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Midterm 30% Final 40% LAB 15% Assignment 15% Text Book – Designing and Deploying 802.11n Wireless Networks Jim Geier (ciscopress)
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W.lilakiatsakun
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Introduction to Wireless Networks Wireless LAN Markets and Applications Benefits of Wireless Networks Wireless Network Technologies Other Wireless Network Technologies
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Retail – connection between devices (printer /barcode) and computer system
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Warehousing – Wireless Barcode system to support CDC (Central Distributing Center)
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Healthcare
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Video Surveillance
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What else have you thought of wireless applications ?
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Mobility Can move to anywhere Solve some wire problems Connector problems Cable Erosion Install in Difficult-to-Wire Access Remote Area Dangerous area
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Reduced Installation Time Long-term Cost Saving Productivity Gain
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Performance Low Bandwidth High Error Rate Security Broadcast signal Limited Power Consumption Operating on battery
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IEEE 802.11 (WIFI)
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802.11a OFDM (Orthogonal Frequency Division Multiplexing) 5GHz Band 54 Mbps 802.11b DSSS (Direct Sequence Spread Spectrum) 2.4GHz Band 11 Mbps
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802.11g OFDM (Orthogonal Frequency Division Multiplexing) Backward Compatible with 802.11b 2.4GHz Band 54 Mbps for 802.11g 11 Mbps for 802.11b (RTS/CTS used for protection mechanism when 802.11b client try to connect to 802.11b/g access point)
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802.11n MIMO (Multiple Input Multiple Output) Channel bonding and Frame aggregation Support 2.4GHz and 5GHz Backward compatible with 802.11g and 802.11a
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Wi-Fi Alliance is an international, non-profit organization focusing on the manufacturing, marketing, and interoperability of 802.11 WLAN products
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Wi-Fi alliance goals 1 Promote WIFI-certification worldwide by encouraging manufacturers to follow standardized 802.11 processes in the development WLAN products 2 Market Wi-Fi certified product to customers in the home, office and enterprise market
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IEEE 802.16 (WiMAX) High Performance – offer data rate in the megabits per second Medium to long-range operation – offer Kilo meters in range Medium power – similar power requirement as Wi- Fi High to very high cost – Hardwares is more expensive than Wi-Fi
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WiMAX Standard 802.16d – Only fixed wireless 802.16e – Fixed and mobile wireless 802.16m – under development (speed up to 1Gbps) WiBro – Based on 802.16e and has functionality defined by Mobile WiMAX WiMAX Frequency Licensed – 2.5GHz and 3.5GHz Unlicensed – 5.8GHz
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802.15 (Bluetooth) Medium performance – provide 1Mbps (Ver. 1.2) and up to 3Mbps (Ver. 2.0 +EDR (Enhanced Data Rate)) Short to Medium Range – Class3 radios offer 3 feet range, class2 radios(most common) provide 30 feet range and class 1 radios (industrial use) provide 300 feet range Low power – class 2 devices operate at 2.5mW Low cost – 1-2 $ per chip
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802.15 (Bluetooth) 2.4GHz FHSS (Frequency Hopping Spread Sprectrum) 802.15.1 (Initial)/ 802.15.3 (draft –speed up to 20 Mbps) Adhoc networking
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802.15.4 (ZigBee) Short to Medium Range – 30 to 300 feet range Low Power – can operate months to years Low Cost – more cost effective than Bluetooth Low Performance 250 kbps at 2.4GHz 40Kbps at 915MHz 20Kbps at 868 MHz
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Certified Wireless USB USB Implementer Forum (USV-IF) is a non- profit corporation founded by the group of companies that developed the USB (Universal Serial Bus) specification Wireless USB use WiMedia MB-OFDM Ultra-wideband (UWB) radio platform Wireless USB targets 480Mbps at 3 meters /110Mbps at 10meters
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2.5G The first major step in the evolution of GSM networks to 3G occurred with the introduction of General Packet Radio Service (GPRS).GPRS GPRS could provide data rates from 56 kbit/s up to 115 kbit/s. CDMA2000 networks similarly evolved through the introduction of 1xRTT.1xRTT 1xRTT supports bi-directional (up and downlink) peak data rates up to 153.6 kbit/s, delivering an average user data throughput of 80-100 kbit/s in commercial networks.
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It can be used for services such as Wireless Application Protocol (WAP) access, Multimedia Messaging Service (MMS), and for Internet communication services such as email and World Wide Web access.Wireless Application Protocol It can also be used for WAP, SMS & MMS services, as well as Internet access.
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3G the UMTS system, first offered in 2001, standardized by 3GPP, used primarily in Europe, Japan, China (however with a different radio interface) and other regions predominated by GSM 2Gsystem infrastructure. The cell phones are typically UMTS and GSM hybrids. Several radio interfaces are offered, sharing the same infrastructure:UMTS3GPPGSM2G The original and most widespread radio interface is called W- CDMA.W- CDMA The TD-SCDMA radio interface was commercialized in 2009 and is only offered in China.TD-SCDMA The latest UMTS release, HSPA+, can provide peak data rates up to 56 Mbit/s in the downlink in theory (28 Mbit/s in existing services) and 22 Mbit/s in the uplink.HSPA+
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The CDMA2000 system, first offered in 2002, standardized by 3GPP2, used especially in North America and South Korea, sharing infrastructure with the IS-95 2G standard.CDMA20003GPP2IS-95 The cell phones are typically CDMA2000 and IS-95 hybrids. The latest release EVDO Rev B offers peak rates of 14.7 Mbit/s downstream.EVDO
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4G Two 4G candidate systems are commercially deployed: the Mobile WiMAX standard (first used in South Korea in 2006), and the first- release Long Term Evolution (LTE) standard (in Oslo, Norway and Stockholm, Sweden since 2009).Mobile WiMAXLong Term Evolution
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LTE Advanced (Long Term Evolution) Release 10 of LTE is expected to achieve the IMT Advanced speeds. Release 8 currently supports up to 300 Mbit/s of download speeds which is still short of the IMT-Advanced standards.(1 Gbps)
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The Mobile WiMAX (IEEE 802.16e-2005) mobile wireless broadband access (MWBA) standard (also known as WiBro in South Korea) is sometimes branded 4G, and offers peak data rates of 128 Mbit/s downlink and 56 Mbit/s uplink over 20 MHz wide channels.Mobile WiMAXWiBro
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