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phy modeling -凯发k8网页登录

waveform generation and analysis, signal recovery, physical layer parameterization and processing

bluetooth® toolbox features and reference examples enable you to model bluetooth basic rate/enhanced data rate (br/edr) and low energy (le) physical layer (phy) processing based on bluetooth core specification 5.3.

use the phy modeling capabilities of the toolbox to:

  • configure a bluetooth br/edr and le channel.

  • generate and visualize bluetooth br/edr and le waveforms.

  • decode bluetooth br/edr and le waveforms using the ideal receiver. the ideal receiver assumes perfect synchronization and enables you to demodulate and decode synchronized time-domain bluetooth waveforms.

  • you can also decode the captured signals or the signals received in real time using software-defined radio (sdr) hardware such as the adalm-pluto radio.

  • compute the packet error rate (per) and bit error rate (ber) values for the bluetooth br/edr and le waveforms.

bluetooth br/edr transmission and reception using adalmp-pluto

apps

create, impair, visualize, and export bluetooth le waveforms
create, impair, visualize, and export bluetooth br/edr waveforms

functions

generate bluetooth br/edr phy waveform
decode bluetooth br/edr phy waveform
generate bluetooth le phy waveform
decode bluetooth le phy waveform
perform iq sampling on cte field of bluetooth le packet
compute bluetooth br/edr or le packet duration

objects

bluetooth br/edr waveform generator configuration parameters
bluetooth br/edr phy configuration parameters
whiten or dewhiten input data bits

topics


  • differentiate between the bluetooth br/edr and bluetooth le protocol stack.


  • explore the bluetooth br/edr and bluetooth le packet structures.


  • generate a bluetooth le waveform and add radio frequency (rf) impairments.


  • generate and attenuate bluetooth br/edr waveform in an industrial environment.

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