Monday 19 September 2011

Importance Of 4G

Importance Of 4G

As we all know and appreciate, the Internet has changed our lives over the last decade in ways that we never could have imagined. Communication is faster with the additions of Emails and Instant Messaging (IMs) to our lives; Research is simpler and more extensive, as boundless sources of information inhabit thousands and thousands of online Encyclopedias and Articles; and keeping up with Friends and Colleagues is very easy with the invention and seemingly endless expansion of Social Networking sites like Facebook, Orkut, MySpace, Twitter etc.
4G Technology

What is 4G Technology, Its Importance & Choosing a Suitable Provider?

When talking about 4G Technology, the first question that comes in our mind is What is 4G? 4G stands for Fourth Generation Technology and is successor of 3G Technology. In 2009, the ITU-R organization specified the IMT-Advanced (International Mobile Telecommunications Advanced) requirements for 4G standards, setting peak speed requirements for 4G service at 100 Mbit/s (Mega bit per Second) for high mobility communication (such as from trains and cars) and 1 Gbit/s (Gega bit per Second) for low mobility communication (such as pedestrians and stationary users)!
A 4G system is expected to provide a comprehensive and secure all-IP (Internet Protocol) based mobile broadband solution to Laptop Computers, Wireless MODEMs, Smartphones, and other Mobile Devices. Facilities such as Ultra-Broadband Internet access, IP telephony, Gaming Services, and Streamed Multimedia may be provided to users.
The word MAGIC also refers to 4G technology which stands for Mobile multimedia, Any-where, Global mobility solutions over, Integrated wireless and Customized services!
4G Speed
The Internet is enjoying even greater heights of speed and convenience because of wireless companies like Clear 4G etc. With the spread of wireless Internet usage, many people are now connected to the Web just about twenty four hours a day, meaning that they can send and receive Emails more efficiently, are practically never out of touch, and can access any information on the Internet with the click of a single button, no matter where they are. In fact, Wireless Internet is becoming such a widespread reality that it is now very important to look into signing up with a suitable provider so as not to be left behind.
The first thing to consider when choosing a Wireless provider is that if you want to, you can look beyond the big, standard cellular companies. Because these companies constantly advertise their smart phones’ access to 3G and 4G Wireless Services, many people assume that they are the only companies that actually offer these services. However, in reality, there are also companies that do not necessarily sell Cellular devices or Laptops, but they specializes in providing you with cheap and clear Wireless Service!
With such services, all you need is to plug-in a MODEM to your Laptop or Wireless Device, and you will immediately gain access to the Internet, no matter what your current location is, as long as you are within the range of a 4G Network (a range that is getting wider and wider). This means that whether you are sitting in the stands watching a football game, lounging in a bookstore or cafe, or simply staying at home, you can access the Internet on your own, without needing to know the name and password of any specific wireless network, as your own device will have its own connection.
No doubt, Wireless Internet is an amazing tool for Businesses, Schools, Entertainment, and many other aspects of life, and is something that you can easily gain access to.

4G Features

INTRODUCTION

The approaching 4G (fourth generation) mobile communication systems are projected to solve still-remaining problems of 3G (third generation) systems and to provide a wide variety of new services, from high-quality voice to high-definition video to high-data-rate wireless channels. The term 4G is used broadly to include several types of broadband wireless access communication systems, not only cellular telephone systems. One of the terms used to describe 4G is MAGIC—Mobile multimedia, Anytime anywhere, Global mobility support, Integrated wireless solution, and Customized personal service. As a promise for the future, 4G systems, that is, cellular broadband wireless access systems, have been attracting much interest in the mobile communication arena. The 4G systems not only will support the next generation of mobile service, but also will support the fixed wireless networks.
This paper presents an overall vision of the 4G features, framework, and integration of mobile communication. The features of 4G systems might be summarized with one word—integration. The 4G systems are about seamlessly integrating terminals, networks, and applications to satisfy increasing user demands. The continuous expansion of mobile communication and wireless networks shows evidence of exceptional growth in the areas of mobile subscriber, wireless network access, mobile services, and applications. An estimate of 1 billion users by the end of 2003 justifies the study and research for 4G systems.

HISTORY
The history and evolution of mobile service from the 1G (first generation) to fourth generation are discussed in this section. Table 1 presents a short history of mobile telephone technologies.
This process began with the designs in the 1970s that have become known as 1G. The earliest systems were implemented based on analog technology and the basic cellular structure of mobile communication. Many fundamental problems were solved by these early systems. Numerous incompatible analog systems were placed in service around the world during the 1980s.
The 2G (second generation) systems designed in the 1980s were still used mainly for voice applications but were based on digital technology, including digital signal processing techniques. These 2G systems provided circuit-switched data communication services at a low speed. The competitive rush to design and implement digital systems led again to a variety of different and incompatible standards such as GSM (global system mobile), mainly in Europe; TDMA (time division multiple access) (IS-54/IS-136) in the U.S.; PDC (personal digital cellular) in Japan; and CDMA (code division multiple access) (IS-95), another U.S. system. These systems operate nationwide or internationally and are today's mainstream systems, although the data rate for users in
these system is very limited.
During the 1990s, two organizations worked to define the next, or 3G, mobile system, which would eliminate previous incompatibilities and become a truly global system. The 3G system would have higher quality voice channels, as well as broadband data capabilities, up to 2 Mbps. Unfortunately, the two groups could not reconcile their differences, and this decade will see the introduction of two mobile standards for 3G. In addition, China is on the verge of implementing a third 3G system.
An interim step is being taken between 2G and 3G, the 2.5G. It is basically an enhancement of the two major 2G technologies to provide increased capacity on the 2G RF (radio frequency) channels and to introduce higher throughput for data service, up to 384 kbps. A very important aspect of 2.5G is that the data channels are optimized for packet data, which introduces access to the Internet from mobile devices, whether telephone, PDA (personal digital assistant), or laptop.
However, the demand for higher access speed multimedia communication in today's society, which greatly depends on computer communication in digital format, seems unlimited. According to the historical indication of a generation revolution occurring once a decade, the present appears to be the right time to begin the research on a 4G mobile communication system.
4G
This new generation of wireless is intended to complement and replace the 3G systems, perhaps in 5 to 10 years. Accessing information anywhere, anytime, with a seamless connection to a wide range of information and services, and receiving a large volume of information, data, pictures, video, and so on, are the keys of the 4G infrastructures. The future 4G infrastructures will consist of a set of various networks using IP (Internet protocol) as a
common protocol so that users are in control because they will be able to choose every application and environment.
Based on the developing trends of mobile communication, 4G will have broader bandwidth, higher data rate, and smoother and quicker handoff and will focus on ensuring seamless service across a multitude of wireless systems and networks. The key concept is integrating the 4G capabilities with all of the existing mobile technologies through advanced technologies.
Application adaptability and being highly dynamic are the main features of 4G services of interest to users.
These features mean services can be delivered and be available to the personal preference of different users and support the users' traffic, air interfaces, radio environment, and quality of service. Connection with the network applications can be transferred into various forms and levels correctly and efficiently. The dominant methods of access to this pool of information will be the mobile telephone, PDA, and laptop to seamlessly access the voice communication, high-speed information services, and entertainment broadcast services. Figure 1 illustrates elements and techniques to support the adaptability of the 4G domain.
The fourth generation will encompass all systems from various networks, public to private; operator-driven broadband networks to personal areas; and ad hoc networks. The 4G systems will interoperate with 2G and 3G systems, as well as with digital (broadband) broadcasting systems. In addition, 4G systems will be fully IP-based wireless Internet.
This all-encompassing integrated perspective shows the broad range of systems that the fourth generation intends to integrate, from satellite broadband to high altitude platform to cellular 3G and 3G systems to WLL (wireless local loop) and FWA (fixed wireless access) to WLAN (wireless local area network) and PAN (personal area network), all with IP as the integrating mechanism.
With 4G, a range of new services and models will be available. These services and models need to be further examined for their interface with the design of 4G systems. Figures 2 and 3 demonstrate the key elements and the seamless connectivity of the networks.

CONCLUSION
As the history of mobile communications shows, attempts have been made to reduce a number of technologies to a single global standard. Projected 4G
systems offer this promise of a standard that can be embraced worldwide through its key concept of integration. 
Future wireless networks will need to support diverse IP multimedia applications to allow sharing of resources among multiple users. There must be a low complexity of implementation and an efficient means of negotiation between the end users and the wireless infrastructure. The fourth generation promises to fulfill the goal of PCC (personal computing and communication)—a vision that affordably provides high data rates everywhere over a wireless network.

Difference between 3G and 4G

Difference between 3G and 4G?

Major requirement 
driving architecture 
3G 
(Including 2.5G, Sub3G)
4G
 
Predominantly voice driven; 
data was always add on 
Converged data and voice over IP
Network Architecture 
Wide area cell-based 
Hybrid: Integration of wireless LAN 
(WiFi, Bluetooth) and wide area
Speeds
384 Kbps to 2 Mbps 
20 to 100 Mbps in mobile mode 
Frequency Band 
Dependent on country or continent (1800‐2400 MHz) 
Higher frequency bands (2-8 GHz) 
Bandwidth 
5-20 MHz 
100 MHz (or more) 
Switching Design Basis 
Circuit and Packet 
All digital with packetized voice 
Access Technologies 
W-CDMA, 1xRTT, Edge 
OFDM and MC-CDMA 
(Multi Carrier CDMA) 
Forward Error Correction 
Convolutional rate 1/2, 1/3 
Concatenated coding scheme 
Component Design 
Optimized antenna design, 
multi-band adapters 
Smarter Antennas, software 
multiband and wideband radios 
IP  
A number of air link protocols, 
including IP 5.0  
All IP (IPv6) 

4G Introduction

4G Introduction

4G is short for Fourth (4th) Generation Technology. 4G Technology is basically the extension in the 3G technology with more bandwidth and services offers in the 3G. But at this time nobody exactly knows the true 4G definition. Some people say that 4G technology is the future technologies that are mostly in their maturity period. The expectation for the 4G technology is basically the high quality audio/video streaming over end to end Internet Protocol. If the Internet Protocol (IP) multimedia sub-system movement achieves what it going to do, nothing of this possibly will matter. WiMAX or mobile structural design will become progressively more translucent, and therefore the acceptance of several architectures by a particular network operator ever more common.

4G (fourth-generation wireless)


4G is the short name for fourth-generation wireless, the stage of broadband mobile communications that will supercede the third generation .
Carriers that use orthogonal frequency-division multiplexing (OFDM) instead of time division multiple access (TDMA) or code division multiple access (CDMA) are increasingly marketing their services as being 4G, even when their data speeds are not as fast as the International Telecommunication Union (ITU) specifies. According to the ITU, a 4G network requires a mobile device to be able to exchange data at 100 Mbit/sec. A 3G network, on the other hand, can offer data speeds as slow as 3.84 Mbit/sec.
From the consumer's

Learn More

  • WiMAX, 3G and Wireless Broadband
  • 3G and 4G
point of view, 4G is more a marketing term than a technical specification, but carriers feel justified in using the 4G label because it lets the consumer know that he can expect significantly faster data speeds.
Although carriers still differ about whether to build 4G data networks using Long Term Evolution (LTE) or Worldwide Interoperability for Microwave Access WiMAX, all carriers seem to agree that OFDM is one of the chief indicators that a service can be legitimately marketed as being 4G.  OFDM is a type of digital modulation in which a signal is split into several narrowband channels at different frequencies. This is more efficient than TDMA, which divides channels into time slots and has multiple users take turns transmitting bursts or CDMA, which simultaneously transmits multiple signals on the same channel.
When fully implemented, 4G is expected to enable pervasive computing, in which simultaneous connections to multiple high-speed networks will provide seamless handoffs throughout a geographical area. Coverage enhancement technologies such as femtocell and picocell are being developed to address the needs of mobile users in homes, public buildings and offices, which will free up network resources for mobile users who are roaming or who are in more remote service areas.