotation | Annotation |
Romas Mačiukas | Investigation of Multichannel Computer System | M | Julius Skudutis | Annotation | Annotation |
Adomas Rutulys | Simulation and Investigation of Queues in the Computer Networks | M | Julius Skudutis | Annotation | Annotation |
Leonas Petraitis | The Spread of Illegal Content over the Internet and its Limitation Ways | M | Nerijus Paulauskas | Annotation | Annotation |
Vaidas Gražys | Investigation of Stereo Visualization of the Protein Spot Images | M | Artūras Serackis | Annotation | Annotation |
Artūras Bubnelis | Analysis of Cylindrical Matematerial Waveguide | M | Liudmila Nickelson | Annotation | Annotation |
Edvinas Jodokas | Lighting System with Remote Control | B | Arvydas Stankevičius | Annotation | Annotation |
Mykolas Kalinauskas | Signal Processing in the Sound Cards | M | Vacius Mališauskas | Annotation | Annotation |
Šarūnas Gurinskas | Research of Scan Detection System Efficiency | M | Eimantas Garšva | Annotation | Annotation |
Mindaugas Miškinis | Design of the Multichannel Data Logger | B | Nerijus Paulauskas | Annotation | Annotation |
Aleksejus Venzlauskas | Design and Analysis of Optical Receiver | B | Romualdas Navickas | Annotation | Annotation |
Justas Mikalauskas | Interactive Training Software "Intel® Pentium® 4 SSE2 Instructions": Graphical User Interface | B | Gediminas Gražulevičius | Annotation | Annotation |
Daugirdas Stirbys | Microcontroller-Based Robot with Orientation in Space | B | Vaidotas Barzdėnas | Annotation | Annotation |
Povilas Jasaitis | Design of Bicolor LED Display Information Board | B | Nerijus Paulauskas | Annotation | Annotation |
Dmitrij Šiškin | Laser Power Measurement System | B | Romualdas Navickas | Annotation | Annotation |
Karolis Balsys | Virtual Clock | B | Algirdas Baškys | Annotation | Annotation |
Rolandas Galdikas | Smart Information Display | B | Valerijus Zlosnikas | Annotation | Annotation |
Andrius Stonys | Data Transport Device, Using lrDA Communication for Writing/Reading | B | Valerijus Zlosnikas | Annotation | Annotation |
Mindaugas Mikėnas | Electrical Energy Meter | B | Gediminas Gražulevičius | Annotation | Annotation |
Donatas Čepelis | Design of Audible Traffic Signal Device with Microcontroller for Blind Pedestrians | B | Vaidotas Barzdėnas | Annotation | Annotation |
Arūnas Bekintis | Interactive Training Software "Intel® Pentium® 4 SSE2 Instructions": Analysis of SSE Instructions | B | Gediminas Gražulevičius | Annotation | Annotation |
Eduardas Meilė | Educational Development Board for BLDC Motor Control | B | Valerijus Zlosnikas | Annotation | Annotation |
Marijan Jurgo | Design of Four Traffic Groups Controller | B | Vaidotas Barzdėnas | Annotation | Annotation |
Mindaugas Slabada | Climatic Control System | B | Giedrius Masalskis | Annotation | Annotation |
Žilvinas Žadeikis | Portable Welder | B | Vladislavas Daškevičius | Annotation | Annotation |
Gediminas Krištopaitis | Colour RGB Rotary Display | B | Julius Skudutis | Annotation | Annotation |
Loreta Balandytė | PI Controller | B | Algirdas Baškys | Annotation | Annotation |
Pavelas Zolotariovas | Modelling of CMOS Transistors Technology Processes Using Athena and Atlas Software Packages | B | Vaidotas Barzdėnas | Annotation | Annotation |
Vitalijus Jurša | Universal Power Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Deividas Brasas | Access Control System Using RFID Technology | B | Valerijus Zlosnikas | Annotation | Annotation |
Raimondas Zubavičius | GSM/GPRS/GPS Car Tracking and Security System Against Unauthorized Actions (GPS and Sensors) | B | Valerijus Zlosnikas | Annotation | Annotation |
Nerijus Lygnugaris | Home Control and Observation Net Using CAN Technology Design ("Master" Device) | B | Valerijus Zlosnikas | Annotation | Annotation |
Titas Savickas | System of Student Computers Supervision | B | Gediminas Gražulevičius | Annotation | Annotation |
Karolis Stankus | The-Dimensional Image Visualization System | B | Andrius Platakis | Annotation | Annotation |
Donatas Bulvanas | Autonomous Data Acquisition Robot | B | Andrius Platakis | Annotation | Annotation |
Tadas Rimkūnas | GSM/GPRS/GPS Car Tracking and Security System Against Unauthorized Actions (GSM/GPRS) | B | Valerijus Zlosnikas | Annotation | Annotation |
Algirdas Tomas Venclovaitis | Design of Law Power Voltage Controlled Oscilator | B | Romualdas Navickas | Annotation | Annotation |
Matas Doviltis | Virtual Firewall Design and Implementation | B | Eimantas Garšva | Annotation | Annotation |
Liudas Šarūnas Prišmontas | Heating System Controller | B | Valerijus Zlosnikas | Annotation | Annotation |
Saulius Dreinius | Design of Azimuth and Elevation Rotator Controller | B | Nerijus Paulauskas | Annotation | Annotation |
Dovilė Kurpytė | Development of Intelectual System for Images Processing | B | Dalius Navakauskas | Annotation | Annotation |
Gintaras Narkevičius | Computer Power Supply Voltage and Temperature Analyser | B | Arvydas Stankevičius | Annotation | Annotation |
Gžegož Chatkevič | Data Acquisition and Transmission Using Embedded Web Server | B | Andrius Platakis | Annotation | Annotation |
Marius Jasiulionis | Design of Universal Analog Memory Device for Laser Radiation Energy Parameters | B | Vaidotas Barzdėnas | Annotation | Annotation |
Vytautas Mačaitis | Design of Two Cascade Operational Amplifier | B | Romualdas Navickas | Annotation | Annotation |
Aleksandras Rancevas | Car Alarm System | B | Vladislavas Daškevičius | Annotation | Annotation |
Jonas Priedininkas | Design of directional Antena for GSM Link | B | Vladislavas Daškevičius | Annotation | Annotation |
Vladimiras Diudenko | Design of Laser Spirograph | B | Vaidotas Barzdėnas | Annotation | Annotation |
Tomas Čižauskas | Home Control and Observation Net Using CAN Technology Design ("Slave" Device) | B | Valerijus Zlosnikas | Annotation | Annotation |
Vaiva Šlegerytė | Ballistic Chronograph | B | Vaidotas Barzdėnas | Annotation | Annotation |
Andrius Karūnas | Design of MP3 Player | B | Nerijus Paulauskas | Annotation | Annotation |
2010 year's final work annotation
2010 year's final work annotation | |||||
---|---|---|---|---|---|
Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Miroslav Staškovskij | Design of Web Server | B | Darius Poviliauskas | Annotation | Annotation |
Igor Christoforov | Roller Shutter Controller | B | Nerijus Paulauskas | Annotation | Annotation |
Andrius Platakis | The Development and Investigation of Direct Current Converter for Alternative Energy Sources | M | Algirdas Baškys | Annotation | Annotation |
Justas Masiliūnas | Design of CMOS Trigger Microchip Using Software Packages P-Spice and Tanner Tools Pro | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Remigijus Baravykas | Simulation and Analysis of Data Traffic in the Computer Network | M | Julius Skudutis | Annotation | Annotation |
Albinas Nikšas | Training Software "Intel 8086 Microprocessor Instruction Set": Graphic User Interface | B | Gediminas Gražulevičius | Annotation | Annotation |
Evaldas Šatas | Training Software "Intel 8086 Microprocessor Instruction Set": Instruction Set Analysis | B | Gediminas Gražulevičius | Annotation | Annotation |
Viačeslav Panin | Analysis of Methodologies for Testing Network Intrusion Detection Systems | M | Nerijus Paulauskas | Annotation | Annotation |
Lech Gulbinovič | Feasibility of 8-bit Microcontroller for Ethernet Applications | M | Nerijus Paulauskas | Annotation | Annotation |
Dmitrij Anisin | Network Safety Researching at Data Link Layer | M | Julius Skudutis | Annotation | Annotation |
Julius Bukys | Development of Specialized Security System with WEB Interface | M | Vladislavas Daškevičius | Annotation | Annotation |
Aušra Daudaitė | Design of BiMOS Operational Amplifier Monolithic Integrated Circuit | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Jurij Polevoj | GSM Signalyser in the Cars with Coordinator Flindement | B | Romualdas Navickas | Annotation | Annotation |
Tomas Kirsnys | Functional Signal Generator | B | Gediminas Gražulevičius | Annotation | Annotation |
Tomas Palevičius | Design of USB Protocol Analyzer | B | Nerijus Paulauskas | Annotation | Annotation |
Audrius Lučinskis | Sound Processor with Remote Control | B | Giedrius Masalskis | Annotation | Annotation |
Karolis Juknevičius | Research Stand of Unnterruptible Power Supply (UPS) | B | Vladislavas Daškevičius | Annotation | Annotation |
Paulius Bučys | Monitor of Convection Desiccator for Timber | B | Vladislavas Daškevičius | Annotation | Annotation |
Povilas Kaziukevičius | WiFi Radio Controled Car Model - Hardware | B | Arvydas Stankevičius | Annotation | Annotation |
Šarūnas Šverys | Comparators Circuit for High Speed Analog Digital Converter Design | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Egidijus Maršantas | Design of Analog Integrated Circuits with SmartSpice Software Package | B | Vaidotas Barzdėnas | Annotation | Annotation |
Justinas Šyvokas | Radio Frequency ID Card Reader | B | Darius Poviliauskas | Annotation | Annotation |
Edgar Blaževič | Design of PIC IR Decoder | B | Julius Skudutis | Annotation | Annotation |
Rimantas Vitlipaitis | Stabilised Power Supply with Current Control | B | Gediminas Gražulevičius | Annotation | Annotation |
Igor Bučkovskij | Investigation of USB Bus and Devices | B | Julius Skudutis | Annotation | Annotation |
Vaidas Bartkevičius | Bathroom Lighting, Heating and Ventilation System Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Egidijus Bukatka | Design of Wireless Security System | B | Nerijus Paulauskas | Annotation | Annotation |
Audrius Radvilavičius | Heating System Controller | B | Vladislavas Daškevičius | Annotation | Annotation |
Yuriy Plotnikov | Modelling of 0,13 micro- m CMOS Transistors Technology Processes with Athena and Atlas Software Packages | B | Vaidotas Barzdėnas | Annotation | Annotation |
Aleksandr Tabašnikov | Design of Etherner-RS232 Converter | B | Nerijus Paulauskas | Annotation | Annotation |
Martynas Brazauskas | Analysis of Intel® Nehalem Microarchitecture | B | Gediminas Gražulevičius | Annotation | Annotation |
Nerijus Uža | Folded Cascode Operational Amplifier in 90 nm CMOS Technology | B | Romualdas Navickas | Annotation | Annotation |
Andžej Buiko | Microcontroller-Based Item Lifting Robot: Robot Power Part | B | Algirdas Baškys | Annotation | Annotation |
Vadim Goridko | Application of Digital Signal Processing Module for Estimation of the Object's Orientation | B | Dalius Navakauskas | Annotation | Annotation |
Tomas Gelžinis | Automatic Damp Control System | B | Vytautas Bleizgys | Annotation | Annotation |
Linas Bagdonas | GSM 800/1800/1900 Radio Noise Generator | B | Vladislavas Daškevičius | Annotation | Annotation |
Marius Švedas | Design of Active Filters in 90 nm CMOS Technology | B | Romualdas Navickas | Annotation | Annotation |
Gražvydas Kaminskas | Projecting and Creating Electronic Shop | B | Eimantas Garšva | Annotation | Annotation |
Mantas Armalas | OBDII to RS232 Converter for Car Diagnostics | B | Vladislavas Daškevičius | Annotation | Annotation |
Justinas Jurevičius | WiFi Radio Controled Car Model - Software | B | Arvydas Stankevičius | Annotation | Annotation |
Vygandas Bakula | Design Differential Input Operation Amplifier | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Artūras Radzys | Projecting System of Network Managment and Monitoring for the University | B | Eimantas Garšva | Annotation | Annotation |
Arūnas Survila | Digitally Controlled Audio Preamplifier | B | Arvydas Stankevičius | Annotation | Annotation |
Ignas Janilionis | Microcontroller-Based Item Lifting Robot: Robot Controller | B | Algirdas Baškys | Annotation | Annotation |
Donatas Darkšas | Controlling Devices with Electronic Web Server | B | Vytautas Bleizgys | Annotation | Annotation |
Ignas Šimukonis | Design of House Electricity Supply System | B | Julius Skudutis | Annotation | Annotation |
Renatas Petronavičius | Design of Active Filters in 90 nm CMOS Technology | B | Romualdas Navickas | Annotation | Annotation |
Martynas Saulevičius | Low-Voltage CMOS Comparators with Hysteresis in 90 nm Technology | B | Romualdas Navickas | Annotation | Annotation |
Vaidotas Norkūnas | Design of Plotter and it's Control Interface | B | Nerijus Paulauskas | Annotation | Annotation |
Ernestas Dirgėla | High Speed and High Current Laser Driver Design and Analysis | B | Jevgenij Charlamov | Annotation | Annotation |
Tomas Naujokas | Design of Voltage Comparator Block for Analog-Code Converters | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Agata Pocej | Design of 4-bit R-2R Ladder Digital to Analog Converter in 90 nm CMOS Technology | B | Vaidotas Barzdėnas | Annotation | Annotation |
Egidijus Simonaitis | Design of BIMOS Comparators Circuit for Graphical Monitors | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Karolis Ališauskas | Design of Temperature Control Device | B | Julius Skudutis | Annotation | Annotation |
Giedrius Ceinorius | Design of Operational Amplifier Monolithic Integrated Circuit | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Lina Kelmelytė | Design of Expansion Modules for Microcontroller Development Board | B | Nerijus Paulauskas | Annotation | Annotation |
Miroslavas Gabrilevskis | Universal Accumulator Battery Charger | B | Arvydas Stankevičius | Annotation | Annotation |
Donatas Akelanas | Investigation of Bluetooth Devices | B | Julius Skudutis | Annotation | Annotation |
Gintaras Grybas | Modelling of Theoretical Nano- CMOS Transistor Models | B | Vaidotas Barzdėnas | Annotation | Annotation |
Andrius Nikelis | Design of BiMOS Multi-Stage Operational Amplifier | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Gintas Kulbickas | Signal Display and Data Storage Device | B | Vaidotas Barzdėnas | Annotation | Annotation |
Marius Rimošaitis | Research of Simple Network Managment Protocol | B | Eimantas Garšva | Annotation | Annotation |
Karolis Kiela | Solar Panel Posistioning System | B | Vladislavas Daškevičius | Annotation | Annotation |
Aurimas Striška | Car Parking Gate Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Paulius Macijauskas | Information Car Parking System | B | Vaidotas Barzdėnas | Annotation | Annotation |
Šarūnas Kvaraciejus | Digital Voltmeter with Galvanic Isolation | B | Vladislavas Daškevičius | Annotation | Annotation |
Dainius Einoris | Central Block Security System with WEB Interface | B | Vladislavas Daškevičius | Annotation | Annotation |
Linas Kreiza | Design of Automatical Control Device | B | Julius Skudutis | Annotation | Annotation |
Gediminas Idzelis | Low-Voltage CMOS Comparators with Hysteresis in 90 nm Technology | B | Romualdas Navickas | Annotation | Annotation |
Mindaugas Pečkys | Remote Monitoring System for Parking Places | B | Vaidotas Barzdėnas | Annotation | Annotation |
Limja Ingilertaitė | Car Traffic Counting System | B | Vaidotas Barzdėnas | Annotation | Annotation |
2009 year's final work annotation
2009 year's final work annotation | |||||
---|---|---|---|---|---|
Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Jevgenij Lobanov | Design of Digital Integrated Circuits with the SmartSpice Software Package | B | Vaidotas Barzdėnas | Annotation | Annotation |
Igoris Pozniakas | Mathematical Modelling of Non-classical Tranzistors with Nanometric Dimensions | M | Romualdas Navickas | Annotation | Annotation |
Albert Narvoiš | Virtual Private Networks Modelling and Analysis | M | Eimantas Garšva | Annotation | Annotation |
Zenon Paškevič | The Computerised System of Printers Definition | B | Algirdas Gražulevičius | Annotation | Annotation |
Mindaugas Jasevičius | The Researching and Designing of Broadband Network | M | Eimantas Garšva | Annotation | Annotation |
Deividas Balaišis | Design of Gate Remote Control Device | B | Darius Poviliauskas | Annotation | Annotation |
Anastasija Nikolajenko | Electrodynamic Analysis of Dielectric Waveguides the SIE Method | M | Liudmila Nickelson | Annotation | Annotation |
Sigitas Kairys | Research of the Embedded System Security | M | Eimantas Garšva | Annotation | Annotation |
Antanas Bružas | BiMOS Integrated Circuits. Design of BiPMOS Integrated Circuits | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Liudgeras Einoris | BiMOS Integrated Circuits. Design of BiCMOS Integrated Microcircuits | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Andrius Ruskonis | Application Gateway Research | B | Eimantas Garšva | Annotation | Annotation |
Viktor Jusel | Simulation and Analysis of Parasities Capacitances of Their Connections the Pixel Detectors for the Semiconductor Detectors and Read-Out Electronics | B | Vaidotas Barzdėnas | Annotation | Annotation |
Ignas Bacevičius | Analysis of Wireless Network Security | B | Eimantas Garšva | Annotation | Annotation |
Mantas Povilavičius | Design of Converter Code | B | Darius Poviliauskas | Annotation | Annotation |
Igor Radajev | Remote Programmer | B | Algirdas Baškys | Annotation | Annotation |
Ivan Andrijevskij | Computer Controlled Security and Fire Alarm System | B | Arvydas Stankevičius | Annotation | Annotation |
Domas Tolvaišas | Motor Torque and Speed Meter | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Ignas Šapoka | Development of Model and Software for RS232 Interface Investigation | B | Vladislavas Daškevičius | Annotation | Annotation |
Jurij Bersenev | The Control of Technological Processes of Semiconductors Devices | B | Romualdas Navickas | Annotation | Annotation |
Linas Tūska | Design of Charge Sensitive Amplifier in the CMOS 64 nm Technology | B | Vaidotas Barzdėnas | Annotation | Annotation |
Rokas Petrikas | Education Program "Intel MMXTM Commands": Graphical User Interface | B | Gediminas Gražulevičius | Annotation | Annotation |
Romas Mačiukas | Research and Development of Single-Channel Imitation Modelling System | B | Julius Skudutis | Annotation | Annotation |
Tadas Motuzas | Research of the "FireWire" Connection | B | Julius Skudutis | Annotation | Annotation |
Tadas Rakauskas | Creation of Diploma and Term Papers Database Management System | B | Nerijus Paulauskas | Annotation | Annotation |
Tomas Urmonas | Modelling of Transistors with Nanometric Dimensions | B | Romualdas Navickas | Annotation | Annotation |
Adomas Rutulys | Research and Development of Multi-Channel Imitation Modelling System | B | Julius Skudutis | Annotation | Annotation |
Arūnas Ruginis | Education Program "Intel MMXTM Commands": Analysis of Commands | B | Gediminas Gražulevičius | Annotation | Annotation |
Darius Šerepėka | Modelling Tranzistors of 130 nm CMOS Technology | B | Romualdas Navickas | Annotation | Annotation |
Juozas Valenčius | Designing the Hardware Ethernet Module | B | Nerijus Paulauskas | Annotation | Annotation |
Leonas Petraitis | Network Access Control User Interface Development | B | Nerijus Paulauskas | Annotation | Annotation |
Mantas Puškorius | Designing a Home Security System | B | Julius Skudutis | Annotation | Annotation |
Mantas Ulevičius | Measurer of Windspeed and Weather | B | Romualdas Navickas | Annotation | Annotation |
Marius Bartusevičius | Remote Control System | B | Algirdas Gražulevičius | Annotation | Annotation |
Vaidas Kazragis | Computer Interface for Car's Parameters Monitoring | B | Algirdas Baškys | Annotation | Annotation |
Vaidas Pušinskas | Design of Convolution Integrated Circuits for Analog Digital Converters | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Valdas Astrauskas | Digital Integrated Circuits Design with MicroWind Software Package | B | Vaidotas Barzdėnas | Annotation | Annotation |
Antanas Vaškūnas | Car Remote Control and Monitoring Device | B | Algirdas Baškys | Annotation | Annotation |
Artūras Bubnelis | Analysis of Microstrip Lines on Narrow Semiconductor Substrates by the SIE Method | B | Liudmila Nickelson | Annotation | Annotation |
Donatas Klebonas | Power Protection of Sources Gadget Design | B | Arvydas Stankevičius | Annotation | Annotation |
Donatas Dicevičius | Digital Tachometer | B | Arvydas Stankevičius | Annotation | Annotation |
Evelina Petrulytė | Remote Programmer | B | Algirdas Baškys | Annotation | Annotation |
Karolis Stanislauskas | Portable Computer Cooling System | B | Arvydas Stankevičius | Annotation | Annotation |
Mykolas Kalinauskas | Computer Sound Cards Research | B | Vacius Mališauskas | Annotation | Annotation |
Vitalij Vorsa | Modelling of Effects of Short Tranzistors Channels | B | Romualdas Navickas | Annotation | Annotation |
Giedrius Simitauskas | Remote Control of Devices Using Microcontroller and GSM Modem | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Kęstutis Liepinis | Metal Detector | B | Gediminas Gražulevičius | Annotation | Annotation |
Laimonas Mušauskas | Computer Based-Oscilloscope | B | Vladislavas Daškevičius | Annotation | Annotation |
Vytautas Peckas | Greenhouse Microclimate Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Vytautas Piragis | Remote Control System | B | Algirdas Gražulevičius | Annotation | Annotation |
Aleksandr Dagil | Automatic Student Assessment System Based on SQL | B | Vaidotas Barzdėnas | Annotation | Annotation |
Gediminas Klegeris | Interior Lighting System Controller | B | Arvydas Stankevičius | Annotation | Annotation |
Mindaugas Tamkus | Security System of House Controlled of Microcontroller | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Kornelijus Stulpinas | Comparative Analysis of Actives Elements CMOS BSIM4 and BSIM5 for Computers Systems | B | Romualdas Navickas | Annotation | Annotation |
Daniel Bartoševič | "Bluetooth" Interface Research | B | Julius Skudutis | Annotation | Annotation |
2008 year's final work annotation
2008 year's final work annotation | |||||
---|---|---|---|---|---|
Studento vardas, pavardė | Name | Baigiamojo darbo tipas (B,M) | Supervisor | Annotation (in lithuanian) | Annotation (foreign language) |
Linas Stankevičius | Investigation of Influence of Folding and Interpolation Factor in ADC | M | Darius Poviliauskas | Annotation | Annotation |
Vytautas Radzevičius | Converter of Sound Signals with Amplifier and USB Interface | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Jurij Moisejenko | Determination of Explosion Hazardous Area | M | Vladislavas Daškevičius | Annotation | Annotation |
Evaldas Mankus | "VMware Workstation" Program Packet Research and Investigation | M | Julius Skudutis | Annotation | Annotation |
Rytis Turčinas | Investigation of Intrusion Detection System Efficiency | M | Vladislavas Daškevičius | Annotation | Annotation |
Romuald Kliukovskij | Design of Sound Pressure Level Meter | B | Julius Skudutis | Annotation | Annotation |
Vaidotas Pranskevičius | Unterupable Power Supply Investigation | B | Vladislavas Daškevičius | Annotation | Annotation |
Vytautas Bleizgys | Investigation of the Inverter for Formation of Three-phase Voltage | M | Algirdas Baškys | Annotation | Annotation |
Ramūnas Gaučas | Programmable and Logical Security System Projection and Comparison | B | Darius Poviliauskas | Annotation | Annotation |
Jurij Francuzov | Design and Investigation of Digital Receiver with Phase-type Grating | M | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Jevgenij Charlamov | Voltage Controlled Osciliator Design and Investigation | M | Romualdas Navickas | Annotation | Annotation |
Darius Rinkevičius | MODBUS Data Transfer Protocol Analysis | B | Vladislavas Daškevičius | Annotation | Annotation |
Aleksej Avasev | Design of Security System with Ability to Report about Break-ins through GSM Mobile Networks | B | Vaidas Jasonis | Annotation | Annotation |
Pavelas Daškevičius | Investigation of Slow Information Input Devices for Modern Personal Computers | B | Vaidas Jasonis | Annotation | Annotation |
Inga Ruskonienė | Development of Remote File Management System | B | Nerijus Paulauskas | Annotation | Annotation |
Darius Mikulskas | Computer Speaker Identification | B | Algirdas Gražulevičius | Annotation | Annotation |
Linas Meškelevičius | Design of "Bluetooth" Antenna for Mobile Devices with Software "CST Microwave Studio" | B | Vaidas Jasonis | Annotation | Annotation |
Andžej Žegaris | Wave Guides Simulation and Analysis with "CST Microwave Studio" Software | B | Vaidas Jasonis | Annotation | Annotation |
Darius Kantakevičius | Designing of the Device for the Control and Observation of the Temperature | B | Julius Skudutis | Annotation | Annotation |
Justas Masiliūnas | Design of CMOS Trigger Microchip Using Software Packages "P-Spice" and "Tanner Tools Pro" | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Remigijus Baravykas | A Computer Tachometer | B | Algirdas Gražulevičius | Annotation | Annotation |
Antanas Baliulis | Alarm Signalling Device via GSM Messages | B | Arvydas Stankevičius | Annotation | Annotation |
Rimantas Benetis | Encoder-Decoder Devices of Sound Signals. Chip Design of 8-bit Discretizator | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Edvardas Dabušis | Devices Control via GSM Network | B | Arvydas Stankevičius | Annotation | Annotation |
Vytautas Baranauskas | Sound Source Recognition System (Speaker Recognition, Using PC Sound System). | B | Algirdas Gražulevičius | Annotation | Annotation |
Mindaugas Želvys | Educational Programme "Intel® Pentium® III SIMD Commands": Grafical Interface | B | Gediminas Gražulevičius | Annotation | Annotation |
Paulius Kalina | Li-ion Accoumulator's Testing Device Design | B | Arvydas Stankevičius | Annotation | Annotation |
Andrius Valiukevičius | MIDI Signal Controller-Hardware | B | Arvydas Stankevičius | Annotation | Annotation |
Mindaugas Čekanauskas | Encoder-Decoder Devices of Sound Signals. Code-Analog Converter for Integrated Synthesis Systems of Sound Signals | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Vytautas Malinauskas | MIDI Signal Controller-Software | B | Arvydas Stankevičius | Annotation | Annotation |
Jurij Kurčevskij | Designing of the Device for the Control and Observation of the Temperature | B | Julius Skudutis | Annotation | Annotation |
Povilas Anušauskas | Differential Amplifier Microchip Design Using Software Packages "P-Spice" and "Tanner Tools Pro" | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Vaidas Skrupskis | Encoder-Decoder Devices of Sound Signals. Design of Multi-Stage ADC Microchip | B | Albinas Jonas Marcinkevičius | Annotation | Annotation |
Tomas Mačiulis | Educational Programme "Mikroproccesors Intel® 8080 Comands Systems" | B | Gediminas Gražulevičius | Annotation | Annotation |
Evaldas Paulauskas | Information Security Policy Creation | B | Nerijus Paulauskas | Annotation | Annotation |
Ivanas Jariga | Modelling and Analysis of 2D Devices with "Silvaco Atlas-2D" "S-Pisces" and "MixedModel2D" | B | Romualdas Navickas | Annotation | Annotation |
Viačeslav Panin | Virtual Network Laboratory | B | Julius Skardžius | Annotation | Annotation |
Ignas Ramanauskas | Analysis of Virtual Private Network Solutions | B | Eimantas Garšva | Annotation | Annotation |
Karol Gerasimovič | "Opnet IT Guru" Applications for the Network Subject Studies in the Electronics Faculty | B | Julius Skardžius | Annotation | Annotation |
Lech Gulbinovič | Device of Computer Temperature Control | B | Nerijus Paulauskas | Annotation | Annotation |
Pavelas Gedziuševičius | Design of Integrated Circuits Using "Simucad" Software Packages | B | Romualdas Navickas | Annotation | Annotation |
Edvinas Čapas | Modelling and Analysis of 3D Devices with "Silvaco Atlas-3D" "Device3D" and "MixedModel3D" | B | Romualdas Navickas | Annotation | Annotation |
Dmitrij Anisin | Acoustic Noise Recoder | B | Algirdas Gražulevičius | Annotation | Annotation |
Aleksandr Kočkin | Decoder of Personaling Computer "BIOS POST" Code | B | Gediminas Gražulevičius | Annotation | Annotation |
Eugenijus Jusas | Projection of Automatic Personnel Access Control and Work Time Accounting System | B | Julius Skudutis | Annotation | Annotation |
Romas Čebis | Designing of Aquarium Equipment Control Devices | B | Nerijus Paulauskas | Annotation | Annotation |
Saulius Mažuolis | Analysis of Malware Protection | B | Eimantas Garšva | Annotation | Annotation |
Jevgenij Avin | Projecting Certificate Autority Center | B | Eimantas Garšva | Annotation | Annotation |
Laurynas Marma | Analysis of Virtual Private Network Solutions | B | Eimantas Garšva | Annotation | Annotation |
Aurimas Rapečka | Computerized Student Evaluation System | B | Julius Skardžius | Annotation | Annotation |
Artūras Olševskis | Projection of Automatic Personnel Access Control and Work Time Accounting System | B | Julius Skudutis | Annotation | Annotation |
Marius Bartkevičius | Simulation and Analysis of Microtechnology Processes Using "Silvaco Athena" Software Packages | B | Romualdas Navickas | Annotation | Annotation |
Simonas Bružas | Design of Integrated Circuits Using "Simucad" Software Packages | B | Romualdas Navickas | Annotation | Annotation |
Tomas Kutra | Analysis of Typical Malware | B | Eimantas Garšva | Annotation | Annotation |
Edgaras Gerdzevičius | Distance Access to the Labs Evaluation Data Base | B | Julius Skardžius | Annotation | Annotation |
Gytis Strungys | Study of Possibilities for the Vehicle Engine Control Unit Improvement | B | Algirdas Mykolas Montvilas | Annotation | Annotation |
Marius Kriaučiūnas | Study Management System Projection | B | Eimantas Garšva | Annotation | Annotation |
Julius Bukys | Apartment Security System Development Powered by AVR Microcontroller | B | Vaidas Jasonis | Annotation | Annotation |
Tomas Raila | Simulation and Analysis of Microtechnology Processes Using "Silvaco Athena" Software Packages | B | Romualdas Navickas | Annotation | Annotation |
Andrius Sakalauskas | Design of "Smart House" Security System | B | Eimantas Garšva | Annotation | Annotation |
Agnė Samulevičiūtė | Packet Analysis in the Local Network | B | Julius Skardžius | Annotation | Annotation |
Audrius Ramaškevičius | Educational Programme "Intel® Pentium® III SIMD Commands": Commands analysis of SIMD | B | Gediminas Gražulevičius | Annotation | Annotation |
Diana Rovaitė | Modelling of the Network Wireless Access | B | Julius Skardžius | Annotation | Annotation |
Elena Filipavičiūtė | "Flash" Memory Investigation | B | Julius Skardžius | Annotation | Annotation |
Andrej Lukašun | Multifunction Digital Clock | B | Julius Skudutis | Annotation | Annotation |
Sigitas Grincevičius | MOSFET Logic Integrated Circuits Computer-Aided Layout Design | B | Darius Poviliauskas | Annotation | Annotation |
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