პროგრამები

The University Of Georgia

Program name:	Electrical and Computer Engineering
Study Level:	Undergraduate
Program leader:	Kakhaber Tavzarashvili
Study language:	Georgian
Qualification:
Program capacity:	240
Program permission:	Admission criteria/ prerequisite (for the citizens of Georgia): The students are enrolled on the bachelor programs on the basis of the results of the national entrance exams or on the basis of the decree №224/ნ (December 29, 2011) of the Minister of Education and Science of Georgia, on the basis of the administrative registration and the decree of the Rector. Admission criteria/ prerequisites (for the foreign country citizens): Foreign entrants who completed secondary education abroad or got the education equivalent to it, or/and completed the last two years of secondary education abroad , or students, who lived abroad during last two or more years and studied abroad in higher educational institutions accredited in compliance with the legislation of the host country can be enrolled in the program without taking national entrance exams on the basis of the decree № 224 / ნ (December 29, 2011) of the Minister of Education and Science of Georgia. If the entrants don’t have English language Certificate FCE (First Certificate in English) the language competence (B2 – Intermediate ) is proved on the basis of the University exam in English with the minimal passing rate 60%.
Program goals:	The program envisions fostering the field advancement by producing competitive, highly qualified specialists in Engineering, equipped with international standard and quality advanced education and skills based on the contemporary market trends. During the program students will acquire skills to design and realize electrical components, systems, or processes, write simple computer programs and analyze theoretical and numerical results of various engineering, physical and mathematical problems and foster innovation in the field. Graduates of the Engineering program can be employed by IT and telecommunication companies, Governmental organizations, banks and many private companies as electrical, telecommunication, radio and computer Engineers.
Methods for Attaining Learning Outcomes:	Methods for achieving knowledge and understanding Lectures and seminars Working with textbooks Discussion Demonstration Laboratory working Usage of video and audio products Interactive studies Methods for developing skills or abilities for practical use in real life Practical study Laboratory working Team work Formulation and solving of a problem Producing (small) more complicated research under the supervision Methodology for developing judgment skills or abilities Critical analysis Presenting and defending debatable topics Problem solving tasks Literature analysis Critical assessment of own work Constrictive criticism of others’ work Methods for developing learning skills or abilities Working with textbook Searching required literature electronically and in library Methods for developing communication skills or abilities Writing assignments Presentation Verbal and oral methods
Learning outcomes:	Knowledge and understanding Know and understand mathematics, physics, computer sciences and Engineering principles; Know and understand mathematics through differential and integral calculus, typically including differential equations, linear algebra, complex variables, and discrete mathematics; Know and understand physics, including mechanics, electromagnetism, Termodynamics, optics and modern physics with quantum theory; Know and understand basics of computer science, Office software, programming with C++, Engineering software (LabView, MathLab); Know and understand basic Engineering concepts that are necessary to analyze and design electromagnetic systems, complex electronic devices, signal processing and systems containing hardware and software components; Know and understand contemporary Engineering issues. Skills Apply the knowledge of mathematics, physics, computer sciences and Engineering principles for solving problems; Identify, formulate and solve problems encountered in the practice of electrical, telecommunication and computer Engineering; Work individually and in team; Design and conduct experiments according to pre-instructions; Use the techniques, skills and modern Engineering tools necessary for electrical, telecommunication and computer Engineering practice; Design and realize electrical components, systems, or processes to meet desired needs and realistic constraints. Write simple computer programs with pre-instructions; Analyse theoretical and numerical results of various Engineering, physical and mathematical problems Design and conduct experiments to compare the theoretical and experimental results; Analyse quantitative and qualitative results of a research. Function on multidisciplinary teams; Communicate in writing as well as to make presentation using modern technology in subject areas; Use appropriate terminology during a presentation; Explain or tell appropriate information to the specialists as well as other interested individuals; Participate in discussion; Present detailed analysis of the result in writing; Communicate fluently in Georgian and in English in subject areas; Find information by using modern telecommunication technologies. Use electronical communication at academic level. Responsibility and autonomy Strive for continuous professional development by improving knowledge and skills appropriate to each chosen career path and by managing increasingly complex contemporary issues, products, and systems; Recognize of the need for, and an ability to engage in life-long learning; Search required literature electronically and in library for future professional development; Respect professional and ethical values Consider Engineering solutions in a global, economic, environmental and societal context; Consider liberal-democratic attitudes expressed by respecting individual and property; Consider correct attitude towards physical and intellectual properties. Consider personal and collective responsibilities
Date of approval:	12-03-2012
Approval protocol number:	43-12
Date of program update:	11-03-2014
Update protocol number:	46-14
Program details:	After completing the core program (180 ECTS) the rest of credits (60 ECTS) student can choose from: one of the elective program concentrations (42 ECTS) and free credits; free credit from other program concentrations in accordance with preconditions or other English Language Programs. Program elective concentrations are: Engineering physics (42 ECTS) Telecommunications (42 ECTS) Computing (42 ECTS)
Teaching Process Characteristics:	The length for undergraduate studies is defined as 4 years or 8 terms. University Study Day is divided in lectures (lessons).The lecture consists of several (two, three or four) parts (theoretical part, practical – seminar, lab), each of length - 60 minutes. At the University groups (classes) are formed as from 25 or 50 students. The minimum number of students per group is 10. If during the registration less than 10 students registered, the University reserves the right not to open the group.

University Core


Code	Subject	ECTS	Semester
HIST1115	Introduction to World History I	3	1
KART1220	Academic Writing	6	1
HIST1215	Introduction to World History II	3	2
HIST1230	Introduction to the History of Georgia	6	3
BUSN1210	Basics of Business and Economics	6	4
	Total ECTS to be taken:	24

Program Core


Code	Subject	ECTS	Semester
EENG1103	Physics 1 (Mechanics)	6	1
INFO1113	MS Office	3	1
MATH1115	Calculus I	6	1
EENG1204	Physics 2 (Electricity and Magnetism)	6	2
EENG1206	Laboratory 1 (Mechanics)	3	2
ENGL2215	English language IV (B1/2)	3	2
INFO1111	Introduction in Programming (C++)	6	2
MATH1166	Calculus II	6	2
EENG2101	Engineering Mathematics I	6	3
EENG2105	Physics 3 (Thermodynamics, Waves & Optics)	6	3
EENG2107	Laboratory 2 (Electricity and Magnetism)	3	3
EENG2110	Circuit Analysis	6	3
ENGL3115	English language V (B2/1)	3	3
INFO3131	Object Oriented Programming C++	6	3
EENG2202	Engineering Mathematics II	6	4
EENG2208	Laboratory 3 (Thermodynamics,Waves&Optics)	3	4
EENG2211	Semiconductor Fundamentals	6	4
EENG2212	Analog Electronics	6	4
ENGL3215	English language VI (B2/2)	3	4
EENG3109	Laboratory 4 (Electronic Circuit Engineering)	6	5
EENG3113	Digital Electronics	6	5
EENG3114E	Signals and Systems	6	5
INFO2110	Computer Architecture I	6	5
INFO4259	Data Structures and Algorithms	6	5
EENG3115	Engineering Electromagnetics	6	6
EENG3216	Microprocessors	6	6
	Total ECTS to be taken:	135

Program Elective


Code	Subject	ECTS
ENGL2145	English Language III (B1/1)	3
EENG3110	Fundamentals of electronics	3
MATH4118	Fundamentals of Cryptology	6
EENG1220	electrical power engineering	6
EENG3217	Modern Physics	6
EENG3218	System Modeling and Control	6
EENG3219	Computer Modeling of Engineering Problems	6
EENG3220	LabView Programming	6
EENG3221	Microwave Circuit and System Design	6
EENG3222	Software Engineering	6
INFO2229	Operation System (Windows)	6
EENG4123	Semiconductor Devices and Processing	6
EENG4124	Electromagnetic Compatibility	6
EENG4128	Telecommunication Systems	6
EENG4129	Antenna theory and design	6
EENG4130	Digital Communications	6
EENG4134	Modern Operating Systems	6
EENG4231	Wireless Communication	6
INFO3110	Computer Network I	6
EENG4125	Robotics and Automation	6
EENG4226	Introduction to Photonics	6
EENG4227	Principles of Nanotechnology	6
EENG4232	Optical Communication	6
EENG4235	Computer Security	6
EENG4237	Practice 2	12
INFO3210	Computer Networks II	6
	Total ECTS to be taken:	156

Free credit


Code	Subject	ECTS
ENGL1145	English Language I (A1)	3
MATH1118	Basics of Mathematics	6
MATH1121	Precalculus	6
ENGL1245	English language II (A2)	3
	Total ECTS to be taken:	18

Matrix Of Privequisites

Point	GPA	The university assessment	The general assessment in Georgia
97-100	4,00	A+	A	Excellent
94-96	3,75	A
91-93	3,50	A-
87-90	3,25	B+		Very good
84-86	3,00	B	B
81-83	2,75	B-
77-80	2,50	C+	C	good
74-76	2,25	C
71-73	2,00	C-
67-70	1,75	D+	D	Satisfactory
64-66	1,50	D
61-63	1,25	D-
51-60	1,00	E	E	Sufficient
Not passed
41-50		FX	FX	Insufficient
<40		F	F	Failed