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its a report about gifi... it tells about gifi
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Seminar Report On
Submitted In Partial Fulfillment of the Requirement For The Award of First Year of B. Tech In Electronic and Telecommunication of Dr. Babasaheb Ambedkar Technological University, Lonere. Submitted By
Under The Guidance of
A C K N O W L E D G E M E N T
C O N T E N T S Chapter No. Title Page No Title Sheet Certificate Declaration Acknowledgement Index Abstract 1 Introduction 1 2 Literature Review 3 3 Features of Gi-Fi 6 4 Application 9 5 Conclusion 13 References
Wi-Fi (IEEE-802.11b) and Wi-Max (IEEE-802.16e) have captured our attention. As there is no recent developments which transfer data at faster rate, as video information transfer taking lot of time. This leads to introduction of Gi-Fi technology .it offers some advantages over Wi-Fi, a similar wireless technology. In that it offers faster information rate in Gbps, less power consumption and low cost for short range transmissions. Gi-Fi which is developed on a integrated wireless transceiver chip. In which a small antenna used and both transmitter- receiver integrated on a single chip which is fabricated using the complementary metal oxide semiconductor (CMOS) process. Because of Gi-Fi transfer of large videos, files will be within seconds.
The reason for pushing into Gi-Fi technology is because of slow rate, high power consumption, low range of frequency operations of earlier technologies i.e. Bluetooth and Wi-Fi, see the comparisons and features of those two technologies.
From the table we can conclude that the bit rate of Bluetooth is 800Kbps and Wi-Fi has 11Mbps. Both are having power consumptions 5mw and 10mw. They have lower frequency of operation 2.4GHz. For transferring large amount of videos, audios, data files take hours of time. So to have higher data transfer rate at lower power consumption we move onto GiFi Technology.
2.2 Fundamental Technologies in 802.15.3C: This millimeter-Wave WPAN will operate in the new and clear band including 57-64 GHz unlicensed band defined by FCC 47 CFR 15.255. The millimeter-wave WPAN will allow high coexistence (close physical spacing) with all other microwave systems in the 802.15 family of WPANs. 2.3 Working in Gi-Fi: Here we will be use a time division duplex for both transmission and receiving. The data files are up converted from IF range to RF 60Ghz range by using 2 mixers. We will feed this to a power amplifier, which feeds millimeter-wave antenna. The incoming RF signal is first down converted to an IF signal centered at 5 GHz .and then to normal data ranges, here we will use heterodyne construction for this process to avoid leakages due to direct conversion. Due to availability of 7 GHz spectrum the total data will be transferred within seconds. 2.3.1 Time-division duplex Time-Division Duplex (TDD) is the application of time-division multiplexing to separate outward and return signals. It emulates full duplex communication over a half duplex communication link. Time division duplex has a strong advantage in the case where the asymmetry of the uplink and downlink data speed is variable. As uplink traffic increases, more channel capacity can dynamically be allocated to that, and as it shrinks it can be taken away. For radio systems that aren't moving quickly, another advantage is that the uplink and downlink radio. 2.4 Why 60 GHz..? Here we will use millimeter wave antenna which will operate at 60 GHz frequency which is unlined band .Because of this band we are achieving high data rates energy propagation In the 60 GHz band has unique characteristics that make possible many other benefits such as excellent immunity to co-channel interference, high security, and frequency re-use.
Point-to-point wireless systems operating at 60 GHz have been used for many years for satellite- to-satellite communications. This is because of high oxygen absorption at 60 GHz (10- dB/Km). This absorption attenuates 60 GHz signals over distance, so that signals cannot travel far beyond their intended recipient. For this reason, 60GHz is an excellent choice for covert communications. Fig. 2 - Oxygen Attenuation vs. Frequency 2.5 ULTRA WIDE BAND FREQUENCY USAGE: UWB, is a technology with high bit rate, high security and faster data transmission. It is a zero carrier technique with low coverage area. So we have low power consumption. These features are Ultra-Wideband (UWB) is a technology for transmitting information spread over a large bandwidth (>500 MHz) that should, be able to share spectrum with other users. Regulatory settings of FCC are intended to provide an efficient use of scarce radio bandwidth while enabling both high data rate personal-area network (PAN) wireless connectivity and longer-range, low data rate applications as well as radar and imaging systems.
3.1.4 Cost-effective : Gi-Fi is based on an open, international standard. Mass adoption of the standard, and the use of low-cost, mass-produced chipsets, will drive costs down dramatically, and the resultant integrated wireless transceiver chip which transfers data at high speed low power at low price $10 only. which is very less As compare to present systems .As go on development the price will be decreased. 3.1.5 Small Size : Fig.3- Gigabit wireless: The Gi-Fi integrated wireless transceiver chip developed at the National ICT Research Centre, Australia. — The chip, just 5mm per side, has a tiny 1mm antenna and uses the 60GHz ‘millimeter-wave’ spectrum. 3.1.6 Quick Deployment : Compared with the deployment of wired solutions, Wi-MAX requires little or no external plant construction. For example, excavation to support the trenching of cables is not required. Operators that have obtained licenses to use one of the licensed bands, or that plan to use one of the unlicensed bands; do not need to submit further applications to the Government. Once the antenna and equipment are installed and powered, Gi-Fi is ready for service. In most cases,
deployment of Gi-Fi can be completed in a matter of minutes, compared with hours for other solutions. 3.2 Other features: High level of frequency re-use enabled – communication needs of multiple customers within a small geographic region can be satisfied It is also highly portable-we can construct where ever we want. It deploys line of sight operation having only shorter coverage area, it has more flexible architecture. 3.3 Gi-Fi Access Devices: Fig.4 – Access Devices This figure shows some of the different types of Gi-Fi access devices. This diagram shows that access devices include network termination units, internal radio modules, network interface cards, printers, PC’s, all house hold electronic appliances on communication devices.
4.1.2 Office Appliances: Fig.6 – Office Appliances As it transfers data at high speeds which made work very easy, it also provides high quality of information from internet. 4.1.3 Video information transfer: By using present technologies video swapping takes hours of time, whereas by this we can transfer at a speed of Gbps. Fig.7 – Information Transfer Data transfer rate is same for transfer of information from a PC to a cell or a cell to a PC. It can enable wireless monitors, the efficient transfer of data from digital camcorders, wireless printing
of digital pictures from a camera without the need for an intervening personal computer and the transfer of files among cell phone handsets and other handheld devices like personal digital audio and video players. 4.1.4 Inter-vehicle communication system: Fig.8 - Inter-vehicle communication system 4.1.5 Media access control (MAC) and imaging and others: Fig.9 - MAC and imaging and others
Within five years, we expect Gi-Fi to be the dominant technology for wireless networking. By that time it will be fully mobile, as well as providing low-cost, high broadband access, with very high speed large files swapped within seconds which will develop wireless home and office of future. If the success of Wi-Fi and the imminent wide usage of Wi-Max is any indication, Gi-Fi potentially can bring wireless broadband to the enterprise in an entirely new way.
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