Tuesday, January 8, 2013


Data rate of 20mbps is employed. Mobile speed will be up to 200km/hr.The high performance is achieved by the use of long term channel prediction, in both time and frequency, scheduling among users and smart antennas combined with adaptive modulation and power control. Frequency band is 2-8 GHz. it gives the ability for world wide roaming to access cell anywhere.
Wireless mobile communications systems are uniquely identified by "generation designations. Introduced in the early 1980s, first generation (1G) systems were marked by analog frequency modulation and used primarily for voice communications.
Second generation (2G) wireless communications systems, which made their appearance in the late 1980s, were also used mainly for voice transmission and reception The wireless system in widespread use today goes by the name of 2.5G-an "in between " service that serves as a stepping stone to 3G.
Whereby 2G communications is generally associated with Global System for Mobile (GSM) service, 2.5G is usually identified as being "fueled " by General Packet Radio Services (GPRS) along with GSM. In 3G systems, making their appearance in late 2002 and in 2003, are designed for voice and paging services, as well as interactive media use such as teleconferencing, Internet access, and other services.
The problem with 3G wireless systems is bandwidth-these systems provide only WAN coverage ranging from 144 kbps (for vehicle mobility applications) to 2 Mbps (for indoor static applications). Segue to 4G, the "next dimension " of wireless communication. The 4g wireless uses Orthogonal Frequency Division Multiplexing (OFDM), Ultra Wide Radio Band (UWB), and Millimeter wireless and smart antenna. Data rate of 20mbps is employed. Mobile speed will be up to 200km/hr.Frequency band is 2 8GHz. it gives the ability for world wide roaming to access cell anywhere.
  • Support for interactive multimedia, voice, streaming video, Internet, and other broadband services.
  • IP based mobile system.
  • High speed, high capacity, and low cost per bit.
  • Global access, service portability, and scalable mobile services.
  • Seamless switching, and a variety of Quality of Service driven services.
  • Better scheduling and call admission control techniques.
  • Ad hoc and multi hop networks (the strict delay requirements of voice make multi hop network service a difficult problem).
  • Better spectral efficiency.
  • Seamless network of multiple protocols and air interfaces (since 4G will be all �]IP, look for 4G systems to be compatible with all common network technologies, including802.11, WCDMA, Blue tooth, and Hyper LAN).
  • An infrastructure to handle pre existing 3G systems along with other wireless technologies, some of which are currently under development.

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