Tutorial - RTP Playback over 5G Broadcast

Introduction

The goal of this documentation is to provide a use-case oriented information, i.e., the required steps to setup the 5G-MAG Reference Tools to use an RTP stream which was received via 5G Broadcast [1], processed by the MBMS Modem and played in a third-party media player such as ffplay or VLC.

Background

Real-Time Transport Protocol (RTP)

The Real-Time Transport Protocol (RTP) is a network protocol for delivering audio and video data via unicast or multicast over IP-based networks.

More information can be found in the IETF RTP specification:

RTP: A Transport Protocol for Real-Time Applications

Multimedia Broadcast/Multicast Service (MBMS)

MBMS is a point-to-multipoint service in which data is transmitted from a single source entity to multiple recipients. The MBMS bearer service offers two modes, namely broadcast mode and multicast mode. This use-case focus on the broadcast reception mode (5G Broadcast).

More information about MBMS and the related interfaces and components can be found in the corresponding 3GPP and ETSI specifications:

5G-MAG Reference Tools

Detailed information about the architecture of the 5G-MAG Reference Tools and how the MBMS broadcast mode is implemented can be found on the Wiki pages of the different projects:

Requirements

In order to be able to play an RTP stream which is received by 5G Broadcast, we need to install and run the following components of the 5G-MAG Reference Tools (make sure you have the suggested hardware and OS ready):

Component	Required/Optional	Min version	Description
MBMS Modem	Required	v1.1.1	The MBMS Modem builds the lower part of the 5G-MAG Reference Tools. Its main task is to convert a 5G BC input signal (received either as live I/Q raw data from the SDR or as prerecorded SDR sample file) to multicast IP packets on the output. The MBMS Modem can run as a background process or can be started/stopped manually.
RTP sample recording	Optional (setup requires either a sample recording or a SDR)	/	In order to support application developers as well as 5G-MAG contributors for testing their improvements, ORS captured sample files (“raw data” = digitized I/Q data at LimeSDR Mini output) directly from a 5G BC transmitter.
Software Defined Radio (SDR)	Optional (setup requires either a sample recoding or a SDR)	/	In case you are able to receive 5G Broadcast live signals, you need a Software Defined Radio (SDR) to convert the radio signal to a digitized I/Q data to feed the MBMS modem. A list of working SDRs can be found here
Video Player	Required	/	For playback of the UDP multicast that is exposed by the MBMS modem we need a player that can handle UDP multicast inputs. As part of this tutorial, we will demonstrate playback in the VLC Media Player and ffplay

Basic workflow

As described in Requirements we need the MBMS Modem, the MBMS Middleware and a media player in order to enable playback of HLS content in broadcast mode using the 5G-MAG Reference Tools. The basic interaction and output of these components are illustrated in the Figure below:

Architecture

The output of the SDR or the sample file serves as the input for the MBMS Modem. The MBMS Modem converts the input data to a UDP multicast. The UDP multicast can be played directly in ffplay or VLC.

Installation

Detailed installation instructions can be found in the respective Wiki documentation of the different projects. In order to enable RTP playback via MBMS the following steps are required:

Install the MBMS Modem
Install at least one of the following media players:
- Install VLC
- Install ffplay
Download an RTP sample file or setup an RTP live stream on your transmitting infrastructure.

Running the components

Once all the required components have been installed, we need to sequentially start all of them. Depending on the concrete use case (either a live SDR input or a prerecorded sample file) the concrete calls are slightly different.

Using a prerecorded sample file

This Section provides information on how to run the 5G-MAG Reference Tools using a prerecorded HLS sample file.

MBMS Modem

Follow the detailed instructions on how to configure multicast routing provided here.
Stop and start the MBMS Modem as a service in order to generate or update the required configurations files. Note that this step might be required again after a reboot.
- systemctl stop 5gmag-rt-modem
- systemctl start 5gmag-rt-modem
Since we don’t want to run the MBMS Modem as a service in the background but instead provide a prerecorded sample file, we need to make sure that the service is not running. Calling systemctl stop 5g-mag-rt-modem stops the service.
Start the MBMS Modem with a sample as specified here. It is important to provide the right bandwidth to the MBMS Modem. Consequently, for a 5 MHz bandwidth sample file, the command looks like this: sudo ./modem -f "PathToSample/5MHz_MCS16_1kHz25_RTP_3.5.raw" -b 5.

The final output on the terminal should now look similar to the output below:

modem[10498]: Phy: PSS/SSS detected: Mode FDD, PCI 333, CFO 0.20108362 KHz, CP Extended
modem[10498]: Phy: MIB Decoded. Mode FDD, PCI 333, PRB 25, Ports 1, CFO 0.20108362 KHz, SFN 528
modem[10498]: Decoded MIB at target sample rate, TTI is 5360. Subframe synchronized.
modem[10498]: CINR 20.82 dB
modem[10498]: PDSCH: MCS 5, BLER 0.0, BER 0.0
modem[10498]: MCCH: MCS 2, BLER 0.0, BER 0.0
modem[10498]: MCH 0: MCS 16, BLER 0.0, BER 0.05661512027491409
modem[10498]:     MTCH 0: LCID 1, TMGI 0x00000309f165, 238.1.1.95:40085
modem[10498]:     MTCH 1: LCID 2, TMGI 0x00001009f165, 239.11.4.10:5520
modem[10498]: -----
modem[10498]: CINR 18.12 dB
modem[10498]: PDSCH: MCS 5, BLER 0.0, BER 0.0
modem[10498]: MCCH: MCS 2, BLER 0.0, BER 0.0
modem[10498]: MCH 0: MCS 16, BLER 0.0, BER 0.04579037800687285
modem[10498]:     MTCH 0: LCID 1, TMGI 0x00000309f165, 238.1.1.95:40085
modem[10498]:     MTCH 1: LCID 2, TMGI 0x00001009f165, 239.11.4.10:5520
modem[10498]: -----

Using an SDR card

Todo

Playback

The final playback is similar for both use cases “Using an SDR card” and “Using a prerecorded sample file”.

Playback url

To identify the correct multicast address for playback, navigate to the terminal in which the modem process is running and check the log output. Next to the TMGI information, the multicast addresses are listed:

modem[10498]: CINR 20.38 dB
modem[10498]: PDSCH: MCS 5, BLER 0.0, BER 0.0
modem[10498]: MCCH: MCS 2, BLER 0.0, BER 0.0
modem[10498]: MCH 0: MCS 16, BLER 0.0, BER 0.0468213058419244
modem[10498]:     MTCH 0: LCID 1, TMGI 0x00000309f165, **238.1.1.95:40085**
modem[10498]:     MTCH 1: LCID 2, TMGI 0x00001009f165, **239.11.4.10:5520**
modem[10498]: -----

In this case, we see two addresses, 238.1.1.95:40085 and 239.11.4.10:5520.

ffplay

To play the stream in ffplay run the following steps

Open a new terminal
Start ffplay specifying the address to the multicast stream: ffplay udp://239.11.4.10:5520

The output should look like this:

VLC

It is also possible to use VLC for playback:

Open VLC
Navigate to Media > Open Network Stream
Enter the stream url rtp://@239.11.4.10:5520
Press play

The output should look like this:

Troubleshooting

I/O errors in the MBMS Modem

If you encounter I/O errors in the MBMS Modem, there are a few things to try:

Verify that the correct network interface is used to output the UDP multicast. See https://github.com/5G-MAG/Documentation-and-Architecture/wiki/mbms-modem#multicast-routing
Make sure to start/stop the MBMS Modem as a service before launching it from the build folder:
- systemctl start 5g-mag-rt-modem
- systemctl stop 5g-mag-rt-modem
Try starting the MBMS Modem with sudo rights: `sudo ./modem -f “PathToSample/samplefile.raw” -b 5

References

[1] LTE-based 5G Terrestrial Broadcast