First Generation Mobile Network (1st Generation)

The first generation of mobile telephony (written 1G) operated using analogue communications and portable devices that were relatively large. It used primarily the following standards. In the case of AMPS, the first 1G system to start operating in the USA (in July 1978), each channel was separated from the adjacent channels by a spacing of 30 kHz, which was not particularly efficient in terms of the available radio spectrum, and this placed a limitation on the number of calls that could be made at any one time. However, the system was a multiple access one, because a second caller could use the same channel, once the first caller had hung up. Such a system is called "frequency division multiple access" (FDMA).

The technological development that distinguished the First Generation mobile phones from the previous generation was the use of multiple cell sites, and the ability to transfer calls from one site to the next as the user travelled between cells during a conversation. The first commercially automated cellular network (the 1G generation) was launched in Japan by NTT in 1979. The initial launch network covered the full metropolitan area of Tokyo's over 20 million inhabitants with a cellular network of 23 base stations. Within five years, the NTT network had been expanded to cover the whole population of Japan and became the first nation-wide 1G network.

In 1984, Bell Labs developed modern commercial cellular technology (based, to a large extent, on the Gladden, Parelman Patent), which employed multiple, centrally controlled base stations (cell sites), each providing service to a small cell area. The sites were set up so that cells partially overlapped and different base stations operated using the same frequencies with little or no interference.
Vodafone made the UK's first mobile call at a few minutes past midnight on 1 January 1985.
The technology in these early networks was pushed to the limit to accommodate increasing usage. The base stations and the mobile phones utilised variable transmission power, which allowed range and cell size to vary. As the system expanded and neared capacity, the ability to reduce transmission power allowed new cells to be added, resulting in more, smaller cells and thus more capacity. The evidence of this growth can still be seen in the many older, tall cell site towers with no antennae on the upper parts of their towers. These sites originally created large cells, and so had their antennae mounted atop high towers; the towers were designed so that as the system expanded—and cell sizes shrank—the antennae could be lowered on their original masts to reduce range.

What is 3G?

3G refers to the third generation of mobile telephony (that is, cellular) technology. It comes with enhancements over previous wireless technologies, like high-speed transmission, advanced multimedia access and global roaming. 3G is mostly used with mobile phones and handsets as a means to connect the phone to the Internet or other IP networks in order to make voice and video calls, to download and upload data and to surf the net.

Advantages of 3G 

High Bandwidth

High bandwith---the measure of transmission capacity---is one of the selling points of 3G. This allows you quick and easy access to all of your favorite online multimedia and Internet tools, just like you were at home on a computer. You can pay bills, book dinner reservations, update social networking pages and check emails, all on-the-go. While the maximum bandwidth for a stationary 3G device---according to Silicon Press---is 2.05 megabytes (MB), when you are moving slowly (such as walking), this drops to 384 kilobytes (KB). When you and your device are moving at high speeds (such as in a car), the maximum bandwidth drops to 128 KB. However, Silicon Press notes that this is still 10 times faster than the maximum bandwidth of moving 2G devices.

Greater Speed

Using 3G tech, you get to appreciate data transmission speed of up to 2 megabytes per second, as long as you have your device in a fixed position. It also provides you high level of connectivity and greater networking, plus noise resistance. The technology has raised the bit rate, allowing service providers to give high speed Internet facilities, higher call volumes and host of the multimedia applications that may be given to their customers. All of the services may be given to the consumers based upon the data amount sent and not upon the time utilized for the service, therefore the service given to customers are cheaper overall.

Getting information

Getting information is one of the best feature of 3G technology. You can also watch the latest news and headlines, getting data like the weather, sports and economic details. You get to acquire the latest scores in an ongoing Cricket match and other favorite sports. The 3G cellular phones with the very advanced feature can feature highlights of popular sports and shows. The improved quality of services and speed of 3G phones can allow you to watch music videos and movie clips with crisp and clear photos, compared to 2.5G technology phones.

Power Usages

·         In addition to being more expensive, 3G handsets also require more power than most 2G models. This extra power requirement can translate to larger batteries, shortage usage periods between recharging and more bulky handsets overall.

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What is Android?

Android is a Linux-based mobile phone operating system developed by Google. Android is unique because Google is actively developing the platform but giving it away for free to hardware manufacturers and phone carriers who want to use Android on their devices.

Features

·         Application framework enabling reuse and replacement of components

·         Dalvik virtual machine optimized for mobile devices

·         Integrated browser based on the open source WebKit engine

·         Optimized graphics powered by a custom 2D graphics library; 3D graphics based on the OpenGL ES 1.0 specification (hardware acceleration optional)

·         SQLite for structured data storage

·         Media support for common audio, video, and still image formats (MPEG4, H.264, MP3, AAC, AMR, JPG, PNG, GIF)

·         GSM Telephony (hardware dependent)

·         Bluetooth, EDGE, 3G, and WiFi (hardware dependent)

·         Camera, GPS, compass, and accelerometer (hardware dependent)

·         Rich development environment including a device emulator, tools for debugging, memory and performance profiling, and a plugin for the Eclipse IDE

What can an Android phone do?

Android phones are highly customisable and as such can be altered to suit your tastes and needs. You can check your Facebook and Twitter profiles through a variety of apps making it ideal for social networking. Through the calendar you can set reminders from your desktop or your phone and on the latest version of Android you can send links to and from your computer and vice versa.

Another neat feature of Android is that it automatically backs up your contacts for you. When you set up an Android phone you’ll need to create a Google Account or sign in with an existing one. Every time you save a number to the address book of your Android phone it will be synced to your Google Account.

The benefit of this is if you lose your phone all of your numbers will be saved. The next time you get an Android phone and sign in with your Google Account, all of your contacts and friends numbers will be displayed in your new phone’s address book.