Mobile communication has gained significant importance in today’s society. As
of 2010, the number of mobile phone subscribers has surpassed 5 billion [ABI10],
and the global annual mobile revenue is soon expected to top $1 trillion [Inf10].
While these numbers appear promising for mobile operators at first sight, the
major game-changer that has come up recently is the fact that the market is
more and more driven by the demand for mobile data traffic [Cis10].
The third generation (3G) mobile communication system is the next big thing
in the world of mobile telecommunications. The first generation included
analog mobile phones [e.g., Total Access Communications Systems
(TACS), Nordic Mobile Telephone (NMT), and Advanced Mobile Phone
Service (AMPS)], and the second generation (2G) included digital mobile
phones [e.g., global system for mobile communications (GSM), personal
digital cellular (PDC), and digital AMPS (D-AMPS)]. The 3G will bring
digital multimedia handsets with high data transmission rates, capable of
providing much more than basic voice calls.
There are few technologies that have had a more profound effect on people’s lives
than mobile communications. As recently as twenty years ago no one had a mobile
phone, while today 1.4 billion men, women and children depend on them. This now
exceeds the number of landline users, where it took the preceding one hundred years
to reach the 1 billion mark. The ability to make mobile voice calls turns out to be the
answer to a deeply felt need across different cultures who simply want to
communicate.
One of the very first books published on the social impact of the mobile phone
was Timo Kopomaa’s The City in Your Pocket: Birth of the Mobile Information Society.
The book, published in 2000, was based on research that Kopomaa had under-
taken for Nokia and Sonera as part of his doctoral studies in the Centre for Urban
and Regional Studies at the Helsinki University of Technology. The first line he
writes in the book is peculiar: ‘Mobile communication is not a serious matter’. By
this, we assume he is referring to a view of the world that would regard the mobile
phone as little more than an unremarkable fact of everyday life – a simple play-
thing for the young, or a productivity tool for the business executive and busy
parent.
Rapid progress in information and communications technology (ICT) induces
improved and new telecommunications services and contributes greatly to society
in general and to vendors and network and service providers. In addition to existing
services such as telephony or leased line services, spread of the Internet, the Internet
Protocol (IP) phone, and new communications services like IPTV are making great
progress with the development of digital subscriber lines (DSL) and high - speed
communications technologies like fi ber to the home (FTTH).
Second-generation telecommunication systems, such as the Global System for Mobile
Communications (GSM), enabled voice traffic to go wireless: the number of mobile phones
exceeds the number of landline phones and the mobile phone penetration is approaching
100% in several markets. The data-handling capabilities of second-generation systems are
limited, however, and third-generation systems are needed to provide the high bit-rate
services that enable high-quality images and video to be transmitted and received, and to
provide access to the Web with higher data rates.
Wirelesscommunications,especiallyinitsmobileform,hasbroughtusthefreedomofmobility
andhaschangedthelifestylesofmodernpeople.Waitingatafixedlocationtoreceiveormakea
phone call, or sitting in front of a personal computer to send an e-mail or download a video
program, has become an old story. Nowadays it is commonplace for people to talk over a cell
phonewhilewalkingonthestreet,ortodownloadandwatchamoviewhiletravelingonatrain.
Thisisthebenefitmadeavailabletousbythesuccessfulevolutionofwirelesscommunications
over three generations, with the fourth generation being under way.
The next avatar of the Internet will revolutionize our world. In time, it will
provide us a universal remote control, enabling us to monitor and control
physical objects located anywhere on the planet, using a smart phone. It will
make the universe around us programmable, allowing us to script the behav-
ior of physical objects with electronic commands. This book is about such
an emerging new version of the Internet.
MotioninterfaceTM is becoming a "must-have"function being adopted by smartphone and tablet manufacturers due to the enormous value it adds to the end user experience. In smartphones, it finds use in applications such as gesture commands for applications and phone control, enhanced gaming, augmented reality, panoramic photo capture and viewing, and pedestrian and vehicle navigation. With its ability to precisely and accurately track user motions, MotionTracking technology can convert handsets and tablets into powerful 3D intelligent devices that can be used in applications ranging from health and fitness monitoring to location-based services. Key requirements for Motionlnterface enabled devices are small package size, low power consumption, high accuracy and repeatability, high shock tolerance, and application specific performance programmability-all at a low consumer price point.
VIP專區(qū)-嵌入式/單片機(jī)編程源碼精選合集系列(104)資源包含以下內(nèi)容:1. mips命令集詳解.2. 數(shù)碼相框原理圖,ZXDP-010 (8302+720).3. CBM2090單片8BIT 16BIT共板原理圖.4. 紅外線遙控是目前使用最廣泛的一種通信和遙控手段。由于紅外線遙控裝置具有體積小、功耗低、功能強(qiáng)、成本低等特點(diǎn).5. 時間觸發(fā)嵌入式系統(tǒng)設(shè)計模式
使用8051系列微控制器開發(fā)可靠應(yīng)用.6. 關(guān)于555時基電路原理以及應(yīng)用的介紹說明.7. 一個關(guān)于s3c2410_LCD_640*480的驅(qū)動程序.8. ipod——touch攻略.9. SDMMC 源碼
SD、MMC卡的讀寫程序.10. 嵌入式試驗開發(fā)平臺簡介.11. Mobile phone MMI design reference..12. 我寫的stv2248 芯片的驅(qū)動程序.13. 應(yīng)用于S60平臺的示例程序.14. YAFFS (Yet Another Flash File System) is now in its second generation and provides a fast robust fil.15. 關(guān)于h264的演示 內(nèi)容不錯 希望大家喜歡..16. Michael Barr是Netrino公司的總裁兼創(chuàng)始人.17. 2006年軟考的嵌入式系統(tǒng)設(shè)計師考試題及答案.18. S3C2440開發(fā)板原理圖以及成品圖片.是硬件開發(fā)工程師的好參考資料.19. 一個可以實現(xiàn)嵌入式視頻監(jiān)控系統(tǒng)的服務(wù)器軟件。.20. 一個可以實現(xiàn)嵌入式視頻監(jiān)控系統(tǒng)的最新版客戶端軟件。.21. 東軟嵌入式高級C培訓(xùn)(2007)).22. 最新的uffs,目前是1.1.2版本.23. NokiaSeries40Book1,介紹了40平臺的手機(jī)開發(fā).24. 數(shù)控編程開發(fā)事例,對數(shù)控機(jī)床的直線和圓戶進(jìn)行插補(bǔ),.25. 用STR710控制串口及CC1100進(jìn)行無線通信.26. 非常不錯的單片機(jī)開發(fā)板原理圖.27. s3c44b0bootloader分析.28. 以 DSpic30f4011為 SPI SLAVE的范例程式.29. 漢字與字符顯示函數(shù)。對于任一主函數(shù).30. 最詳細(xì)最專業(yè)的MODBus協(xié)議介紹。
給MODBus總線開發(fā)的朋友們一些參考!.31. 本文較為詳細(xì)的介紹了雙CPU的C51系統(tǒng)設(shè)計中.32. c51的時鐘芯片讀寫函數(shù).33. 本書介紹了PCI局部總線的基本概念,功能,操作規(guī)則和使用方法.34. Intel公司的閃存轉(zhuǎn)換層(Flash Translaion Layer)規(guī)范指導(dǎo)文件.35. h.261 player with running h.261,p24,h26 file.36. I2C接口協(xié)議.37. First of all we would like to thank God Almighty for giving us the strength and confidence in
pursi.38. 2008年最新出版Silverlight及Blend學(xué)習(xí)電子書教程合集.39. 利用VB與VC程式整合開發(fā)實現(xiàn)影像物體分類辨識的PLC輸送帶系統(tǒng).40. 凌陽公司機(jī)sunplus1002在這個芯片下.
