Difference between revisions of "Subsystems"

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* mkk
* mkk
* mkk_v2
* asctec
* asctec
* asctec_v2
* asctec_v2
* pwm_supervision
* pwm
* dualpwm
* skiron
* skiron
* heli
|  
|  
* rotorcraft
* all
* rotorcraft
* rotorcraft
* rotorcraft
* rotorcraft
* rotorcraft
|  
|  
* all
* all
* all
| Drivers for different ESCs and servos
* all
* all
* all
* all
| Drivers for different ESCs for rotorcraft
Fixedwing ESCs and servos are
 
possible on all firmwares/architectures
|-
|-
|[[Subsystem/stabilization|stabilization]]
|[[Subsystem/stabilization|stabilization]]

Revision as of 04:53, 13 May 2014

Mostly a subsystem is a part offering a specific functionality with a defined interface and can have multiple different implementations. (See sw/airborne/subsystems/...)

They are selected and configured with a <subsystem name="foo" type="bar"> in the firmware section of the airframe file.

All this does is basically include a makefile foo_bar.makefile that adds the respective sources and adds a few configuration options. (See conf/firmwares/subsystems/...)

This makes it easier to put an airframe file together (they replace the old raw makefile section) and also allows us to change the code and move/rename files behind the scenes without breaking everyones airframe files.

See FirmwareArchitecture for the differences to Modules, as well as how to write a new subsystem.

Available Subsystems

Name Types Firmwares Architecture Description
gps
  • ublox
  • ublox_utm
  • nmea
  • mediatek_diy
  • skytraq
  • all
  • fixedwing
  • all
  • fixedwing
  • rotorcraft
  • all
GPS drivers
imu
  • analog
  • apogee
  • aspirin_v1.0
  • aspirin_v1.5
  • aspirin_v2.1
  • aspirin_v2.2
  • aspirin_i2c_v1.0
  • aspirin_i2c_v1.5
  • aspirin2_i2c
  • b2_v1.0
  • b2_v1.1
  • b2_v1.2
  • drotek_10dof_v2
  • gl1
  • yai
  • krooz_sd
  • navgo
  • umarin
  • crista
  • crista_hmc5843
  • ppzuav
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • rotorcraft
  • rotorcraft
  • fixedwing
  • all
  • stm32f4
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • stm32f4
  • lpc21
  • lpc21
  • all
  • all
  • all
IMU drivers

Traditional IR sensors can be used for fixedwing

but an IMU subsystem is not required

ahrs
  • int_cmpl_quat
  • float_cmpl
  • float_dcm
  • int_cmpl_euler
  • int_cmpl_quat
  • float_mlkf
  • infrared
  • all
  • all
AHRS algorithms
ins
  • alt_float
  • gps_passthrough
  • xsens
  • xsens700
  • no_type
  • hff
  • extended
  • ardrone2
  • float_invariant
  • fixedwing
  • fixedwing
  • fixedwing
  • fixedwing
  • rotorcraft
  • rotorcraft
  • rotorcraft
  • rotorcraft
  • all (experimental, only tested on fw)
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • all
  • mcu with fpu (e.g. stm32f4)
INS algorithms

Most of the INS filters are only providing position and speed, and they need to be used together with an AHRS filter for attitude

Currently, only the experimental invariant filter is a full INS

radio_control
  • ppm
  • spektrum
  • datalink
  • superbitrf_rc
  • all
  • all
  • STM32
  • all
  • STM32
Radio Control implementations
telemetry
  • transparent
  • transparent_usb
  • xbee_api
  • superbitrf
  • all
  • all
  • all
  • rotorcraft
  • all
  • LPC21xx
  • all
  • STM32
Telemetry implementations
actuators
  • mkk
  • mkk_v2
  • asctec
  • asctec_v2
  • pwm
  • dualpwm
  • skiron
  • all
  • all
Drivers for different ESCs and servos
stabilization
  • int_quat
  • float_quat
  • euler
  • rotorcraft
  • rotorcraft
  • rotorcraft
  • all
  • all
  • all
Attitude control system for rotorcraft