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Transcript of HiperLan
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HIPERLAN
By: Vikas Gehlot
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What is HIPERLAN?
HIPERLAN - HIgh PErformance Radio LANHIPERLAN is a new standard for Radio
LANs developed in Europe by ETSIHIPERLAN is an interoperability standard
which specifies a common air interface MAC and PHY layers in OSI modelHIPERLAN will be a family of standardsHIPERLAN 1 is described in detail
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HIPERLAN - reference model
Medium Access Control(MAC) Sublayer
Channel Access Control(CAC) Sublayer
Physical (PHY) Layer
Application Layer
Presentation Layer
Session Layer
Transport Layer
Network Layer
Data Link Layer
Physical Layer
higher layer protocols
OSIReference Model
HIPERLANReference Model
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Early wireless LANs operating in theISM bands (900MHz and 2.45GHz)Low data rate (~1Mbps) - an indirect result of the FCC spread spectrum rules part 15.247Severe interference environment - from unlike wireless LANs and other ISM band systemsLack of standards - IEEE 802.11 was initiated to satisfy this need but it was taking time to develop ETSI set up RES10 to develop a standard that would be equal in performanceto wired LANs such as Ethernet
Origins of HIPERLAN
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HIPERLAN 1 - history
ETSI set up RES10 group - mid 1991 RES10 start work on standard - early 1992 CEPT allocate spectrum - early 1993 RES10 complete draft standard - mid 1995 ETSI publish final standard - late 1995 RES10 start work on type approval - early 1996 HIPERLAN passes public enquiry - mid 1996
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HIPERLAN 1 - spectrum
CEPT identified vacant spectrum at 5GHz5.00-5.25GHz was allocated worldwide
to aviation authorities on a primary basis for MLS but only 5.00-5.15GHz was usedCEPT allocated 5.15-5.25GHz to
HIPERLAN on a secondary basis with its status as non-interference, non-protectedAn extension of the band from 5.25-
5.3GHz is available in most countries
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HIPERLAN - applications
Early ideas
with infrastructure without infrastructure
Others include - many vertical applications, wireless docking,public access to the NII, home networks
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Short range - 50mLow mobility - 1.4m/sNetworks with and without infrastructureSupport isochronous trafficaudio 32kbps, 10ns latencyvideo 2Mbps, 100ns latencySupport asynchronous trafficdata 10Mbps, immediate access
HIPERLAN 1 - requirements
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High transmission rate - 23.5294MbpsModulation - non diff GMSK, BT = 0.3Error control - FEC, BCH(31,26)Packet failure rate - 0.01 (4160 data bits)Low transmission rate - 1.470588MbpsModulation - FSK, freq dev = 368kHzChannelisation - 5 channels, 5.15-5.30GHzTransmit power - +10, +20, +30dBmReceive sensitivity - -50, -60, -70dBm
HIPERLAN 1 PHY - specifications
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HIPERLAN 1 PHY - packets
SYNCH SEQUENCE450bits
DATA BLOCK496 bits
LOW RATE HEADER35bits (560bits)MAC HEADER DATA BLOCK
496bits
LOW RATE 1.5Mbps HIGH RATE 23.5Mbps
DATA PACKET
ACK PACKET
LOW RATE ACK23bits (368bits)
NO MAC HEADERIMMEDIATE TRANS
LOW RATE 1.5Mbps
1-47 BLOCKS
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HIPERLAN 1 - modem optionsco
mpl
exity
performance
DIFF DET
COHERENT DEMOD
ADVANCED DIVERSITY
DFE
MLSE d
ock
ing
roo
m
floo
r
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A HIPERLAN can only use one ChannelThere is no mechanism for changing channelAntenna diversity an option but...Must use same antenna for CCAand transmission for correct MAC functionMust reduce transmit power by antenna gainto maintain EIRP as specified by CEPTPower saving with...Low rate header for modem power savingPower saving cycle strategies sleep/wake modes
HIPERLAN 1 PHY - quirks
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Fully distributed MACNetworks with and without infrastructurePermits multi-hop relaying via neighboursBased on LBT - uses CCAwith adaptive threshold EY-NPMA - Elimination Yield Non-pre-emptive Multiple AccessPrioritiy assertion using listen-talkContention resolution using talk-listenImmediate packet acknowledgment
HIPERLAN 1 MAC - concept
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HIPERLAN 1 MAC - hidden nodes
tx
rxcommunication
range
sense/interferencerange
MAC avoids this
tx
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HIPERLAN 1 MAC - function
Station 1
Station 2
Station 3
Station 4
Time
data packet
stops
stops
stops
prioritisation contention transmission
Listen
Talk
Listen
Listen
Listen
Talk
Talk
Talk
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Prioritisation1-5 slots of 168bits (talk)ContentionElimination - 0-12 slots of 212bits (talk),1 slot of 256bits (listen), prob(talk-listen) = 0.5Yield - 0-9 slots of 168bits (listen), prob(n) = 0.1Tx to Rx turn around time 6s256 contenders, 3.5% collision probabilityTotal of 0-5152bits (0-219s) MAC header
HIPERLAN 1 MAC - phase
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Priority is a function of lifetime and user priority
HIPERLAN 1 MAC - priority
NORMALISEDRESIDUAL LIFETIME
HIGH USER
DEFINED PRIORITY
LOW USER
DEFINED PRIORITY
NRL < 10ms 0 110ms < NRL<
20ms1 2
20ms < NRL < 40ms
2 340ms < NRL <
80ms3 4
NRL > 80ms 4 4
If lifetime expires packet is discarded in the MAC
Either best effort latency for isochronous traffic
Or best effort integrity for asynchronous traffic
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Simulations show that the HIPERLAN MAC can simultaneuosly support25 audio links @ 32kbit/s, 10ms delivery 25 audio links @ 16kbit/s, 20ms delivery1 video link @ 2Mbit/s, 100ms deliveryAsynch file transfer @ 13.4Mbit/s
HIPERLAN 1 MAC - performance
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Two European collaborative projectsLAURA - not fully standards compliantDemonstrated some conceptsNo ASICs developedHIPERION - fully standards compliantASICs designed for...RF MCM with GaAs and Si by GPSModem, Codec, D/A, A/D by AppleMAC controller by ARM
HIPERLAN 1 - testbeds
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HIPERLAN 2 - WATM
Idea is to be compatible with ATM– Support QoS guarantees– Efficiently handle ATM cells
Requires additional spectrum in EuropeSharing rules under development by
WINForum for NII/SUPERNET bandin the US aim to support
– HIPERLAN 1 and HIPERLAN 2This effort involves interaction between
– ETSI RES10, WINForum, ATM Forum
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HIPERLAN family (ETSI RES10)
DLC
PHY(5 GHz)
20 + Mb/sec
MAC
PHY(5 GHz)
20 + Mb/sec
HIPERLANType 1
Wireless LAN
HIPERLANType 2
Wireless ATMIndoor access
DLC
PHY(17 GHz)
150 + Mb/sec
HIPERLANType 4
Wireless ATMInterconnect
PHY(5 GHz)
20 + Mb/sec
DLC
HIPERLANType 3
Wireless ATMRemote Access
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HIPERLAN vision (ETSI RES10)
ATMpremisesswitch
Other networks
Otherlocalconnections
wirelessaccesspoint
wirelessaccesspoint
wirelessaccesspoint
5 GHz HIPERLAN Type 1
5 GHz Type 2
5 GHz Type 2 5 GHz Type 1
17 GHz, Type 4
5 GHz Type 3
wirelessterminationpoint
localconnections