Perform basic VHT data recovery. It also shows how to recover VHT data when the received signal has a carrier frequency offset. Similar procedures can be used to recover data with the HT and
Build non-HT PPDUs by using the waveform generator function or by building each field individually.
How the performance of an IEEE® 802.11ac™ link can be improved by beamforming the transmission when channel state information is available at the transmitter.
Build HT PPDUs by using the waveform generator function or by building each field individually.
Create a basic WLAN link model using WLAN System Toolbox™. An IEEE® 802.11ac™ [ 1 ] VHT packet is created, passed through a TGac channel. The received signal is equalized and decoded in order to
Generate a multi-user VHT waveform from individual components. It also shows how to generate the same waveform by using the wlanWaveformGenerator function. The data fields from the two
Build VHT PPDUs by using the waveform generator function or by building each field individually.
The transmit and receive processing for a 802.11ac™ multi-user downlink transmission over a fading channel. The example uses linear precoding techniques based on a
Simulate an IEEE® 802.11n™ HT link in Simulink® with WLAN System Toolbox™.