@@ -181,6 +181,17 @@ where `-r` sets the transmission bandwidth configuration in terms of RBs, `-C` s
...
@@ -181,6 +181,17 @@ where `-r` sets the transmission bandwidth configuration in terms of RBs, `-C` s
Additionally, at UE side `--uecap_file` option can be used to pass the UE Capabilities input file (path location + filename), e.g. `--uecap_file ../../../targets/PROJECTS/GENERIC-NR-5GC/CONF/uecap.xml`
Additionally, at UE side `--uecap_file` option can be used to pass the UE Capabilities input file (path location + filename), e.g. `--uecap_file ../../../targets/PROJECTS/GENERIC-NR-5GC/CONF/uecap.xml`
### Run OAI with SDAP & Custom DRBs
To run OAI gNB with SDAP, simply include `--gNBs.[0].enable_sdap 1` to the binary's arguments.
The DRB creation is dependent on the 5QI.
If the 5QI corresponds to a GBR Flow it assigns a dedicated data radio bearer.
The Non-GBR flows use a shared data radio bearer.
To hardcode the DRBs for testing purposes, simply add `--gNBs.[0].drbs x` to the binary's arguements, where `x` is the number of DRBs, along with SDAP.
The hardcoded DRBs will be treated like GBR Flows. Due to code limitations at this point the max. number of DRBs is 4.
## IF setup with OAI
## IF setup with OAI
OAI is also compatible with Intermediate Frequency (IF) equipment. This allows to use RF front-end that with arbitrary frequencies bands that do not comply with the standardised 3GPP NR bands.
OAI is also compatible with Intermediate Frequency (IF) equipment. This allows to use RF front-end that with arbitrary frequencies bands that do not comply with the standardised 3GPP NR bands.
