3G演进:HSPA与LTE第2版:英文影印版(来自爱立信研究院,Amazon全五星名著)
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- 作者: (瑞典)Erik Dahlman Stefan Parkvall [作译者介绍]
- 丛书名: 图灵电子电气
- 出版社:人民邮电出版社
- ISBN:9787115216793
- 上架时间:2009-12-17
- 出版日期:2010 年1月
- 开本:16开
- 页码:608
- 版次:2-1
- 所属分类:
通信 > 无线通信 > 第三代通信技术/CDMA
内容简介回到顶部↑
本书是爱立信研究院研发人员的经验之谈,描述了3g数字蜂窝系统如何演进成为先进的宽带移动接入技术,重点介绍了3g移动通信标准化开发演进路线、无线接入技术和接入网络的演进。书中内容分为5部分,清晰地勾勒出了3g演进技术取舍的诸多细节。.
本书是移动通信行业技术人员的必备参考指南,也是高等院校通信专业师生不可多得的教学参考书。...
本书是移动通信行业技术人员的必备参考指南,也是高等院校通信专业师生不可多得的教学参考书。...
作译者回到顶部↑
本书提供作译者介绍
Erik Dahlman 博士,世界知名移动通信技术专家,爱立信研究院资深研究员,毕业于瑞典皇家工学院。早期从事WCDMA的3G移动通信技术的研发和标准制定工作,后来成为3GPP项目成员,目前主要负责WCDMA R5的标准化工作以及下一代手机系统的无线接入研究工作。他在无线通信领域拥有20多项专利,由于工作业绩突出,曾荣获IEEE运载工具技术学会授予的Jack Neubauer奖以及爱立信研究院授予的年度发明家奖。...
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目录回到顶部↑
part i: introduction.
1 background of 3g evolution 3
1.1 history and background of 3g 3
1.1.1 before 3g 3
1.1.2 early 3g discussions 5
1.1.3 research on 3g 6
1.1.4 3g standardization starts 7
1.2 standardization 7
1.2.1 the standardization process 7
1.2.2 3gpp 9
1.2.3 imt-2000 activities in itu 11
1.3 spectrum for 3g and systems beyond 3g 13
2 the motives behind the 3g evolution 15
2.1 driving forces 15
2.1.1 technology advancements 16
2.1.2 services 17
2.1.3 cost and performance 20
2.2 3g evolution: two radio access network approaches and an evolved core network 21
2.2.1 radio access network evolution 21
2.2.2 an evolved core network: system architecture evolution 24
1 background of 3g evolution 3
1.1 history and background of 3g 3
1.1.1 before 3g 3
1.1.2 early 3g discussions 5
1.1.3 research on 3g 6
1.1.4 3g standardization starts 7
1.2 standardization 7
1.2.1 the standardization process 7
1.2.2 3gpp 9
1.2.3 imt-2000 activities in itu 11
1.3 spectrum for 3g and systems beyond 3g 13
2 the motives behind the 3g evolution 15
2.1 driving forces 15
2.1.1 technology advancements 16
2.1.2 services 17
2.1.3 cost and performance 20
2.2 3g evolution: two radio access network approaches and an evolved core network 21
2.2.1 radio access network evolution 21
2.2.2 an evolved core network: system architecture evolution 24
前言回到顶部↑
During the past years, there has been a quickly rising interest in radio access technologies for providing mobile as well as nomadic and fixed services for voice, video, and data. The difference in design, implementation, and use between telecom and datacom technologies is also getting more blurred. One example is cellular technologies from the telecom world being used for broadband data and wireless LAN from the datacom world being used for voice over IP. .
Today, the most widespread radio access technology for mobile communication is digital cellular, with the number of users passing 3 billion by 2007, which is almost half of the world’s population. It has emerged from early deployments of an expensive voice service for a few car-borne users, to today’s widespread use of third generation mobile-communication devices that provide a range of mobile services and often include camera, MP3 player, and PDA functions. With this widespread use and increasing interest in 3G, a continuing evolution ahead is foreseen.
This book describes the evolution of 3G digital cellular into an advanced broadband mobile access. The focus of this book is on the evolution of the 3G mobile communication as developed in the 3GPP (Third Generation Partnership Project) standardization, looking at the radio access and access network evolution.
This book is divided into five parts. Part I gives the background to 3G and its evolution, looking also at the different standards bodies and organizations involved in the process of defining 3G. It is followed by a discussion of the reasons and driving forces behind the 3G evolution. Part II gives a deeper insight into some of the technologies that are included, or are expected to be included as part of the 3G evolution. Because of its generic nature, Part II can be used as a background not only for the evolution steps taken in 3GPP as described in this book, but also for readers that want to understand the technology behind other systems, such as WiMAX and CDMA2000. ..
Part III describes the evolution of 3G WCDMA into High Speed Packet Access (HSPA). It gives an overview of the key features of HSPA and its continued evolution in the context of the technologies from Part II. Following this, the different uplink and downlink components are outlined and finally more detailed descriptions of how they work together are given.
Part IV introduces the Long Term Evolution (LTE) and System Architecture Evolution (SAE). As a start, the agreed requirements and objectives for LTE are described. This is followed by an introductory technical overview of LTE, where the most important technology components are introduced, also here, based on the generic technologies given in Part II. As a second step, a more detailed description of the protocol structure is given, with further details on the uplink and downlink transmission schemes and procedures, access procedures and flexible bandwidth operation. The system architecture evolution, applicable to both LTE and HSPA, is given with details of radio access network and core network. The ongoing work on LTE-Advanced is also presented.
Finally in Part V, an assessment is made on the 3G evolution. An evaluation of the performance puts the 3G evolution tracks in relation to the targets set in 3GPP. Through an overview of similar technologies developed in other standards bodies, it will be clear that the technologies adopted for the evolution in 3GPP are implemented in many other systems as well. Finally, looking into the future, it will be seen that the 3G evolution does not stop with the HSPA Evolution and LTE.
Acknowledgements
We thank all our colleagues at Ericsson for assisting in this project by helping with contributions to the book, giving suggestions and comments on the contents, and taking part in the huge team effort of developing HSPA and LTE.
The standardization process for 3G evolution involves people from all parts of the world, and we acknowledge the efforts of our colleagues in the wireless industry in general and in 3GPP RAN in particular. Without their work and contributions to the standardization, this book would not have been possible.Finally, we are immensely grateful to our families for bearing with us and supporting us during the long process of writing this book. ...
Today, the most widespread radio access technology for mobile communication is digital cellular, with the number of users passing 3 billion by 2007, which is almost half of the world’s population. It has emerged from early deployments of an expensive voice service for a few car-borne users, to today’s widespread use of third generation mobile-communication devices that provide a range of mobile services and often include camera, MP3 player, and PDA functions. With this widespread use and increasing interest in 3G, a continuing evolution ahead is foreseen.
This book describes the evolution of 3G digital cellular into an advanced broadband mobile access. The focus of this book is on the evolution of the 3G mobile communication as developed in the 3GPP (Third Generation Partnership Project) standardization, looking at the radio access and access network evolution.
This book is divided into five parts. Part I gives the background to 3G and its evolution, looking also at the different standards bodies and organizations involved in the process of defining 3G. It is followed by a discussion of the reasons and driving forces behind the 3G evolution. Part II gives a deeper insight into some of the technologies that are included, or are expected to be included as part of the 3G evolution. Because of its generic nature, Part II can be used as a background not only for the evolution steps taken in 3GPP as described in this book, but also for readers that want to understand the technology behind other systems, such as WiMAX and CDMA2000. ..
Part III describes the evolution of 3G WCDMA into High Speed Packet Access (HSPA). It gives an overview of the key features of HSPA and its continued evolution in the context of the technologies from Part II. Following this, the different uplink and downlink components are outlined and finally more detailed descriptions of how they work together are given.
Part IV introduces the Long Term Evolution (LTE) and System Architecture Evolution (SAE). As a start, the agreed requirements and objectives for LTE are described. This is followed by an introductory technical overview of LTE, where the most important technology components are introduced, also here, based on the generic technologies given in Part II. As a second step, a more detailed description of the protocol structure is given, with further details on the uplink and downlink transmission schemes and procedures, access procedures and flexible bandwidth operation. The system architecture evolution, applicable to both LTE and HSPA, is given with details of radio access network and core network. The ongoing work on LTE-Advanced is also presented.
Finally in Part V, an assessment is made on the 3G evolution. An evaluation of the performance puts the 3G evolution tracks in relation to the targets set in 3GPP. Through an overview of similar technologies developed in other standards bodies, it will be clear that the technologies adopted for the evolution in 3GPP are implemented in many other systems as well. Finally, looking into the future, it will be seen that the 3G evolution does not stop with the HSPA Evolution and LTE.
Acknowledgements
We thank all our colleagues at Ericsson for assisting in this project by helping with contributions to the book, giving suggestions and comments on the contents, and taking part in the huge team effort of developing HSPA and LTE.
The standardization process for 3G evolution involves people from all parts of the world, and we acknowledge the efforts of our colleagues in the wireless industry in general and in 3GPP RAN in particular. Without their work and contributions to the standardization, this book would not have been possible.Finally, we are immensely grateful to our families for bearing with us and supporting us during the long process of writing this book. ...
媒体评论回到顶部↑
“如果你打算学习HSPA与LTE,本书无疑是最佳参考指南,因为作者不但是通信技术高手,而且知道怎么让你也成为技术高手。”
——Joel Schopp,IBM工程师.
“这是迄今为止最系统的甚至可以说最优秀的移动通信技术演进资料!我这么评价它毫不夸张,因为它详尽介绍了4G之路该如何走。”
——Amazon.com ...
——Joel Schopp,IBM工程师.
“这是迄今为止最系统的甚至可以说最优秀的移动通信技术演进资料!我这么评价它毫不夸张,因为它详尽介绍了4G之路该如何走。”
——Amazon.com ...
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