嵌入式無線通訊系統之實作與驗證

Wen-Cheng Hsu; 徐文正

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24055

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	郭斯彥(Sy-Yen Kuo)
dc.contributor.author	Wen-Cheng Hsu	en
dc.contributor.author	徐文正	zh_TW
dc.date.accessioned	2021-06-08T05:14:58Z	-
dc.date.copyright	2006-07-28
dc.date.issued	2006
dc.date.submitted	2006-06-24
dc.identifier.citation	[1] Rajkumar and Ragunathan. “Synchronization in Real-Time Systems: A Priority Inheritance Approach,” Boston, MA: Kluwer Academic Publishers,1991. [2] M.H. Klein, J.P. Lehoczky, and R. Rajkumar, “Rate-Monotonic Analysis for Real-Time Industrial Computing,” Computer, 1994. [3] Liu, C. L. & Layland, J. W. 'Scheduling Algorithms for Multi-Programming in a Hard Real-Time Environment.' Journal of the Association for Computing Machinery 20, 1973. [4] Lehoczky, J.P. 'Real-Time Resource Management Techniques,' 1011-1020. Encyclopedia of Software Engineering. 1994 [5] Abraham Silberschatz, Peter Baer Galvin, Greg Gagne “Operating System Concepts” ISBN: 0471694665. [6] Li, Y., Potkonjak, M. and Wolf, W., “Real-Time Operating Systems for Embedded Computing”, Proc. IEEE International Conference on Computer Design: VLSI in Computer and Processors, Oct. 1997, Austin, p388-392 [7] Dr. Dobbs Embedded System. http://www.ddjembedded.com/about/ [8] Embedded System Programming. http://www.embedded.com/ [9] Addison-Wesley Publishers Limited 1982-1984, Person Education Limited 1989-2001, IAN SOMMERVILLE “Software Engineering, 6th Edition”, ISBN: 0-20-139815-X. [10] Jennifer Bray Charles F Sturman, “Bluetooth Connect Without Cables”, ISBN: 0-13-089840-6. [11] Jochen Schiller, “Mobile Communication”, ISBN : 0-201-39836-2 [12] Siegmund M.Redl, Matthias K. Weber, Malcolm W. Oliphant, “GSM and Personal Communications Handbook”, ISBN: 0-89006-957-3 [13] Jorg Eberspacher, Hans-Jorg Vogel, Christian Bettstetter, “GSM Switching, Services and Protocols, Second Edition” ISBN: 0-471-49903-X [14] M.R. Karim, and M. Sarraf, “WCDMA and CDMA2000 for 3G Mobile Networks”. [15] Ham Holma, Antti Toskala, “WCDMA for UMTS Radio Access For Third Generation Mobile Communications”, ISBN: 0-471-72051-8 [16] Savo G. Glisic, Professor of Telecommunications Unibersoty of Oulu, Finland, “Adaptive WCDMA Theory and Practice”, ISBN: 0-470-84825-1. [17] Juha Korhonen, “Introduction to 3G Mobile Communications”, ISBN: 1-58053-287-X. [18] GSM 07.10 Terminal Equipment to Mobile Station Multiplexer protocol [19] GSM 07.07 AT Command Set for GSM Mobile Equipment. [20] Digital cellular telecommunications system; Support of Dual Tone Multi-Freq. signaling (DTMF) via the GSM system (GSM 03.14 version 5.00), ETSI, November 1996 [21] Digital cellular telecommunications system (phase 2); Terminal Adaptation Functions (TAF) for services using asynchronous bearer capabilities (GSM 07.02 version 5.3.0), ETSI, August 1997, Third edition. [22] Digital cellular telecommunications system (phase 2); Use of Data Terminal Equipment - Data Circuit terminating Equipment (DTE-DCE) interface for Short Message Service (SMS) and Cell Broadcast Service (CBS) (GSM 07.05), ETSI ,April 1997,Fifth Edition. [23] Digital cellular telecommunications system (phase 2); AT command set for GSM Mobile Equipment (ME) (GSM 07.07 version 4.4.1), ETSI, March 1999, Fourth Edition. [24] Digital cellular telecommunications system (Phase2+); Universal Mobile Telecommunications System (UMTS); AT command set for 3G User Equipment (UE) (3GPP TS 27.007 version 5.4.0 Release 5) [25] Microsoft Windows Mobile Version 5.0 Document [26] Microsoft Windows Mobile CellCore Specifications [27] Diagnostics for the Intel® PXA27x Processor Developer’s Kit User’s Guide [28] Wireless Intel SpeedStep® Power Manager White Paper [29] Intel® PXA27x RelNote_BSP_WM_50_PPC_MB.pdf [30] Porting the Intel® PXA27x Processor Developer's Kit Board Support Package to Microsoft Windows Mobile 5.0 for Smartphone or Pocket PC User's Guide [31] Intel® PXA27x Processor Developer’s Kit User’s Guide [32] Intel® PXA27x Processor Developer's Kit Board Support Package for Microsoft Windows Mobile 5.0 for Pocket PC Release Notes [33] Intel® PXA27x Processor Electrical, Mechanical, and Thermal Specification [34] Intel® PXA27x Processor Family Developer's Manual [35] Windows Mobile Version 5.0 Documentation [36] 王勝德教授，國立台灣大學系統晶片中心 SOC 人才培訓講座,“系統晶片的嵌入式軟體設計”，Jan. 01, 2004. [37] 吳曉光教授，國立中央大學資訊工程所-無線多媒體實驗室，“無線網路概論”，Oct, 2004. [38] 朱昌龍著，GPRS, 遠傳電科技發展基金會, April 1998. http://www.fetec.org.tw [39] 陳俊宏、曾騰輝等著，GSM Basic, 遠傳電科技發展基金會, April 1998 [40] 探矽工作室, “ARM 原理與實作-以網路SoC為例”, ISBN: 957-28687-2-1 [41] 黃泰一、郭大維、金仲達、張瑞川、李政崑、鍾葉青、蔡明哲等箸，Windows CE 嵌入式設計理論與實務, May 2004, ISBN: 986-125-200-2 [42] 陳澤民、詹景和、董建隆、呂奕慰、胡繼陽著，Windows CE 5.0 VoIP 教戰手冊, Mar 2006, ISBN: 986-7198-38-7
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24055	-
dc.description.abstract	隨著超大型積體電路設計與製造技術的不斷演進，使得價格便宜、體積輕薄短小、功能多樣化的嵌入式產品不斷的問世。舉凡個人數位助理系統、智慧型手機、數位相機、衛星導航系統…等嵌入式系統的產品都是嵌入式系統應用的典型案例。而為了在市場上具有競爭力除了價格便宜、體積輕薄短小、功能多樣化之優點外，還必須具備開發時程短、省電、性能優越等特性。也正因為技術的快速演進，客戶需求相對的也會快速變更；在日益縮短的產品生命週期中，嵌入式系統的供應者該如何運用新的硬體零組件持續開發新產品，以及滿足使用者對新功能和新介面的需求，就是一道重要的課題。在嵌入式系統中最常採用的便是可程式化的微處理器。利用嵌入式系統軟體來驅動微處理器以及相關的硬體零組件來達成整個系統所需的功能。在本論文中，我們將以嵌入式系統為基本，搭配歐規的第二代行動電話技術，以及藍芽和WiFi等無線傳輸技術來設計並驗證個人無線行動通訊手機系統。最後，並實際測試電話相關的功能，以驗證其功能的正確性。	zh_TW
dc.description.abstract	Along with the VLSI circuit design and the manufacture technology unceasing evolution, frivolously causes the price small advantage, the volume to be short, the function diversification inserts type product unceasing being published. All Personal Digital Assistant (PDA) system, Smart handset, digital camera, satellite navigational system ..., those embedded systems are the typical cases of embedded type system application. But in order to has the competitive ability frivolously in the market except the price small advantage, the volume short, merit of outside the function diversification, but also must have the development time interval short, the province electricity, the performance is superior and so on the characteristic. Also because of the technical fast evolution, the customer demand relative also can fast change; in reduces day by day in the product life cycle, embedded system how should the supplier utilize the new hardware zero module to continue to develop the new product, as well as satisfies the user and newly lies between to the new function the surface demand, is the important topic. In embedded system most often to use then is may the formula microprocessor. Using embedded system software to actuate the microprocessor as well as the correlation hardware zero module achieves the function which the overall system needs. Because the handset user grows day by day, and wireless transmission technology unceasing weeding through the old to bring forth the new, thereupon develops one kind of knot divisible number assistant, the handset function and the wireless transmission integrated system: Personal Digital Assistant (PDA) Phone system. In the present paper, we take embedded system as to be basic, match European specification the second electricity mobile phone technology, as well as the Bluetooth and WiFi and so on the wireless transmission technology and the Microsoft new generation embedded system to design and really to make the handset system. Finally, and actual tests in the telephone correlation function, confirms its function the accuracy.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T05:14:58Z (GMT). No. of bitstreams: 1 ntu-95-P93921009-1.pdf: 1854944 bytes, checksum: 4c3cfe95f4b9697eba7358d5d5ed44aa (MD5) Previous issue date: 2006	en
dc.description.tableofcontents	Contents CHAPTER 1. INTRODUCTION.....................................................................9 1.1 ABOUT THIS PAPER........................................................................9 1.1.1 Purpose...............................................................................9 1.1.2 Scope.................................................................................9 1.1.3 Organization of this Document.........................................................9 1.2 EMBEDDED SYSTEM.........................................................................9 1.2.1 Characteristics of Embedded System....................................................9 1.2.2 Embedded OS...........................................................................10 1.3 MICROSOFT WINDOWS MOBILE 5.0 OPERATING SYSTEM...........................................10 1.4 RADIO INTERFACE LAYER...................................................................13 1.5 PCS GENERATION (GSM/GPRS/WCDMA/HSDPA)...................................................15 1.5.1 GSM...................................................................................16 1.5.2 GPRS..................................................................................17 1.5.3 WCDMA.................................................................................18 1.5.4 HSDPA.................................................................................21 1.5.5 Dual mode protocol architecture.......................................................21 CHAPTER 2. BACKGROUND AND RELATED WORKS.....................................................22 2.1 BOARD SUPPORT PACKAGES (BSPS)...........................................................22 2.1.1. System Requirements..................................................................23 2.1.1.1. Software Requirements..............................................................23 2.1.1.2. Host System Requirement............................................................23 2.1.1.3. Target Requirements................................................................23 2.1.1.4. Flash Component Requirements.......................................................23 2.1.2. Using choice BSP.....................................................................23 2.1.3. OS Debug image.......................................................................24 2.1.4. KITL over USB........................................................................24 2.1.5. Cellular Phone Support...............................................................24 2.1.6. Loading Image via EBOOT..............................................................25 2.1.7. EBOOT options........................................................................26 2.1.7.1. Option (2) Boot Delay..............................................................26 2.1.7.2. Option (4) Reset to Factory Default Configuration..................................26 2.1.7.3. Option (6) Boot Device Order.......................................................26 2.1.7.4. Option (7) Debug Serial Port: BTUART/FFUART/STUART.................................26 2.1.7.5. Option (D) Download Image..........................................................26 2.1.7.6. Option (L) Launch Existing Flash Resident Image....................................27 2.2 PLATFORM BUILDER........................................................................27 2.2.1 Setup Platform Builder to support USB KITL............................................27 2.2.2 Release Directory Modules.............................................................29 2.2.3 KITL How to...........................................................................30 2.3 PORTING THE BOARD INITIALIZATION SOFTWARE...............................................33 2.3.1 Board Initialization..................................................................33 2.3.2 EBOOT.................................................................................34 2.3.3 Porting the Display Driver............................................................34 2.3.3.1 Display Driver Files................................................................34 2.3.3.2 LCD Configuration in System Files...................................................34 2.3.3.3 Identify the LCD Panel to the System................................................36 2.3.4 Porting the FFUART, BTUART, and STUART Drivers........................................36 2.3.4.1 UART Drivers Files..................................................................37 2.3.4.2 UART Constants......................................................................39 2.3.4.3 UART Specific Codes.................................................................39 2.3.4.4 GPIO Mapping........................................................................39 2.3.4.5 Registry Configuration for Multiple COM Ports.......................................40 CHAPTER 3. RADIO INTERFACE LAYER............................................................43 3.1. RIL INTRODUCTION.......................................................................43 3.2. RIL MODEM INTERFACE....................................................................44 3.2.1. One UART, One COM....................................................................45 3.2.2. One UART, Two COM....................................................................45 3.2.3. Two UART, Two COM....................................................................45 3.2.4. URC..................................................................................46 3.3. RIL MODEM INTERFACE WITH OTHER MODULES.................................................46 3.3.1. Interface between RIL and Upper Layer................................................46 3.3.2. Interface between PPP and VSP........................................................47 3.4. RIL APIS...............................................................................47 3.5. MODIFICATION FOR SELECTED MODEM........................................................53 3.5.1. Power Management.....................................................................53 3.5.2. Audio Management.....................................................................56 3.5.3. SMS Handling.........................................................................57 3.5.4. SIM Toolkit..........................................................................57 3.5.5. Own Number...........................................................................60 3.6. ADDITIONAL MODIFICATIONS...............................................................62 3.6.1. Hardware Abstraction Layer...........................................................62 3.6.2. GSM 22.10 Multiplexer................................................................62 3.6.3. RIL Extensions.......................................................................63 CHAPTER 4. DEVICE TEST......................................................................65 4.1. RIL STANDARD DEVELOPMENT TESTING.......................................................65 4.2. OPERATOR TESTING.......................................................................65 4.3. LOGO TEST KIT (LTK) TESTING............................................................66 4.4. RADIO QUALITY METRIC TESTING...........................................................69 CHAPTER 5. CONCLUSION.......................................................................70 5.1. SUMMARY................................................................................70 5.2. FUTURE WORKS...........................................................................70 REFERENCES..................................................................................71 APPENDIX A: ABBREVIATIONS...................................................................74
dc.language.iso	en
dc.subject	行動通訊	zh_TW
dc.subject	嵌入式系統	zh_TW
dc.subject	Embedded	en
dc.subject	Mobile Communication	en
dc.title	嵌入式無線通訊系統之實作與驗證	zh_TW
dc.title	Implementation and Testing of an Embedded Mobile Communication System	en
dc.type	Thesis
dc.date.schoolyear	94-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	雷欽隆(Chin-Laung Lei),顏嗣鈞(Hsu-chun Yen),趙涵捷(Han-Chieh Chao),呂毓榮(Yuh-Rong Leu)
dc.subject.keyword	嵌入式系統,行動通訊,	zh_TW
dc.subject.keyword	Embedded,Mobile Communication,	en
dc.relation.page	75
dc.rights.note	未授權
dc.date.accepted	2006-06-26
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

文件中的檔案：

檔案	大小	格式
ntu-95-1.pdf 未授權公開取用	1.81 MB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。