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WINDFLEX

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TC code rate. OFDM constellation size (same for all subcarriers) Weak Subcarrier Excision (WSCE) ... Free space losses have been subtracted ... – PowerPoint PPT presentation

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Title: WINDFLEX


1
WIND-FLEX A flexible high bit rate modem
architecture for next generation short-range
wireless networking
2
WIND-FLEX A joint European-wide effort
  • Industry
  • PHILIPS
  • INTRACOM
  • ACORDE
  • Research Centers
  • VTT
  • CEFRIEL
  • Universities
  • University of Cantabria
  • Technical University of Dresden
  • University of Rome
  • University of Athens
  • Poznan University of Technology

20 persons per year Jan2000-Jun2003 10 partners
3
WIND-FLEX objectives
  • Definition of a 17 GHz radio system architecture
    for broadband (64 kbps - 100Mbps) indoor
    (office/home) applications
  • scope encompassing radio interface specifications
    (i.e. Physical, Baseband, MAC/DLC layers)
  • Definition of a flexible radio interface
    architecture
  • flexible control algorithms and real time
    reconfigurable baseband and MAC/DLC schemes allow
    adaptive optimization of radio interfaces

WIND FLEX
4
WIND-FLEX main characteristics
17GHz RF OFDM-based Very high bit rate Adaptive
5
(No Transcript)
6
WIND-FLEX throughput
7
WIND-FLEX cluster
Full-meshed Network
  • The Master coordinates the medium access in the
    cluster, granting an efficient sharing of the
    radio channel
  • The Slave when associated to the cluster, can
    establish a direct connection to exchange data
    traffic with any other device

A
E
C
D
B
Master
Slave
No hardware or software differences among the
devices
The Master election protocol is periodically
repeated with period D, with D small enough to
take into account the mobility of the devices
(also repeated whenever the network topology
changes significantly)
8
Flexibility/Adaptability/Reconfigurability (FAR)
  • Flexibility is defined as an umbrella concept,
    encompassing multiple orthogonal features
  • Flexibility adaptivity reconfigurability
    modularity
  • A system is called adaptive if it can respond to
    changes by properly altering the numerical value
    of a set of parameters. It is reconfigurable if
    it can be rearranged, at a structural or
    architectural level.
  • Notes
  • for adaptivity, numerical change is meant to be
    gradual
  • architectural implies change of heterogeneous
    elements, such as in sw/hw partitioning
    structural is a change of homogeneous elements,
    such as going from a turbo to a convolutional code

9
FAR Supervisor
  • Fitting QoS requirements from the MAC layer,
    given current channel conditions and traffic
    load, with the minimum transmitted/processing
    power

Turbo Enc
OFDM Mod
HPA
IFFT size WSCE positions constellation
IFFT size TC code rate
TX power
SUPERVISOR
MAC
Channel condition
Turbo Dec
LNA
OFDM Demod
signalling
10
BB FAR features
  • Adaptivity at the physical layer
  • Keep the slot (symbol) and frame length fixed,
    and vary
  • TC code rate
  • OFDM constellation size (same for all
    subcarriers)
  • Weak Subcarrier Excision (WSCE)
  • Minimum TX power required
  • Minimize processing power
  • Reconfigurability at the physical layer
  • Minimize processing power
  • Parametric FFT length (N) and clock frequency as
    a function of QoS
  • Change from Turbo coding to Convolutional coding
    or with no coding as a function of QoS

11
Channel model creation process
  • Typical office/home scenario
  • Materials brick, glass, soft internal walls,
    wooden surfaces
  • From simulations, PDP with 3 ns resolution were
    adjusted into a bins model
  • Bin size chosen half of the transmitted pulse
    duration and place in the temporal axis
  • Ti TPROP (i-½)TBIN i
    1,2,,NBINS
  • Free space losses have been subtracted

12
IF Section
13
RF Section
  • Output Frequency 17.1-17.3 GHz
  • Low Noise Figure 2.9 dB
  • Low phase noise
  • Design of special mechanical boxes, for high
    gain MMIC devices
  • Own power supply, whole power consumption lower
    than 5 W
  • Two antenna models
  • Single patch, 3 dB Gain, directional
  • Six-faced structure, three patches per face, 3dB
    Gain, omnidirectional

14
WIND-FLEX concept
15
Strengths Time advantage! Backward compatible
and promising concept for the future No harmful
interference to other wireless systems
Weaknesses (?) Cost of 17GHz RF front-end
interface Global approval of 17GHz frequency
Threats UWB (Ultra wideband) competing technology
16
  • Next steps
  • Demonstrate complete system, make extensive tests
    and refine specifications
  • Get a business ownership and make it a standard

WIND-FLEX is a big opportunity for Semiconductor
and Component companies to lead and shape Next
Generation Networking ICs and modules market
17
WIND-FLEX A flexible high bit rate modem
architecture for next generation short-range
wireless networking
Contacts
  • Ilkka Saarinen, WIND-FLEX Project Manager,
    Ilkka.Saarinen_at_vtt.fi
  • Aarne Mämmelä, Research Professor, VTT
    Electronics, Finland, Aarne.Mammela_at_vtt.fi

More information http//www.vtt.fi/ele/research/e
ls/projects/windflex.htm
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