行動通訊課程表
週次日期上課內容錄音出席備註
2/22課程介紹第一堂
第二三堂
O2:30才到
2/29系統介紹第一堂
第二堂
O講義會放上網站
3/7  O只上第二堂
3/14  O準時
3/21  O準時
3/28  O只上第二堂
4/4清明節放假  X放假
4/11  O3點才上課,繳交
Term Paper Proposal
4/18藍芽、無線網路 O公司請一天假,有去上課
老師宣布每人都要期末報告
4/25 Wimax OFDM介紹 O3點才上課
十一5/2  O出作業(Bouns) 
十二5/9  OOFDM+MIMO
十三5/16  OMIMO+M-WiMAX 
十四5/23  OCooperative Comm.
十五5/30  O 
十六6/6  O 
十七6/13期末考  O 
十八6/20Term Project Oral Report O第五組報告,終於結束囉!
     <課程結束囉>
      



































Instructor:
            Professor Kwang-Cheng Chen (E-mail: chenkc@cc.ee.ntu.edu.tw
TEL: 3366 3568 Office: BL-514)
Office Hours:
            Friday 5:30-6:30 p.m.; other times by appointment
Description:
This course provides systematic introduction about fundamental mobile communication systems/networks/architecture. Focusing technologies in this year will be fundamentals of cellular communications, OFDM-based wireless broadband communications (wireless local area networks, wireless personal area networks, and mobile WiMAX), and technology toward 4G wireless. The course suitable for 1st or 2nd year graduate students and senior undergraduate students will be presented in English in different aspects: conceptual orientation, theoretical framework and analysis, and system design.
Perquisite:
Probability, Principles of Communications, Digital Communications or equivalent (preferred), Introduction to Computer Networks (preferred).
Outline:
1.    Fundamentals of Mobile Communications
        1.1. 
Basic Digital Communication Theory
        1.2. 
Mobile Communication Engineering
        1.3. 
Digital Cellular Systems
                1.3.1.           
GSM, GPRS, and EDGE
                1.3.2.           
Spread Spectrum, CDMA, and Multiuser Communications
                1.3.3.           
IS-95
               
1.3.4.            WCDMA and HSPA
               
1.3.5.            3GPP2*
               
1.3.6.            TD-SCDMA*
       
1.4. 
IEEE 802 Systems
               
1.4.1.           
IEEE 802.11
               
1.4.2.           
IEEE 802.15 and Bluetooth
               
1.4.3.           
IEEE 802.16
       
1.5. Network Security
2.    Orthogonal Frequency Division Multiple Access (OFDMA)
       
2.1. Principles of Orthogonal Frequency Division Multiplexing
       
2.2. OFDM Systems

               
2.2.1.            Receiver Design
               
2.2.2.            IEEE 802.11a/g
               
2.2.3.            MB-OFDM, WiMedia, and Bluetooth 3.0
        2.3. MIMO OFDM
               
2.3.1.            Beamforming
               
2.3.2.            Spatial Multiplexing
               
2.3.3.            Space-Time Codes
               
2.3.4.            MIMO OFDM
               
2.3.5.            IEEE 802.11n
       
2.4. OFDMA
       
2.5. MIMO OFDMA
        2.6. 
Mobile WiMAX
       
2.7. Broadband Cellular
               
2.7.1.            IEEE 802.16m
               
2.7.2.            IMT-Advance
               
2.7.3.            3G LTE and UMB
3.    Technology toward 4G Wireless
        3.1. Cooperative Communications
       
3.2. Cognitive Radio Networks
       
        3.2.1.           
Software Radio and Re-configurable Networks
               
3.2.2.           
Spectrum Sensing
               
3.2.3.           
Dynamic Spectrum Access
               
3.2.4.           
Network Layer Structure
               
3.2.5.            Trust and Security
* may not be included if time is not allowed.
Textbook:      Class Handouts & Slides
Slides:
           
Synopsis for this course 

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