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WFB-NG - the next generation of long-range packet radio link based on raw WiFi radio

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WFB-ng

This is the next generation of long-range packet radio link based on raw WiFi radio

Main features:

  • 1:1 map of RTP to IEEE80211 packets for minimum latency (doesn't serialize to byte stream)
  • Smart FEC support (there are many FEC improvements which allow to reduce latency in case of packet loss)
  • Bidirectional mavlink telemetry. You can use it for mavlink up/down and video down link.
  • IPv4 tunnel for generic usage. You can transmit ordinary ip packets over WFB link. Note, don't use ip tunnel for high-bandwidth transfers like video or mavlink because it has more overhead than raw udp streams.
  • Automatic TX diversity (select TX card based on RX RSSI)
  • Stream encryption and authentication (libsodium)
  • Distributed operation. It can gather data from cards on different hosts. So you don't limited to bandwidth of single USB bus.
  • Aggregation of mavlink and tunnel packets. Doesn't send wifi packet for every mavlink or tunnel packet.
  • Dynamic FEC and radio modulation. You can change channel capacity/reliability without link interruption.
  • Full channel state logging including mavlink parser. You can log all telemetry and link state for future offline debug.
  • Support for traffic shaper. You can use standard linux traffic shapers to priority different channels and/or data/fec packets.
  • Enhanced OSD for Raspberry PI (consume 10% CPU on PI Zero) or any other system which supports gstreamer and OpenGL (Linux X11/Wayland, etc). Compatible with any screen resolution.
  • Supported CPU architectues: arm32v7, arm64v8, amd64, mips64le, s390x, ppc64le, i386. I.e. any linux with kernel >= 4.x and usb port.

⚠️ Warranty/Disclaimer
This is free software and comes with no warranty, as stated in parts 15 and 16 of the GPLv3 license. The creators and contributors of the software are not responsible for how it is used. See License and Support for details.

Support project

If you like WFB-ng you can support author via:

Wiki:

See https://github.com/svpcom/wfb-ng/wiki for additional info

Community support:

Telegram group: (wfb-ng support) https://t.me/wfb_ng Please note, that it is only one official group.

Supported WiFi hardware:

Getting Started

For detailed instructions on how to get started read through PX4-Guide and follow the Setup HowTo

Quick start using Raspberry Pi

  • Under Releases download the latest image file (*.img.gz).
  • Unpack the *.img file and flash it to 2-SD Cards.
  • Plug the WiFi Adapters into the Raspberry Pis
  • Boot the Pis and ssh into them using the following command (replace 192.168.0.111 with their IP-Address). Password: raspberry

For putty users don't forget to select: Settings -> Window -> Translation -> Enable VT100 line drawing checkbox before connect.

  • On the Pi used as ground station:
sudo systemctl enable wifibroadcast@gs
sudo systemctl enable rtsp
sudo systemctl enable fpv-video
sudo systemctl enable osd
sudo reboot
  • On the Pi used on the drone:
sudo systemctl enable wifibroadcast@drone
sudo systemctl enable fpv-camera
sudo reboot
  • Done! You should be able to see the video from the FPV camera. To monitor the link use the following command on the ground station:
wfb-cli gs

Quick start using Debian or Ubuntu Ground Station

  • Install patched RTL8812AU or RTL8812EU driver:
sudo apt-get install dkms
# For 8812au:
git clone -b v5.2.20 https://github.com/svpcom/rtl8812au.git
cd rtl8812au/
# For 8812eu:
git clone -b v5.15.0.1 https://github.com/svpcom/rtl8812eu.git
cd rtl8812eu/
# For both:
sudo ./dkms-install.sh
  • Get the name of the WiFi card by running:
ifconfig
  • You should see output similar to:
wlan0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST>  mtu 2312
        ether 0c:91:60:0a:5a:8b  txqueuelen 1000  (Ethernet)
        RX packets 0  bytes 0 (0.0 B)
        RX errors 0  dropped 0  overruns 0  frame 0
        TX packets 0  bytes 0 (0.0 B)
        TX errors 0  dropped 0 overruns 0  carrier 0  collisions 0
  • Run $ ethtool -i wlan0 and ensure that it show right driver: rtl88xxau_wfb or rtl8812eu
  • Copy the name of the RTL8812AU/EU WiFi card.
  • Install wfb-ng. Replace wlan0 with the previously copied name of the WiFi card.
git clone -b stable https://github.com/svpcom/wfb-ng.git
cd wfb-ng
sudo ./scripts/install_gs.sh wlan0
  • Done! To monitor the link use the following command on the ground station:
wfb-cli gs

Failing to get connection?

  1. Check WFB-ng GS logs with sudo journalctl -xu wifibroadcast@gs. If there is any errors then try to resolve it.
  2. If there are any encryption errors then ensure that drone.key and gs.key on drone and gs corresponds each other.
  3. Make sure the WiFi channel and link domain on the ground and on the drone are the same. To check, see /etc/wifibroadcast.cfg and ensure that [common] wifi_channel and [drone] link_domain / [gs] link domain is the same on the ground and on the drone.

FAQ

Q: What type of data can be transmitted using WFB-ng?

A: Any UDP with packet size <= 3993. For example x264/265 inside of RTP, Mavlink or generic IPv4 via tunnel.

Q: What are transmission guarantees?

A: WFB-ng uses FEC (forward error correction) which can recover 4 lost packets from 12 packets block with default settings. You can tune it to fit your needs.

Q: Is only Raspberry PI supported?

A: WFB-ng is not tied to any GPU - it operates with UDP packets. But to get RTP stream you need a video encoder (which encodes raw data from camera to x264 stream). In my case RPI is only used for video encoding (because RPI Zero is too slow to do anything else) and all other tasks (including WFB-ng) are done by other board (NanoPI NEO2).

Q: What is a difference from original wifibroadcast?

A: Original version of wifibroadcast uses a byte-stream as input and splits it to packets of fixed size (1024 by default). If radio packets were lost and this is not corrected by FEC you'll get a hole at random (unexpected) place of stream. This is especially bad if data protocol is not resistant to (was not desired for) such random erasures. So i've rewritten it to use UDP as data source and pack one source UDP packet into one radio packet. Radio packets now have variable size depending on payload size. This reduces video latency a lot.

Theory

WFB-ng puts the wifi cards into monitor mode. This mode allows to send and receive arbitrary packets without association and waiting for ACK packets.

Sample usage chain:

Camera -> gstreamer --[RTP stream (UDP)]--> wfb_tx --//--[ RADIO ]--//--> wfb_rx --[RTP stream (UDP)]--> gstreamer --> Display

For encoding logitech c920 camera:

gst-launch-1.0 uvch264src device=/dev/video0 initial-bitrate=6000000 average-bitrate=6000000 iframe-period=1000 name=src auto-start=true \
               src.vidsrc ! queue ! video/x-h264,width=1920,height=1080,framerate=30/1 ! h264parse ! rtph264pay ! udpsink host=localhost port=5600

To encode a Raspberry Pi Camera V2:

raspivid -n  -ex fixedfps -w 960 -h 540 -b 4000000 -fps 30 -vf -hf -t 0 -o - | \
               gst-launch-1.0 -v fdsrc ! h264parse ! rtph264pay config-interval=1 pt=35 ! udpsink sync=false host=127.0.0.1 port=5600

To decode:

 gst-launch-1.0 udpsrc port=5600 caps='application/x-rtp, media=(string)video, clock-rate=(int)90000, encoding-name=(string)H264' \
               ! rtph264depay ! avdec_h264 ! clockoverlay valignment=bottom ! autovideosink fps-update-interval=1000 sync=false

HOWTO build:

For development (inline build)

make

For binary distribution RHEL or Fedora

make rpm

For binary distribution Debian or Ubuntu

sudo apt install python3-all libpcap-dev libsodium-dev python3-pip python3-pyroute2 \
            python3-future python3-twisted python3-serial python3-all-dev iw virtualenv \
            debhelper dh-python build-essential -y
sudo make deb

For binary distribution (tar.gz)

make bdist

You need to generate encryption keys for gs(ground station) and drone:

wfb_keygen

Leave them in place for development build or copy to /etc for binary install. Put drone.key to drone and gs.key to gs.

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