== Wideband Channel Sounding with USRP X310s == === Description === Channel sounding is the process of evaluating the characteristics of a radio environment. Evaluating the power delay profile (PDP) of a radio channel helps in developing statistical models for channel simulation. This tutorial demonstrates how to use the RFNoC channel sounder design for obtaining the PDP of channels up to 100MHz wide. An FPGA correlator module computes real time correlation power, and an averaging module, averages contiguous sets of PDP over time, and sends the result to host CPU. This design is compatible with 3rd generation Ettus USRP devices. This tutorial uses USRP X310s on ORBIT grid. === Prerequisites === In order to access the test bed, create a reservation and have it approved by the reservation service. Access to the resources is granted after the reservation is confirmed. Please follow the process shown on [wiki:cosmos_workflow the COSMOS work flow page] to get started. === Resources required === 2 host nodes and 2 USRP X310s are required for this experiment. USRP X310 devices in ORBIT grid are located in the massive MIMO mini-racks [https://www.orbit-lab.org/wiki/Hardware/bDomains/aGrid#Massive-MIMOmini-racks]. === Execution === ==== Prepare the host nodes ==== Determine the set of nodes that you're using. If you have a topology assigned, it will be entered in the form "system:topo:group-red" for example. * Load channel-sounder.ndz on a pair of nodes {{{#!shell-session prasanthi@console.grid:~$ omf load -i channel-sounder.ndz -t node19-1,node20-1 }}} or if you were assigned a topology, {{{#!shell-session prasanthi@console.grid:~$ omf load -i channel-sounder.ndz -t system:topo:group-red }}} * Turn the nodes on {{{#!shell-session prasanthi@console.grid:~$ omf tell -a on -t node19-1,node20-1 }}} or {{{#!shell-session prasanthi@console.grid:~$ omf tell -a on -t system:topo:group-red }}} * Check the status {{{#!shell-session prasanthi@console.grid:~$ omf stat -t node19-1,node20-1 }}} or {{{#!shell-session prasanthi@console.grid:~$ omf stat -t system:topo:group-red ----------------------------------------------- Node: node19-1.grid.orbit-lab.org State: POWERON Node: node20-1.grid.orbit-lab.org State: POWERON ----------------------------------------------- }}} * ssh to the nodes {{{#!shell-session prasanthi@console.grid:~$ ssh root@node19-1 }}} ==== Prepare the USRPs ==== * Pick 2 USRP X310s from the MIMO racks 23-1...8, 23-11...18, 24-1...8, 24-11...18. If you are using a topology, USRPs are assigned by default. For example, group-red uses 23-16 as TX and 24-16 as RX. * Check if USRPs have the modules required for the experiment by running uhd_usrp_probe on each on of them. {{{#!shell-session root@node19-1:~# uhd_usrp_probe --args="addr=10.10.23.16" | | _____________________________________________________ | | / | | | RFNoC blocks on this device: | | | | | | * DmaFIFO_0 | | | * Radio_0 | | | * Radio_1 | | | * DDC_0 | | | * DUC_0 | | | * Corrmag63avg8k_0 | | | * Spreader_0 | | | * SpecSense2k_0 | | | * FIFO_0 | | | * FIFO_1 }}} If you see the above at the end of uhd_usrp_probe output, the USRPs are ready. Spreader_0 is used to spread the transmit signal, and Corrmag63avg8k_0 is the correlator on the receive side. * If not, load the required image using uhd_image_loader {{{#!shell-session root@node19-1:~# uhd_image_loader --args="addr=10.10.23.16,type=x300" --fpga-path=""spreader_corr_specsense_uhd_3_14.bit" }}} ==== Set up web based streaming ==== * Set up a web proxy for the receive node Use run-websock command to set up the proxy (this is required for remote web based streaming) {{{#!shell-session prasanthi@console.grid:~$ run-websock 5100 10.10.20.1:5100 --daemon WARNING: no 'numpy' module, HyBi protocol will be slower WebSocket server settings: - Listen on :5100 - Flash security policy server - No SSL/TLS support (no cert file) - Backgrounding (daemon) }}} ==== Run the experiment * Start transmit application on the TX node. If you were assigned a group, the command below will start the application on the assigned TX USRP, with a bandwidth of 100MHz. {{{#!shell-session root@node19-1:~# /root/uhd/host/build/examples/rfnoc_tx_mobicom --group red }}} The same application can be run by passing different command line parameters as shown below {{{#!shell-session root@node19-1:~# /root/uhd/host/build/examples/rfnoc_tx_mobicom --args"addr=10.10.23.16,type=x300,skip_ddc,skip_duc" --freq 3e9 --gain 20 --duc-args="input_rate=50000000.0,output_rate=200000000.0" }}} * Start receive application on the RX node. If you were assigned a group, the command below will start the application on the assigned RX USRP {{{#!shell-session root@node20-1:~# ./uhd/host/build/examples/rfnoc_rx_mobicom --group red }}} or the following could be used, when not using a topology {{{#!shell-session root@node20-1:~# ./uhd/host/build/examples/rfnoc_rx_mobicom --args"addr=10.10.24.16,type=x300,skip_ddc,skip_duc" --freq 3e9 --gain 10 --ddc-args="output_rate=50000000.0,input_rate=200000000.0" }}} * Download channel_sounding_display.html attached to this tutorial and open it in your browser. Once you click the start button, you should see PDP of the channel. || [[Image(group_red_pdp.jpg)]]||