PHY Modeling

Physical layer options, parameterization, and waveform generation

WLAN Toolbox™ provides functions for modeling 802.11™ physical layer processing. Format configuration objects are used to parameterize these functions and to create WLAN waveforms compliant with IEEE® 802.11 standards.


Wireless Waveform GeneratorCreate, impair, visualize, and export modulated waveforms


expand all

wlanHEMUConfigCreate HE-MU-format configuration object
wlanHESUConfigCreate HE-SU-format configuration object
wlanDMGConfigCreate DMG-format configuration object
wlanS1GConfigCreate S1G-format configuration object
wlanVHTConfigCreate VHT-format configuration object
wlanHTConfigCreate HT-format configuration object
wlanNonHTConfigCreate non-HT-format configuration object
wlanHERecoveryConfigCreate HE recovery configuration object
wlanRecoveryConfigCreate data recovery configuration object


expand all

ruInfoReturn HE format resource unit allocation information
getPSDULengthReturn HE format PSDU length
packetFormat Return WLAN packet format
phyType Return DMG PHY modulation type
showAllocationShow resource unit (RU) allocation
wlanAPEPLengthCalculate APEP length in octets
wlanPSDULengthCalculate PSDU length in octets
wlanWaveformGeneratorGenerate WLAN waveform
wlanSampleRateReturn nominal sample rate
wlanScrambleScramble and descramble binary input sequence
wlanConstellationMapConstellation mapping
wlanConstellationDemapConstellation demapping
wlanBCCInterleaveInterleave binary convolutionally encoded input
wlanBCCDeinterleaveDeinterleave binary convolutionally interleaved input
wlanStreamParseStream-parse binary input
wlanStreamDeparseStream-deparse binary input
wlanSegmentParseBitsSegment-parse data bits
wlanSegmentDeparseBitsSegment-deparse data bits
wlanSegmentDeparseSymbolsSegment-deparse data subcarriers
wlanSegmentParseSymbolsSegment-parse data subcarriers
wlanBCCEncodeConvolutionally encode binary data
wlanBCCDecodeConvolutionally decode input data
wlanGolaySequenceGenerate Golay sequence


Waveform Generation and Reception


Learn about HE waveform generation and simulation.


Build DMG PPDUs by using the waveform generator function.

Build S1G PPDU

Build S1G PPDUs by using the waveform generator function.


Build VHT PPDUs by using the waveform generator function or by building each field individually.


Build HT PPDUs by using the waveform generator function or by building each field individually.

Build Non-HT PPDU

Build non-HT PPDUs by using the waveform generator function or by building each field individually.

Generate Multi-User VHT Waveform

Generate a multiuser VHT waveform from individual components.

Basic VHT Data Recovery Steps

Perform basic VHT data recovery.


Mapping 802.11 Standards to WLAN Toolbox Configuration Objects

The mapping between 802.11 standards, packet formats, and WLAN Toolbox functions is outlined here.

WLAN Parameterization

Describes configuration objects defined in WLAN Toolbox.

WLAN Packet Structure

Describes the WLAN packet structures you can model using WLAN Toolbox.

Packet Size and Duration Dependencies

Discuss properties that determine packet size and duration constraints.

Processing Chain

Transmit-Receive Chain

Describes transmit - receive processing chains you can model using WLAN Toolbox.

Featured Examples