Using STorM32 with BetaPilot: Difference between revisions

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== BetaPilot ==
== BetaPilot ==
BetaPilot implements the latest MAVLink standard as well as the '''''STorM32 MAVLink2''''' mount type (MNT_TYPE = 83), which make the features below possible.


In order to establish a working communication between the STorM32 controller and the flight controller, parameters in both the flight controller and the STorM32 controller need to be adjusted, as described in the following.
In order to establish a working communication between the STorM32 controller and the flight controller, parameters in both the flight controller and the STorM32 controller need to be adjusted, as described in the following.
The BetaPilot fork implements the latest MAVLink standard as well as the '''''STorM32 MAVLink2''''' mount type (MNT_TYPE = 83), which make the features below possible.


{{COMMENT|Before using BetaPilot (BetaCopter/BetaPlane) it is '''strongly''' recommended to first install the original ArduPilot firmware and get the vehicle operating flawlessly with it, and only then to install BetaPilot.}}
{{COMMENT|Before using BetaPilot (BetaCopter/BetaPlane) it is '''strongly''' recommended to first install the original ArduPilot firmware and get the vehicle operating flawlessly with it, and only then to install BetaPilot.}}

Revision as of 08:08, 28 November 2020

The information on this page refers to firmware v2.57e and BetaPilot (BetaCopter/BetaPlane) 4.0 v0.48, and higher.

The STorM32 gimbal controller can communicate with ArduPilot flight controllers via a serial UART data link using the MAVLink protocol. The serial communication allows for a much richer data transmission and accordingly richer set of features than possible with the traditional connections such as PWM, PPM, SBUS, and alike. Examples are advanced control functions, the STorM32-Link or the NT Camera features. It also can lead to a much cleaner wiring and more robust and reliable system.

The ArduPilot firmware is however quite limited as regards its gimbal and camera support (and also flawed), and thus BetaPilot was started many years ago.

BetaPilot, which includes BetaCopter and BetaPlane, is a fork of ArduPilot, with modifications which are specifically directed at the STorM32 gimbal controller. If you want to make best use of your STorM32 gimbal and want 2020-ish capabilities, then you definitely want to chose BetaPilot (BetaCopter/BetaPlane). :)

This article is about BetaPilot. For info on using the original ArduPilot firmware with STorM32, please visit the article Using STorM32 with ArduPilot. A feature matrix comparing the two is found here: Feature Matrix.

BetaPilot

BetaPilot implements the latest MAVLink standard as well as the STorM32 MAVLink2 mount type (MNT_TYPE = 83), which make the features below possible.

In order to establish a working communication between the STorM32 controller and the flight controller, parameters in both the flight controller and the STorM32 controller need to be adjusted, as described in the following.

Comment: Before using BetaPilot (BetaCopter/BetaPlane) it is strongly recommended to first install the original ArduPilot firmware and get the vehicle operating flawlessly with it, and only then to install BetaPilot.

Comment: For instructions on how to compile BetaCopter or BetaPlane, please consult the github repository, https://github.com/olliw42/BetaPilot.

STorM32 MAVLink2 Mount Type

The STorM32 controller needs to be connected via one of its UART ports to one of the UART ports on the flight controller, and these settings be made:

Settings in STorM32:

  • Mavlink Gimbal = “Gimbal1” or higher
  • Mavlink Gimbal Stream = “attitude status” or higher
  • Mavlink Uart Port = “uart” if the UART port is used (this is the default)

The other MAVLink-related settings can normally be left at their default. A complete description of the MAVLink-releated configuration parameters is provided in the article MAVLink Communication. The STorM32 controller needs to be rebooted when you change the UART port.

Settings in BetaPilot:

  • MNT_TYPE = 83
  • SERIALx_PROTOCOL = 2
  • SERIALx_BAUD = 115

SERIALx can be any of the available serial ports SERIAL1, SERIAL2, and so on. This enables the STorM32 MAVLink2 mount. The flight controller must be rebooted for the changes to become effective.

The default baudrate of the STorM32 serial ports is 115200 bps, hence in ArduPilot SERIALx_BAUD has to be set to 115. However, other baudrates can be configured. For instance, for 230400 bps one sets the STorM32 parameter Uart Baudrate to “230400” and the ArduPilot parameter SERIALx_BAUD to 230.

With these settings you should notice:

  • In MissonPlanner or any other GCS, a additional MAVLink component named GIMBAL will be present.
  • In the STorM32 [GUI:Dashboard], the MAVLINK field will show PRESENT.
  • In the STorM32[GUI:Dashboard], the STorM32-Link field will show PRESENT or a similarly positive message.

This provides some quick indicators for whether things are working or not.

The above settings establish the basic configuration. Some features need additional parameters to be adjusted.

STorM32-Link

Requires this additional setting:

Settings in STorM32:

  • STorM32Link Configuration = “v1”

With MNT_TYPE = 83, the flight controller also sends out the STorM32-Link data to the STorM32 gimbal, but these data are used by the STorM32 controller only when STorM32Link Configuration = “v1” is also set.

Comment: This setting does not affect the message shown in the [GUI:Dashboard] STorM32-Link field! The message shown there, such as 'not available', PRESENT, INUSE, OK, reflects the incoming data stream, not its usage.

For more details on the STorM32-Link, please read the article STorM32-Link.

Virtual Channel Configuration

Requires this additional setting:

Settings in STorM32:

  • Virtual Channel Configuration = “serial”

With this setting, all STorM32 functions can be invoked by selecting any of the “Virtual-1” - “Virtual-16” input channels, exactly as one would do it if the STorM32 controller would be directly connected to a receiver by traditional means (PWM, PPM, sbus, and so on).

This allows us to do many useful things, such as activating a script or triggering video on/off from the transmitter. It however also allows us to do nonsense, and it is in the user's responsibility to avoid that.

For instance, if ArduPilot is in Rc Targeting mode, and e.g. Rc Pitch Control is set to a virtual input channel, then the gimbal may move in funny ways since it may receive the transmitter stick information from both ArduPilot and the receiver. On the other hand, if ArduPilot is in GPS or ROI Targeting mode, then one gets "free look", which is useful and quite cool actually. As said, all this is exactly as if the receiver would be directly connected to the STorM32 controller on its RC ports.

Passthrough Configuration

This feature allows you to connect the STorM32 GUI to the USB or any (MAVLink enabled) serial port of the flight controller, and to directly communicate with the STorM32 gimbal.

This is extremely convenient for configuring STorM32 gimbals when they are e.g. installed permanently in the vehicle. This also works via a wireless telemetry link, and thus opens the option of e.g. tuning the gimbal during flight, and further unheard of possibilities for controlling the gimbal during flight.

This preliminary demo video demonstrates the pass-through feature:

Prearm Checks

Requires this additional setting:

Settings in STorM32:

  • Prearm Check != “off”

Settings in BetaPilot:

  • MNT_ZFLAGS = 128 (this is a bitmask, so 128 means that the 8-th bit should be set by adding 128 to the value)

The STorM32 controller supports a rich set of prearm checks. The status of the prearm checks is passed on to the flight controller, and lets it handle them exactly like it handles any of its other prearm checks. For instance, in a GCS it will display a message "PreArm: Mount prearm checks failed" in intervals of 30 seconds.

This provides a simple and quick check that the STorM32 gimbal is working as intended.

Storm32-prearm.jpg

Statustext Messages

With MNT_TYPE = 83, the flight controller sends various MAVLink STATUSTEXT messages to a ground control station, providing additional information.

In addition, MAVLink STATUSTEXT messages can also be send via STorM32 scripts, the SENDMAVTEXT command specifically. This provides a very versatile mechanism to communicate to the user.

STorM32 MAVLink Gimbal Protocol

With BetaPilot installed, the flight controller supports the STorM32 MAVLink Gimbal Protocol. It can be enabled and configured via the MNT_ZFLAGS bitmask parameter.

For more info see MAVLink Communication: Gimbal Protocol V2.

MAVLink Camera Microservice

BetaPilot implements the MAVLink protocol as specified in the original MAVLink standard.

Therefore, with BetaPilot installed, also the MAVLink Camera Microservice is fully functional.

The STorM32 gimbal controller also implements a MAVLink Camera controller, which is described in much detail in the articles MAVLink Camera and NT Camera.

Testing the Connection

The serial MAVLink connection can be tested in several ways. The following tests do not require that the vehicle is completely built and/or set up, and do not require that the vehicle is armed.

  • MAVLINK field in the STorM32 GUI: The [GUI:Dashboard] has a field named MAVLINK. It should display PRESENT.
  • STorM32-LINK field in the STorM32 GUI: The [GUI:Dashboard] and [GUI:Data Display] each have a field which is related to the STorM32-Link. They should display PRESENT, AVAILABLE or OK.
  • MissonPlanner or QGroundControl: An additional MAVLink component named GIMBAL should be present.
  • Message box in MissonPlanner: With the GIMBAL component selected, in the message box several text messages related to the STorM32 gimbal should appear. In particular, a message like "STorM32 v2.40 nt v1.30 F103RC" informing about the STorM32 firmware version should be visible.
  • Gimbal RC Targeting: With ArduPilot in RC Targeting mode (which should be the default mode), the gimbal can be moved with the transmitter sticks.

Gimbal Point

MissionPlanner supports what it calls a 'gimbal point'. It is a blue point icon on the map, which indicates the estimated position at which the gimbal is looking at (see also e.g. https://github.com/ArduPilot/MissionPlanner/issues/1323). In order to activate it, the following ArduPilot parameters must be set:

Settings in ArduPilot:

  • MNT_STAB_ROLL = 0
  • MNT_STAB_TILT = 1