TSC21 13016bae1f navigator: add ability to process custom action waypoints
A custom action waypoint is an action defined in a waypoint that is scripted and processed outside the flight controller, usually in a mission computer process. The ability to process that action in the mission computer should be coded by the user, or instead using the MAVSDK custom_action plugin implementation (a full-scale example can be seen in the integration tests directory). The custom action command associated, for now, is the MAV_CMD_WAYPOINT_USER_1 but will eventually be replaced with an appropriate MAV_CMD to the purpose. The modifications in the navigator module allow to block the navigator for an amount of time defined on param3 of the MAV_CMD_WAYPONT_USER_1 mission item. The navigator expects to receive a progress status of the action being process, which in the case of not received, will result on the mission continuing to the next waypoint, and a COMMAND_CANCEL to be broadcasted to cancel that same command. The mission will continue to the next waypoint as soon as an ACCEPTED ACK gets sent from the component processing the custom action.
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PX4 Drone Autopilot

Releases DOI

Nuttx Targets SITL Tests

Slack

This repository holds the PX4 flight control solution for drones, with the main applications located in the src/modules directory. It also contains the PX4 Drone Middleware Platform, which provides drivers and middleware to run drones.

PX4 is highly portable, OS-independent and supports Linux, NuttX and MacOS out of the box.

Building a PX4 based drone, rover, boat or robot

The PX4 User Guide explains how to assemble supported vehicles and fly drones with PX4. See the forum and chat if you need help!

Changing code and contributing

This Developer Guide is for software developers who want to modify the flight stack and middleware (e.g. to add new flight modes), hardware integrators who want to support new flight controller boards and peripherals, and anyone who wants to get PX4 working on a new (unsupported) airframe/vehicle.

Developers should read the Guide for Contributions. See the forum and chat if you need help!

Weekly Dev Call

The PX4 Dev Team syncs up on a weekly dev call.

Note

The dev call is open to all interested developers (not just the core dev team). This is a great opportunity to meet the team and contribute to the ongoing development of the platform. It includes a QA session for newcomers. All regular calls are listed in the Dronecode calendar.

Maintenance Team

See also maintainers list (px4.io) and the contributors list (Github).

Supported Hardware

This repository contains code supporting Pixhawk standard boards (best supported, best tested, recommended choice) and proprietary boards.

Pixhawk Standard Boards

Manufacturer and Community supported

Additional information about supported hardware can be found in PX4 user Guide > Autopilot Hardware.

Project Roadmap

A high level project roadmap is available here.

S
Description
a mirror of official PX4-Autopilot
Readme BSD-3-Clause
587 MiB
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C++ 51.2%
C 38.5%
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