Advantages And Disadvantages Of Wireless Internet

Advantages And Disadvantages Of radio talk InternetWireless Internet is likewise called Wireless Web, alert Internet, and Internet Wireless.Wireless Internet means access the cyberspace through a radio receiver devices, For Example laptop, cellular telephone , PDA, etc , Using Wireless internet some(prenominal) person dirty dog do their daylight today activities like e-mail, e-banking, communication, conferencing, etc.., In addition to that can be accessed weather and travel nurture, etc any where any time.Advantages of radio set InternetFast installationEfficient handling of resourcesLess susceptible to disruptionCapacity can be added, removed or reallocated more(prenominal) easilyTo enable users to bring their own laptop, therefore reducing the cost of owning many PCs.To enable you to easily move PCs.Disadvantages of radio set InternetCost applied science is brand-newer and more expensive for some applicationsSpeedRadio Frequency (RF) characteristics makehigh data ge t rid of judge more difficult with wireless than with pumped(p)SecurityWireless signals are relatively easy to interceptFrequency spectrum saturationScope Of The SurveyWhat are the up-to-the-minute wireless internet technologies make up detailed view about each engineering science match each technology by giving advantages disadvantages of themWhat are the new trends of wireless internet and the improvements of them with differentiate to current technologiesCurrent Wireless Internet TechnologiesLEO IEEE 802.11 IEEE 802.16 LMDS 1G-Analoge CellularMEO (WIFI) (WIMAX) MMDS 2G-Digital CellularGSO 2.5/2.75G-(GPRS/EDGE)3G/3.5G spry WiMAX(IEEE 802.16e/m)Detailed view about each technologyMobile Wireless Internet TechnologiesFirst Generation fluid wireless technology (1G)First Generation mobile wireless technology (1G) are analog , voice-only cellular, telecommunications standards, that were Introduced in the 1980s. ace much(prenominal) standard is NMT (Nordic Mobile Telephone), use in Nordic countries, Eastern Europe and Russia. Others include AMPS (Advanced Mobile Phone System) used in the United States, TACS (Total approach shot Communications System) in the United Kingdom, JTAGS in Japan, C-Netz in West Germany, Radiocom two hundred0 in France, and RTMI in Italy.Second generation wireless technology(2G)Second generation mobile wireless technology is based on GSM was launched in Finland in the year 1991, 1G technology use analogue radio signals but 2G technology use digital signals to transfer data,but both technologies connect to the tower utilise digital signals ,In 2G voice call is encoded to digital signals but 1G signals are modulated to higher frequencies like 150 megahertz and up.There are three common technologies used by 2G cell-phone interlockings for transmitting informationTime division ninefold access (TDMA) -GSM,PDC(japan),iDEN(US,Canada),IS-136(US)Code division multiple access (CDMA) -IS-95(US,Asia)2.5G(GPRS)The term 2.5G usually describ es a 2G cellular system combined with General Packet Radio receiptss (GPRS). that means it implements a packet-switched network eye socket in addition to a circuit-switched domain. It can be endure data rates 56 kbit/s-115 kbit/s and overly Services like Wireless operation Protocol (WAP) access, Multimedia Messaging Service (MMS), and for Internet communication services such as email and World Wide Web access.2.75G(EDGE)EDGE specify as GPRS with 8PSK encoding, EDGE was introduced in 2003, EDGE achieves higher data-rates (up to 236.8 kbit/s)Third generation wireless Internet(3G)Third generation mobile wireless technology is based on International Mobile Telecommunications-2000 (IMT-2000), 3G is collection of standards mobile telecommunications which includes UMTS, and CDMA2000 with non-mobile wireless standards DECT WiMAX, Compared to 2G and 2.5G services, 3G allows simultaneous use of speech and data services and higher data rates (at least 200 kbit/s). today 3G systems can provide up to 14.0 Mbit/s download speed and 5.8 Mbit/s upload speed.Mobile WiMax(IEEE 802.16e)Mobile WiMAX or 802.16e standard was introduced by the IEEE in late 2005 as real competitor to 3G technologies, However South Korea elected to take a mobile WiMAX compatible standard called wireless broadband (WiBro) to market. WiBro/Mobile WiMAX uses an OFDMA technology called 1K-FFT. Service for the WiBro/Mobile WiMAX standard is in the 2.3 gigacycle spectrum range at least in Korea. The technology can be easily suitable to other licensed spectrum. Wireless Wide Area Networking TechnologiesWIMAX(Interoperability for Microwave chafe)Wimax is a telecommunications technology that offers transmission of wireless data via a number of transmission methods such as portable or fully mobile internet access via point to multipoints links. The current WiMAX revision provides up to 40 Mbit/s which is based on Standard IEEE 802.16, it in like manner called Broadband Wireless Access and it was fo rmed in Mid June 2001Wireless Local Area Networking TechnologiesWiFiWiFi uses radio waves to provide wireless high-speed Internet and network connections. WiFi is owned by the organization Wi-Fi Alliance, and it is based on IEEE 802.11 standards.802.11a transmits at 5 gigacycle per second and can be provide data rate up to 54 Mb/s and it uses technology orthogonal relative frequency-division multiplexing (OFDM).802.11b is the slowest and least expensive standard which transmits at 2.4 GHz can be provide data rate up to 11 Mb/s and it uses complementary code keying (CCK) modulation to improve speeds.802.11g transmits at 2.4 GHz and it can provide data rates up to 54 Mb/s. 802.11g is faster because it uses the same OFDM coding as 802.11a.802.11n is the newest standard that is widely available and it can achieve data rates up to 140 Mb/s.Fixed Wireless Internet TechnologiesLMDS (Local Multipoint Distribution System)LMDS is a technology for broadband microwave wireless transmission di rect from a local antenna to homes and businesses within distance 1.5 miles (2.4 km) . LMDS offers a download speed up to 1.5 Gb/s and 200 Mb/s upload speed. LMDS commonly operates on frequencies across the 26 GHz and 29 GHz bands. In Europe, (ETSI) is equivalent technology. In Canada, it is called Local Multipoint Communication Service (LMCS) and it is based on IEEE 802.16.1 standards.MMDS(Multichannel Multipoint Distribution Service)MMDS provides digital video- and Internet- (including VoIP) access using various over-the-air microwave frequencies. Services are provided within distance 20 miles or 32 km from the transmit site. MMDS commonly operates on frequencies across the 2 GHz and 3 GHz. The MMDS band was separated into eleven channels and Each channel was unfastened of 10 Mbit/sSatellite wireless internet technologiesCommunication via planet can be done using one or two focus dish. Satellite dish was placed minimizing the interference with other satellites . the dial-up con nection can be used for uploading purposes and the satellite internet connection can be used for downloading data. Mostly, the two-way communication dish is preferred by residential users and small businesses. The two-way internet service is characterized by Time fraction Multiple Access (TDMA) and single channel per carrier (SCPC).There are three satellite constellations,GEO (geostationary earth orbit), LEO (low earth orbit) and MEO (middle earth orbit).low Earth Orbit (LEO) satellite is placed in between 160 2,000 km above the Earths surface.Medium Earth Orbit (MEO), satellite place in between 2,000-35,786 km above the Earth surfaceHigh Earth Orbit(HEO) , satellites place in between 35,786 km above earth surfaceComparison of wireless internet technologiesCompare some wireless internet technologiesStandardBase TechnologyUsageRadio Technologydownload speed(Mb/s)Upload speed(Mb/s)Additional detailsEDGE phylogenesisGSMMobile InternetTDMA/FDD1.90.93GPP Release 7UMTS ,W-CDMAHSDPA,HSU PAHSPA+UMTS/3GSMGeneral 3GCDMA/FDDCDMA/FDD/MIMO0.38414.4560.3845.7622HSDPA widely using today, Typical download rates 2Mbit/s, upload 200 kbit/ HSPA+ download up to 56 Mbit/s.UMTS-TDDUMTS/3GSMMobile InternetCDMA/TDD1616Use 16QAM modulation like HSDPA+HSUPA1xRTTCDMA2000Mobile phoneCDMA0.1440.144EV-DO SucceededWi-Fi802.11(11n)Mobile InternetOFDM/MIMO288.9 can urinate 600 using 40Mhz channel widththroughput and/or spectra efficiency (310km 382kmMobile WiMAX802.16eMobile InternetMIMO-SOFDMA144144WiMAX update to IEEE 802.16m expect download speed up to 1 Gb/s wintry speedsLTEUMTS/4GSMGeneral 4GOFDMA/MIMO/SC-FDMA36080LTE update to LTE-Advanced expect rates of at least 1 Gb/s fixed speeds and 100 Mb/s to mobile usershttp//mobilania.com/articles/wimax/what-is-wimax/Compare throughput of the wireless internet technologiesStandardMaximum Download Speed(Mb/s)Maximum Download Speed(Mb/s)reportageTypical Download Speed(Mb/s)GSM GPRS Class 100.08560.042816 mi0.014GSM EDGE type 20.47360.473616 m i0.034GSM EDGE Evolution1.89440.947216 miUMTS W-CDMA HSDPA14.4000.3840up to 124 mi4.1 (Tre 2007)UMTS W-CDMA HSUPA14.4005.7600up to 124 miUMTS W-CDMA HSPA+42.00022.000up to 124 miUMTS-TDD16.00016.000CDMA RTT 1x0.30720.153618 mi0.125WiMAX 802.16e70.00070.0004 mi10WiFi 802.11a54.00054.000WiFi 802.11b11.00011.00030 m2WiFi 802.11g54.00054.00030 m10WiFi 802.11n200.00200.0050 m40LTE326.486.4Future trends of wireless internetWhy world move towards new wireless technologiesRequirements of the tidy sum are increasing day by day likewise so they need to communicate and get connected with each other and get information at any where any time, that increase the demand for mobile wireless technologies.When the demand increase the major wireless service providers keep on monitor the growth of new mobile wireless technologies. North America, Europe and Asia Pacific total mobile uses in 2010 is expected to grow up to 2500 million and cleverness result be great than 50 percent So to survive from this kind of demand growth, need new wireless technology with higher talent and higher data rates, so world move towards 4G,LTE Advance, IEEE 802.20,IEEE 802.16m technologies.(T.Saito et al ,2009)Trend towards 4G over 3G3G network not compatible with demand of higher data rates so wireless world move towards fourth generation (4G) wireless networks, it result expect to jump out above 100 Mbps data rates and overly high quality video and audio than 3G technology because of 4G networks consist of some advance technologies like Orthogonal Frequency Division Multiplexing (OFDM) and Orthogonal Frequency Division Multiple Access (OFDMA) , 3G networks are based on ITU-T, IMT2000 standards but 4G standards are not outlined yet.OFDM and OFDMA can be used to effectively allocate resources of the network to multiple users. In addition to that 4G is expected to provide higher security and lower data transmission latency than 3G. The emerging 4G go forth be fully packet-switched network. Al l the elements of the network must be digital and also 4G services have some key features like adaptability and dynamism.Throughput of the 3G only greater than 2, but throughput of 4G is greater than 200, moreover operating frequencies of 3G is 900,1800,1900,2100(MHz) but 4G operates on 2-8(MHz) frequency , so data transmission is more high-octane in 4G than 3G, in addition to that signal coverage of 3G technology is greater than or equals 6 miles but in 4G signal coverage is greater than or equals 30 miles.Trend towards IEEE 802.20 -Broadband Wireless Access (MBWA)The IEEE 802.20 is intentional for actualize internet client in vehicle which is moving speed up to 250 Km per hour . IEEE 802.20 supports Qos to give good quality, low-latency services like IEEE 802.16e, and also like IEEE 802.16e its uplink and downlink are synchronous but in 3G uplink and downlink are Asynchronous. IEEE 802.20 is support global roaming facility with the support of 3G, but with compare to IEEE 802.18 e it only support local roaming facility.IEEE 802.20 made up of combining good features of 3G and 1EEE 802.16e and reducing the limitations of them.Trend towards LTE-AdvanceLTE uses Orthogonal Frequency Division Multiple Access (OFDMA) technology to gain good frequency transaction, and also it uses single-carrier FDMA(Frequency division Multiple Access) technology, LTE support Multiple Input Multiple Output( MIMO) technology in order to gain good spectrum usage and increase coverage. LTE also support SU-MIMO(Single User MIMO) and MU-MIMO(Multiple User MIMO) and also LTE support spectrum between 1.4-20 MHz. Latency of the LTE is very low (10-20ms) with compare to other technologies. Low latency is very all-important(a) feature for time critical application like online gaming, etc , And also LTE only use packet switched domain which leads simple protocol architecture.LTE-Advanced can be defined as LTE plus IMT-Advance requirements and it is backward compatible with LTE , With compar e to LTE, LTE-Advanced is support collection of multiple carriers which help to gain higher transmission rate with compare to LTE using multiple frequency blocks each have 20 MHz bandwidth. And also LTE-Advanced is support DFT-S-OFDMA combining with aggregation improves user throughput and uplink capacity. With compare to LTE, LTE advance also support SU-MIMO but will have eight uplink and four downlink which improve user throughput and spectrum usage. LTE advance also introduce relay stations to improve coverage, newly introduced technology for LTE-Advanced is relay stations which expand the signal coverage.When compare Peak Spectrum usage efficiencies(b/s/hz) of LTE and LTE-Advanced, Peak Spectrum usage efficiency of LTE is greater than 5 in downlink and greater than 2.5 in uplink, but Peak Spectrum usage efficiency of LTE-Advanced is greater than 30 in downlink and greater than 15 in uplink. When Consider average spectrum usage efficiencies(b/s/hz), LTE has 1.6-2 spectrum efficie ncy in downlink and 0.66-1.0 in uplink, but in LTE Advanced has 2.4-3.7 Average spectrum efficiency in downlink and 1.2-2.0 in uplink. So Peak and Average Spectrum efficiencies both uplink and downlink in LTE-advance is greater than LTE .Operating Bandwidth of the LTE is 1.4-2.0(MHz) and Operating Bandwidth of LTE-Advanced is greater than 100(MHz), Connection setup delay of the LTE is greater than 100 and, in LTE Advance it is greater than 50, so LTE-Advance is more efficient than LTEBecause of advantages of LTE-Advanced researchers found that world will move towards LTE-Advance technology over LTE.Trend of IEEE 802.16m over IEEE 802.16eCurrent WiMAX technology is based on IEEE 802.16e but next generation WiMAX will follow IEEE 802.16m standard which is extended version of IEEE 802.16e. so it will support basic WiMAX technologies like OFDM, TDMA/FDMA, MIMO, in addition to that, it will be also introduced extended MIMO technologies. IEEE 802.16e is using two antennas to transfer and receive data, but IEEE 802.16e will use 8 antennas to transfer and receive data moreover it will support SU-MIMO technology which help to gain high data transmission rates, furthermore, MU-MIMO, Multi-BS MIMO technologies are macrocosm considered. And also Multi carrier technology is being introduced to support higher throughput. class-conscious frame structure is being included in IEEE 802.16m, which is being consisted of super frames and sub frames to improve spectrum usage efficiency. It is being decided to introduce another new technology is femtocell technology which improve the throughput, in addition to that multihop relay system is supported to the IEEE 802.16m in order to overcome low signal strength in indoor(prenominal) due to the loss of penetration through building, so multihop relay system increase signal strength and that leads wide signal area, high indoor troughput.Future Of WIFIWhen consider the recent history of WIFI in 2009-2010 main target of WIFI was access p oints and laptops, but 2010-2011 it is and it will be mobile devices like mobile phones, PDA , etc, then 2011-2012 main target of WIFI will be consumer electronics like TV, Cameras, etc, 2012-2013 and beyond main target of WIFI will be embedded systems. That is the deployment road map of WIFI, more over current WIFI technologies are IEEE 802.11n and IEEE 802.11w, main purposes of these technologies are Throughput efficiency and security, future WIFI technologies will be IEEE 802.11v, IEEE 802.11s, IEEE 802.11aa, IEEE 802.11ac, IEEE 802.11ad, Main purpose of IEEE 802.11v will be power efficiency, and Main purpose of IEEE 802.11s will be compatible with mesh networking and Main Purpose of IEEE 802aa/802ad will be high throughput.IEEE 802.11v will expect to available to public in end of 2010, IEEE 802.11s and IEEE 802.11aa will be available in 2011, and IEEE 802.11ac/ad will be available 2012 0r beyond .IEEE 802.11s will be capable of using mesh standards, self configure in to multi-ho p wireless technologies where access point from different manufactures. And also IEEE 802.11s support different functional requirements of Applications like, some Applications require large scale high throughput and some require quick setup. IEEE 802.11v Systems to control the clients connect to it which leads to efficient use of system infrastructure so using that can improve performance of the system.ConclusionInternet was introduced early 1980 but it became more popular after 1990, from that day wireless internet technologies have became more and more popular until today, it will be more popular in the future to match with the complex life style of the people , that means when the world develop with other fields, requirements of the man is increasing rapidly when the requirements are increasing, Collection of data, services over data, communication requirements is being increased , so data can be able to access any where any time and also any person can be able connect other peo ple any where any time to exchange ideas, that is why world move towards wireless technologies, because of its mobility, so demand of wireless technology is being increased so existing wireless technologies couldnt bear such a high capacity and cant provide higher data rates and bandwidth.For a solution to that problem we can see how 1G,2G,3G,3GPP LTE, etc like new technologies have introduced and became more popular time to time to satisfy communication and data requirements of developing world, when reading the document can be found out how technology increase and how data rates, capacity, bandwidth has increased according to the improvements of the technology, but performance requirements are not the only reason for introduce new technologies, some people need low cost solutions with fair data rates, for a fashion model WIFI IEEE 802.11b over 802.11a which 80211b is cheaper than 802.11a.Today, demand for the wireless technologies are increasing more rapidly, to survive from that , in future world will move towards 4G,IEEE 802.16m,LTE-Advanced,IEEE 802.20 technologies over current wireless technologies like 3G, LTE, WIFI, WiMAX, etc, because current wireless technologies cannot provide higher capacities and data rates that the world is asking in future.According to the document wireless technologies also have disadvantages like security issues, data rate issues, cost issues over wired technologies, but over that disadvantages, people cannot survive without wireless technologies because of the reasons above mentioned.