LTE_For_4G_Mobile_Broadband_Air_Interface_Technologies_And_Performance

LTE_For_UMTS_OFDMA_And_SC-FDMA_Based_Radio_Access

New_UMTS_planning

Sanchar_LTE FOR YOU

Mobile_Broadband_Including_WiMAX_and_LTE

RF Measurements for LTE_Martha Zemede

The_LTE_Guide_May2010

Dear ali56s

can you put all the part into one downloadable file in an external server PLZ?

thanks

Hello there! The book has been shared everywhere before.

Download 0521882214.rar, upload your files and earn money. (http://www.easy-share.com/1907166171/0521882214.rar)

THe LTE Guide published twice a year:

4G LTE Resources, 4G LTE Equipment, 4G LTE Reports, 4G LTE Data, 4G LTE Training, 4G LTE Certification, 4G LTE Vendors, 4G LTE Operators, 4G LTE Library, 4G LTE White Papers, 4G LTE Technical Papers, 4G LTE Webinars, 4G LTE Events, 4G LTE Conferences (http://lteportal.com/members/4glteresources.php)

THe LTE Guide published twice a year:

4G LTE Resources, 4G LTE Equipment, 4G LTE Reports, 4G LTE Data, 4G LTE Training, 4G LTE Certification, 4G LTE Vendors, 4G LTE Operators, 4G LTE Library, 4G LTE White Papers, 4G LTE Technical Papers, 4G LTE Webinars, 4G LTE Events, 4G LTE Conferences (http://lteportal.com/members/4glteresources.php)

nice stuff there... thnx...

Mobile communications has become an everyday commodity. In the last decades, it has evolved from
being an expensive technology for a few selected individuals to today’s ubiquitous systems used
by a majority of the world’s population. From the first experiments with radio communication by
Guglielmo Marconi in the 1890s, the road to truly mobile radio communication has been quite long.
To understand the complex mobile-communication systems of today, it is important to understand
where they came from and how cellular systems have evolved. The task of developing mobile technologies
has also changed, from being a national or regional concern, to becoming an increasingly
complex task undertaken by global standards-developing organizations such as the Third Generation
Partnership Project (3GPP) and involving thousands of people.
Mobile communication technologies are often divided into generations, with 1G being the analog
mobile radio systems of the 1980s, 2G the first digital mobile systems, and 3G the first mobile
systems handling broadband data. The Long-Term Evolution (LTE) is often called “4G”, but many
also claim that LTE release 10, also referred to as LTE-Advanced, is the true 4G evolution step, with
the first release of LTE (release 8) then being labeled as “3.9G”. This continuing race of increasing
sequence numbers of mobile system generations is in fact just a matter of labels. What is important is
the actual system capabilities and how they have evolved, which is the topic of this chapter.
In this context, it must first be pointed out that LTE and LTE-Advanced is the same technology,
with the “Advanced” label primarily being added to highlight the relation between LTE release 10
(LTE-Advanced) and ITU/IMT-Advanced, as discussed later. This does not make LTE-Advanced
a different system than LTE and it is not in any way the final evolution step to be taken for LTE.
Another important aspect is that the work on developing LTE and LTE-Advanced is performed as a
continuing task within 3GPP, the same forum that developed the first 3G system (WCDMA/HSPA).
This chapter describes the background for the development of the LTE system, in terms of events,
activities, organizations and other factors that have played an important role. First, the technologies
and mobile systems leading up to the starting point for 3G mobile systems will be discussed.
Next, international activities in the ITU that were part of shaping 3G and the 3G evolution and the
market and technology drivers behind LTE will be discussed. The final part of the chapter describes
the standardization process that provided the detailed specification work leading to the LTE systems
deployed and in operation today.

Mobile communications has become an everyday commodity. In the last decades, it has evolved from


being an expensive technology for a few selected individuals to today’s ubiquitous systems used
by a majority of the world’s population. From the first experiments with radio communication by
Guglielmo Marconi in the 1890s, the road to truly mobile radio communication has been quite long.
To understand the complex mobile-communication systems of today, it is important to understand
where they came from and how cellular systems have evolved. The task of developing mobile technologies
has also changed, from being a national or regional concern, to becoming an increasingly

complex task undertaken by global standards-developing organizations such as the

Third Generation

Partnership Project


(3GPP) and involving thousands of people.

Mobile communication technologies are often divided into generations, with 1G being the analog
mobile radio systems of the 1980s, 2G the first digital mobile systems, and 3G the first mobile
systems handling broadband data. The


Long-Term Evolution (LTE) is often called “4G”, but many

also claim that LTE release 10, also referred to as


LTE-Advanced, is the true 4G evolution step, with

the first release of LTE (release 8) then being labeled as “3.9G”. This continuing race of increasing
sequence numbers of mobile system generations is in fact just a matter of labels. What is important is
the actual system capabilities and how they have evolved, which is the topic of this chapter.
In this context, it must first be pointed out that LTE and LTE-Advanced is the same technology,
with the “Advanced” label primarily being added to highlight the relation between LTE release 10
(LTE-Advanced) and ITU/IMT-Advanced, as discussed later. This does not make LTE-Advanced
a different system than LTE and it is not in any way the final evolution step to be taken for LTE.
Another important aspect is that the work on developing LTE and LTE-Advanced is performed as a
continuing task within 3GPP, the same forum that developed the first 3G system (WCDMA/HSPA).
This chapter describes the background for the development of the LTE system, in terms of events,
activities, organizations and other factors that have played an important role. First, the technologies
and mobile systems leading up to the starting point for 3G mobile systems will be discussed.
Next, international activities in the ITU that were part of shaping 3G and the 3G evolution and the
market and technology drivers behind LTE will be discussed. The final part of the chapter describes
the standardization process that provided the detailed specification work leading to the LTE systems
deployed and in operation today.



@ alis56
this book is posted several times

WMAN/HiperMAN/WiMAX Wireless Metropolitan Área


IEEE 802.16: Arquitectura y Modelo de Referencia, 802.11 vs 802.16


Móviles WiMAX ws WLAN/3G


WiMAX redes fijas y móviles


Aplicaciones, ventajas y limitaciones


Arquitectura de célula por sectores, Arquitecturas de micro-células, Topología WiMAX


Despliegue WiMAX-WiFi


Capacidades y cobertura, Throughput, Escalabilidad, Subcanalizacion


Acceso multiple y duplexing


QoS, Seguridad


LOS/OLOS/NLOS

Interoperabilidad de WiMAX.......................

most are free to download from several ebooks sites

I don't have enough money，Can you help me ! Please send to me,Thanks a lot! walt19801206@hotmail.com