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Mix task code generator and application for the Micro Air Vehicle communication protocol

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MAVLink

This library includes a mix task that generates code from a MAVLink xml definition files and an application that enables communication with other systems using the MAVLink 1.0 or 2.0 protocol over serial, UDP and TCP connections.

MAVLink is a Micro Air Vehicle communication protocol used by Pixhawk, Ardupilot and other leading autopilot platforms. For more information on MAVLink see https://mavlink.io.

Installation

If available in Hex, the package can be installed by adding mavlink to your list of dependencies in mix.exs:

def deps do
 [
   {:mavlink, "~> 0.9.0"}
 ]
end

Current Status

This library is not officially recognised or supported by MAVLink at this time. We aim over time to achieve complete compliance with the MAVLink 2.0 specification, but our initial focus is on using this library on companion computers and ground stations for our team entry in the 2020 UAV Outback Challenge.

Generating MAVLink Dialect Modules

MAVLink message definition files for popular dialects can be found here. To generate an Elixir source file containing the modules we need to speak a MAVLink dialect (for example ardupilotmega):

> mix mavlink test/input/ardupilotmega.xml lib/apm.ex APM
* creating lib/apm.ex
Generated APM in 'lib/apm.ex'.
>

Configuring the MAVLink Application

Add MAVLink.Application with no start arguments to your mix.exs. You need to point the application at the dialect you just generated and list the connections to other vehicles in config.exs:

config :mavlink, dialect: APM, connections: ["serial:/dev/cu.usbserial-A603KH3Y:57600", "udpout:127.0.0.1:14550", "tcpout:127.0.0.1:5760"]

The above config specifies the APM dialect we generated and connects to a a vehicle on a radio modem, a ground station listening for UDP packets on 14550 and a SITL vehicle listening for TCP connections on 5760. Remember 'out' means client, 'in' means server.

Receive MAVLink messages

With the configured MAVLink application running you can subscribe to particular MAVLink messages:

alias MAVLink.Router, as: MAV

defmodule Echo do
  def run() do
    receive do
      msg ->
        IO.inspect msg
    end
    run()
  end
end

MAV.subscribe source_system: 1, message: APM.Message.Heartbeat
Echo.run()

or send a MAVLink message:

alias MAVLink.Router, as: MAV
alias APM.Message.RcChannelsOverride

MAV.pack_and_send(
  %RcChannelsOverride{
    target_system: 1,
    target_component: 1,
    chan1_raw: 1500,
    chan2_raw: 1500,
    chan3_raw: 1500,
    chan4_raw: 1500,
    chan5_raw: 1500,
    chan6_raw: 1500,
    chan7_raw: 1500,
    chan8_raw: 1500,
    chan9_raw: 0,
    chan10_raw: 0,
    chan11_raw: 0,
    chan12_raw: 0,
    chan13_raw: 0,
    chan14_raw: 0,
    chan15_raw: 0,
    chan16_raw: 0,
    chan17_raw: 0,
    chan18_raw: 0
  }
)

Router Architecture

The MAVLink application is to Elixir/Erlang code what MAVProxy is to its Python modules: a router that sits alongside them and gives them access to other MAVLink systems over its connections. Unlike MAVProxy it is not responsible for starting/stopping/scheduling Elixir/Erlang code.

The router is supervised. On a failure the configured connections and previous subscriptions are restored immediately. If a connection fails or is not available at startup the router will attempt to reconnect each second and continue routing frames on the remaining connections. If a subscriber fails it will be automatically unsubscribed and any new subscriber will be responsible for reconnection.

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