3. 강의목표
A. Instructor: Wonbin Hong
B. Date: Tuesday/Thursday 12:30pm-13:45pm
C. Primary Book: Antenna Theory: Analysis and Design (3rd Ed.), Balanis, 2005, ISBN 047166782X
D. References:
- Advanced Engineering Electromagnetics, Balanis
- Antenna Theory and Design, Stutzman and Thiele
- Antennas for all Applications, Krauss
- Antenna Engineering Handbook, Volakis
E. Course description: Includes current topics, advanced topics and special topics.
This class will be devoted to a particular issue in a specified field this semester. Course content is not wholly included in the regular curriculum (in comparison to previous EECE 588) and should be regarded as a “special topics class with emphasis on latest antenna technologies”.
F. Course Outline
1 Introduction
2 Vector analysis, types of antennas, Radiation
mechanism, wire antenna current distribution
3 Fundamental Parameters of Antennas
4 Fundamental Parameters of Antennas
5 Fundamental Parameters of Antennas
6 Radiation Integrals & Aux. Potential Functions
7 Radiation Integrals & Aux. Potential Functions
8 Linear Wire Antennas
9 Linear Wire Antennas
10 Linear Wire Antennas
11 Arrays: Linear, 2D
12 Arrays: Linear, 2D
13 Antenna Synthesis and continuous Sources
14 Antenna Synthesis and continuous Sources
15 Microstrip Antennas
16 Microstrip Antennas and Arrays, Mutual Coupling
17 Helical Antennas Notes,
18 Frequency Independent Antennas, Log-Periodic, Q
19 Aperture Antennas
20 Horn Antennas
21 Reconfigurable Antennas, MEMS Notes
22 UWB Antennas Notes
23 Fractal Antennas / Smart Antennas
24 Reflector Antennas
25 Nano Antennas/Plasmon Antennas
26 Nano Antennas/Plasmon Antennas
27 Project Presentations
28 Project Presentations – End of Semester
G: Grading: Homework: 20%, Midterm Exam each: 25%, Final Exam: 30%
5. 성적평가
| 중간고사 |
기말고사 |
출석 |
과제 |
프로젝트 |
발표/토론 |
실험/실습 |
퀴즈 |
기타 |
계 |
|
|
|
|
|
|
|
|
|
|
| 비고 |
G: Grading: Homework: 20%, Midterm Exam each: 25%, Final Exam: 30%
|
6. 강의교재
| 도서명 |
저자명 |
출판사 |
출판년도 |
ISBN |
|
Antenna Theory: Analysis and Design
|
Balanis
|
Wiley
|
2005
|
047166782X
|
7. 참고문헌 및 자료
- Advanced Engineering Electromagnetics, Balanis
- Antenna Theory and Design, Stutzman and Thiele
- Antennas for all Applications, Krauss
8. 강의진도계획
1 Introduction
2 Vector analysis, types of antennas, Radiation
mechanism, wire antenna current distribution
3 Fundamental Parameters of Antennas
4 Fundamental Parameters of Antennas
5 Fundamental Parameters of Antennas
6 Radiation Integrals & Aux. Potential Functions
7 Radiation Integrals & Aux. Potential Functions
8 Linear Wire Antennas
9 Linear Wire Antennas
10 Linear Wire Antennas
11 Arrays: Linear, 2D
12 Arrays: Linear, 2D
13 Antenna Synthesis and continuous Sources
14 Antenna Synthesis and continuous Sources
15 Microstrip Antennas
16 Microstrip Antennas and Arrays, Mutual Coupling
17 Helical Antennas Notes,
18 Frequency Independent Antennas, Log-Periodic, Q
19 Aperture Antennas
20 Horn Antennas
9. 수업운영
The first 2 weeks in Fall 2022 will be online based on University policy. Afterwards we will aim for off-line unless we have an underling emergency.
This is a small size class so please so speak up and share your thoughts freely!
10. 학습법 소개 및 기타사항
70% of the class will focus on theoretical learning. The remaining 30% will be based on learning how apply these knowledges to create your own ideas! Creativity will be much awarded!
11. 장애학생에 대한 학습지원 사항
- 수강 관련: 문자 통역(청각), 교과목 보조(발달), 노트필기(전 유형) 등
- 시험 관련: 시험시간 연장(필요시 전 유형), 시험지 확대 복사(시각) 등
- 기타 추가 요청사항 발생 시 장애학생지원센터(279-2434)로 요청