- Lecturer
- Araki Kiyomichi
- Place
- Fri7-8(S322)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 50102
- Syllabus updated
- 2009/4/10
- Lecture notes updated
- 2009/7/27
- Access Index
-
- Semester
- Spring Semester
Outline of lecture
蝗ス髫帛、ァ蟄ヲ髯「繧ウ繝シ繧ケ縺ァ蟄ヲ縺カ蟄ヲ逕溘r蟇セ雎。縺ィ縺励※シ檎┌邱夐壻ソ。繧キ繧ケ繝繝縺ョ隲ク謚陦薙r蟄ヲ縺カ縲ょキ菴鍋噪蜀螳ケ縺ッシ梧ウ「蜍穂シ晄成シ梧淵荵アシ後ヵ繧ァ繝シ繧ク繝ウ繧ーシ後い繝ウ繝繝奇シ梧凾遨コ髢謎ソ。蜿キ蜃ヲ逅シ悟、牙セゥ隱ソ譁ケ蠑擾シ檎ャヲ蜿キ蛹厄シ檎ュ牙喧謚陦難シ碁ォ伜捉豕「繝繝舌う繧ケシ碁ォ伜捉豕「蝗櫁キッ險ュ險茨シ悟、夐榊喧譁ケ蠑擾シ悟ー譚・蜍募髄縺ェ縺ゥ縺ァ縺ゅk縲りャ帷セゥ縺ッ闍ア隱槭〒陦後≧縲
Wireless Communication Systems, Wave propagation, reflection, refraction and diffraction, Stochastic Behavior of wireless channel, Antenna and Diversity, Space and Time Signal Processing, Modulation and Demodulation, Coding and Decoding, RF Devices and Circuit Design, Multiple Access, Future Trend including Software defined radio, UWB transmission and MIMO technologies
Purpose of lecture
Explain the fundamentals in wireless communication engineering, from wireless channel characteristics to traffic control.
Plan of lecture
01. Wave Propagation and Scattering
02. Fading and Shadowing
03. Antenna and Diversity
04. Space and Time Signal Processing
05. Modulation and Demodulation
06. Coding and Decoding
07. RF Device
08. RF Circuit Design
09. Multiple Access
10. Cryptography and Security
11. Future Trends, e,g, Software-defined radio, UWB etc.
Textbook and reference
Lecture note is handed out. Additional references are; S.Haykin, 窶戮ommunication Systems窶 (4th Edition), John Wiley シ Sons, Inc. and J.G.Proakis, 窶戰igital Communications窶 (3rd Edition), McGraw-Hill.
Related and/or prerequisite courses
Students are requested to have a knowledge of electromagnetics and communication theory.
Evaluation
Grade is evaluated by a report to topics in wireless communication engineering.
Comments from lecturer
Wireless communication systems are the key infrastructures for multi-media era.
Supplement
縲唇ffice hours縲
Office hour is basically scheduled after 5PM, and a question via e-mail is available at anytime.
