S


Index


[SYMBOL] [A] [B] [C] [D] [E] [F] [G] [H] [I] [J] [L] [M] [N] [O] [P] [Q] [R] [S] [T] [U] [V] [W] [X] [Z]

S-parameters, antennas
Sadler, Brian M.
Safaai-Jazi, Dr. Ahmad
safe operating active region. [See SOAR]
Saleh-Valenzuela Channel model
     simulation
     small-scale channel modeling
sampling bridge circuit. [See SBC]
sampling issues, measuring UWB signal propagation
sampling oscilloscope, development in 1960s
sanity checking, simulation development
SAW (surface acoustic wave) devices
SBC (sampling bridge circuit)
scalar frequency domain measurement
scalar network analyzer. [See SNA]
scatterers, transient responses
scatternet (Bluetooth)
     formation algorithm
     hierarchical topologies
Scholtz monocycle generator
Scholtz, Robert, multiple access technique for UWB communication systems
Security, IEEE 802.15.3/3a standard
selection criteria, IEEE 802.15.3a PHY standard
SEM (singularity expansion model)
semi-analytic simulation techniques 2nd
session layer (network protocols)
shadowing, large-scale channel modeling
SiGe technology, PulsOn chips
signal amplification
signal generators, I-UWB
     avalanche pulse generators
     pulse circuits suitable for integrated circuits
     SRDs (Step Recovery Diodes)
     tunnel diode pulsers
signal-to-interference plus noise ratio. [See SINR]
signal-to-interference ratio. [See SIR]
signal-to-noise ratio. [See SNR]
signals (UWB). [See UWB signals]
simple matched filter performance, CD receivers
     A-PAM modulation
     PPM modulation
simulation (UWB propagation) 2nd
     component simulation
         antenna effects
         pulse generation and modulation
         signal amplification
         UWB channels
     development
     discrete event simulation techniques
         entities
         events
         normal operation
         simulation development
         simulation performance considerations
         simulation sample
     electromagnetic simulation
         comparison of simulation results
         organization of electromagnetic simulator
         transmitting and receiving antennas
         UWB channel simulation
     FH receivers
     MC-UWB simulation
     Monte Carlo simulation techniques
     semi-analytic simulation techniques
     unique features of UWB
         development challenges
         direct/quadrature signal decomposition
         model development
single hop communication
single Poisson model, small-scale channel modeling
single pulse detection, LED receivers
singularity expansion model. [See SEM]
SINR (signal-to-interference plus noise ratio), realistic RAKE receivers
sinusoidal Gaussian pulse
SIR (signal-to-interference ratio)
site-specific modeling
slaves. [See ordinary nodes]
sleep modes (data link layer standard)
Slotted Aloha (contention-based MAC scheme)
small-scale channel modeling 2nd
     D-K model
     amplitude statistics
     channel impulse response
     effect of model parameters
     modified Poisson model
     Saleh-Valenzuela model
     split-Poisson model
     STDL (stochastic tapped-delay line) model
     summary of measurement campaigns
SNA (scalar network analyzer)
snap off diodes. [See SRDs]
snooze modes (data link layer standard)
SNR (signal-to-noise ratio)
SOAR (safe operating active region)
Software Radio: A Modern Approach to Radio Engineering (Reed)
solution space, IEEE 802.15.3a PHY standard
Soviet Union developments, history of UWB signals
spanning tree topologies
spatial behavior, statistical modeling
     spatial correlation
     spatial fading
     spatial fading of significant components
     two-dimensional channel model for indoor propagation
specialized applications for UWB
spectral encoded UWB communication system 2nd
spectral mask, FCC restrictions on UWB operations
Sperry Rand Corporation developments
split-Poisson model, small-scale channel modeling
spread spectrum techniques
square pulse avalanche pulse generator
SRDs (Step Recovery Diodes)
standards (UWB standards for WPANs)
     DS-UWB PHY
         acquisition
         architecture
         overview
         performance
         simultaneously operating piconets
     IEEE 802.15.3/3a MAC
         data communication between DEVs
         interference mitigation
         piconets
         power management
         security
         superframe and channel time management
     IEEE 802.15.3a PHY
         channel model
         link budget
         overview of solution space
         selection criteria
     MB-OFDM PHY
         acquisition
         architecture
         performance
         proposal
         simultaneously operating piconets
starting piconets, IEEE 802.15.3/3a standard
statistical modeling (channel modeling)
     D-K model
     impact of frequency distortion
    large-scale channel modeling
         better than free-space propagation
         free-space path loss modeling
         frequency dependent models
         impact of antennas
         link budget calculations
         non-free-space environments
         partition dependent approaches
         receiver-dependent path loss models
         shadowing
         studies
     small-scale channel modeling
         amplitude statistics
         channel impulse response
         effect of model parameters
         modified Poisson model
         Saleh-Valenzuela model
         single Poisson model
         split-Poisson model
         STDL (stochastic tapped-delay line)
         summary of measurement campaigns
     spatial behavior
         spatial correlation
         spatial fading
         spatial fading of significant components
         two-dimensional channel model for indoor propagation
     unique features of UWB systems
STDL model (stochastic tapped-delay line)
Step Recovery Diodes. [See SRDs]
steps in simulation development
stochastic tapped-delay line model. [See STDL model]
stopping piconets, IEEE 802.15.3/3a standard
studies
     case studies
         802.15.3/3a devices
         802.15.4a devices
         Aether Wire and Location, Inc., localizers
         MSSI products
         RAKE receivers
         TDC-PulsON chipset
         XSI/Motorola Trinity Chipset
     large-scale channel modeling
     propagation
super regenerative I-UWB receiver, LED receivers
super-master nodes, hierarchical topologies
surface acoustic wave devices. [See SAW devices]
surveillance systems, EIRP limits 2nd
Swami, Dr. Ananthram
Sweeney, Dr. Dennis
synchronization, I-UWB receivers
system model, I-UWB receivers



An Introduction to Ultra Wideband Communication Systems
An Introduction to Ultra Wideband Communication Systems
ISBN: 0131481037
EAN: 2147483647
Year: 2005
Pages: 110

flylib.com © 2008-2017.
If you may any questions please contact us: flylib@qtcs.net