mirror of https://github.com/ArduPilot/ardupilot
1304 lines
58 KiB
Plaintext
1304 lines
58 KiB
Plaintext
Rover Release Notes:
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------------------------------------------------------------------
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Rover 4.1.3-rc1 18-Dec-2021
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Changes from 4.1.2
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1) CUAV-X7 servo voltage detection support
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2) Bug fixes
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a) Main loop delay fix for boards with 16 bit timers (could affect smaller boards like those from MatekSys)
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b) Polygon Fence upload fix when replacing fence with one that has fewer points
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------------------------------------------------------------------
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Rover 4.1.2 07-Dec-2021 / 4.1.2-rc1 22-Nov-2021
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Changes from 4.1.1
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1) CAN_Dn_UC_OPTION param added to help resolve DroneCAN DNA conflicts
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2) Durandal with alternative ICM-20602 IMU
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3) OBAL autopilot support (Open Board Architecture for Linux)
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4) FETtec One ESC protocol support
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5) Bug Fixes
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a) APM/LOGS directory creation fixed on some boards
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b) EKF3 fix to switch to non-zero primary core when disarmed
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------------------------------------------------------------------
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Rover 4.1.1 10-Nov-2021 / 4.1.1-rc1 16-Oct-2021
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Changes from 4.1.0
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1) EK3_PRIMARY allows selection of which EKF core/IMU to use on startup
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2) Bug Fixes
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a) MAVFTP init fix (could cause slow parameter download)
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b) Scripting fix when logging strings
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c) Serial flow control fix (affected at least Lightware LW20 serial lidar)
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d) QiotekZealotF427 IMU (ICM42605) orientation fixed
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------------------------------------------------------------------
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Rover 4.1.0 20-Sep-2021 / 4.1.0-rc3 15-Sep-2021
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Changes from 4.1.0-rc2
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1) Bug Fixes
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a) Serial port auto detection of flow control fix
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------------------------------------------------------------------
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Rover 4.1.0-rc2 10-Sep-2021
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Changes from 4.1.0-rc1
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1) Enhancements
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a) Log download speeds improved on F765 and F777 based boards (USB buffers increased)
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b) Serial port DMA contention heuristics improved (reduces chance of delays writing to serial devices)
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2) Bug Fixes
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a) CRSF frame timeout increased to reduce RC failsafes
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b) Declination automatic lookup rounding fix (caused inaccurate declination in some parts of world)
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c) DShot (bi-directional) support on Pixhawk4, CUAVv5, CUAVv5-Nano
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d) IMU semaphore fix to avoid occasional corruption
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e) QioTek Zealot F427 GPIO pin fix
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f) Replay/DAL RMGH log message format fix
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g) Rangefinder initial buffer size and baudrate fix (affected Aintein US-D1 radar)
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------------------------------------------------------------------
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Rover 4.1.0-rc1 28-Aug-2021
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Changes from 4.1.0-beta7
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1) Enhancements
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a) DCM fallback easier on boats
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b) Flywoo F745 Goku Nano support
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c) MatekF765-Wing support
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2) Bug Fixes
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a) ChibiOS scheduling slip workaround to avoid occasional 60ms delays found on MatekH7
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b) EKF2 divide-by-zero protection when using optical flow (issue only found in simulator)
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c) External AHRS (e.g. VectorNav driver) init fix
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d) KakuteF4Mini SBUS fix
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e) Pixhawk4 blue and red LEDs swapped
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------------------------------------------------------------------
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Rover 4.1.0-beta7 14-Aug-2021
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Changes from 4.1.0-beta6
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1) Enhancements
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a) Flywoo F745 supports external I2C compasses
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b) GPS-for-yaw arming check added
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c) GPS_DRV_OPTIONS allows forcing UBlox GPS to 115200 baud
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d) Lua scripts can be placed in root of ROMFS (only relevant for developers)
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2) Bug Fixes
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a) Beacon driver protected from requests for data for non-existant beacons
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b) CAN threading fix to resolve potential lockup when lua scripts use CAN
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c) EKF3 GSF can be invoked multiple times with source switching (no longer limited by EK3_GSF_RST_MAX)
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d) EKF3 IMU offset fix (vehicle's reported position was slightly incorrect if INS_POS_XYZ params set)
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e) Motor test stops and reports failure if arming fails
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f) OSD overwrite and nullptr check fix
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g) Proximity sensor pre-arm check disabled if avoidance using proximity sensors is disabled
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h) RCOut banner displayed at very end of startup procedure to avoid invalid output
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------------------------------------------------------------------
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Rover 4.1.0-beta6 23-Jul-2021
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Changes from 4.1.0-beta5
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1) Enhancements
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a) GPS-for-yaw enhancements including using position and yaw from different GPSs
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b) Long distance travel supported (thousands of km) including double precision EKF and moving origin
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2) Bug Fixes
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a) BendyRuler avoidance fixed (was slow and jerky)
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b) BLHeli fix that could cause failure to boot
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c) CRSF message spamming and firmware string length fixed
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d) Display re-enabled on 1MB boards
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e) DShot always sends 0 when disarmed (protects against motors spin while disarmed due to misconfiguration)
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f) DShot fix that could cause main loop jitter
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g) DShot buzzer tone disabled during motor test to remove bad interation
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h) Longitude wrap fix (allows autonomous flights as longitude wraps between -180 and 180 deg)
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i) Log created on forced arm
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j) MatekF405-bdshot NeoPixel LEDs re-enabled on PWM5
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k) Serial port performance improvements using FIFO on H7 boards
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--------------------------------
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Rover 4.1.0-beta5 30-Jun-2021
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Changes from 4.1.0-beta4
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1) Enhancements
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a) Arming check of distance from EKF origin increased to 250km horizontally (was 50km), 50km vertically (was 500m)
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b) Pre-arm check of FLTMODE_CH and RCx_OPTION conflict
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c) QioTekZealotH743 autopilot support
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d) Scripting support for set home and get EKF origin
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e) Water depth and temperature sent to GCS using WATER_DEPTH mavlink message
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2) Bug fixes
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a) EKF alt estimate more robust when using GPS-for-yaw
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b) EKF origin altitudes consistent across cores even if user takes off with no GPS lock
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c) Logging start does not affect EKF (EKF could become unhealthy due to timing delays)
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d) Longitude wrap fixed (allows flying across international date line)
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e) Position jump fixed during GPS glitch and GPS/Non-GPS transitions
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--------------------------------
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Rover 4.1.0-beta4 12-Jun-2021
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Changes from 4.1.0-beta3
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1) Rover/Boat specific enhancements and bug fixes
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a) DShot support fixed
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b) Simple Avoidance fix to allow backing away from obstacles
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c) THR onboard log message logs forward-back acceleration
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d) Waypoint delay of -1 does not delay
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2) Minor enhancements (or changes)
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a) CSRF telemetry improvements to power setting and pass param requests more quickly
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b) CUAV X7/Nora supports ICM42688P IMU
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c) Pix32v5 USB product string fixed and IMU heater enabled
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d) RunCam Hybrid supported (see RUNCAM_TYPE parameter)
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e) VisualOdom feature removed from 1MB boards
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3) Bug fixes
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a) BLHeli Auto only affects telemetry passthrough to ease setup
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b) Circular complex fence radius not truncated
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c) CubeOrange serial1/2 DMA fixed
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d) ESC telemetry fixes including motor index on boards with I/O mcu
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e) I/O MCU reset fix if user had disabled safety switch (recovery from reset would leave motors not spinning)
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f) MSP temperature scaling fixed
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g) PreArm check of roll/pitch and yaw angle difference fixed
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h) Serial port info file (@SYS/uarts.txt) easier to understand
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i) Scheduler fix of premature run of tasks every 11min
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j) Visual odometry yaw alignment fixed
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k) WPNAV_RADIUS never less than 5cm
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--------------------------------
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Rover 4.1.0-beta3 24-May-2021
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Changes from 4.1.0-beta2
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1) Dshot bug fix for autopilots with I/O boards (CubeBlack, CubeOrange, etc)
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--------------------------------
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Rover 4.1.0-beta2 20-May-2021
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Changes from 4.1.0-beta1
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1) Rover/Boat specific enhancements and bug fixes
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a) Direct mast rotation logging
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b) RangeFinder logging enabled (RFND)
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c) Shaking reduced when vehicle stopped by simple avoidance
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d) Sonar water temperature logged in DPTH message
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e) TURN_MAX_G renamed to ATC_TURN_MAX_G and applied to all turns
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f) Wind direction calculation when not using wind speed sensor fixed
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2) BLHeli improvements and fixes
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a) Bi-directional ESC telemetry fixes
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b) Bi-directional dshot 1200 supported
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c) Control of digital with non-digital outputs fixed
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d) Support dshot commands for LED, buzzer and direction control
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e) Passthru reliability improved
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3) New autopilot boards
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a) PixC4-Pi and PixC4-Jetson
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4) Avoidance fixes
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a) OBSTACLE_DISTANCE_3D boundary cleared after 0.75 seconds, allows easier multi-camera support
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5) Other enhancements
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a) Auxiliary function logging shows how it was invoked (switch, button or scripting)
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b) External IST8308 compass supported on CubeBlack
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c) FrSky telem reports failsafe, terrain alt health and fence status
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d) OSD gets fence icon
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e) RunCam OSD and camera control
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f) Septentrio GPSs support GPS_SBAS_MOD parameter
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6) Bug fixes
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a) Barometer averaging fixes for BMP380, BMP280, LPS2XH, SPL06 drivers
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b) EKF3 fix to reset yaw after GPS-for-yaw recovers
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c) KDECAN output range, motor order and pre-arm check messages fixed
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d) Logging memory leak when finding last log fixed
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e) Pixhawk4 mini safety switch fix
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f) SD card slowdown with early mounts fixed
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--------------------------------
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Rover 4.1.0-beta1 08-Apr-2021
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Changes from 4.0.0
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1) EKF changes:
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a) EKF3 is default estimator (EKF2 is available as an option)
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b) External AHRS/IMU support (e.g. VectorNav)
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c) Gaussian Sum Filter (GSF) allows emergency yaw correction using GPS
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d) GPS-for-yaw (dual F9 UBlox GPS can provide yaw)
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e) Lane switching logic improvements
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f) Sensor affinity (improves sensor failure redundancy)
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g) Source switching for GPS/Non-GPS transitions (see EK3_SRCx_ parameters)
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h) Yaw estimation and reliability improvements
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2) Control improvements:
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a) Vectored thrust improvements (see MOT_VEC_ANGLEMAX parameter)
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b) Skid-steering supports prioritising steering vs throttle (see MOT_STR_THR_MIX parameter)
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3) Walking robot support (basic)
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4) Object avoidance:
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a) BendyRuler hesitancy improvements
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b) Intel Realsense 435/455 camera support (companion computer required)
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c) Return to original path after clearing obstacle (see OA_OPTIONS parameter)
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d) Simple avoidance backs away from obstacles (see AVOID_BACKUP_SPD parameter)
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e) Simple avoidance accel limited (see AVOID_ACCEL_MAX parameter)
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f) Simultaneous Dijkstra and BendyRuler path planning
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g) Obstacle database now 3D
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h) Obstacle filtering improvements
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5) Compass enhancements
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a) In-flight learning improvements (see COMPASS_LEARN = 3)
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b) Large vehicle calibration support (e.g. point vehicle north and push button in MP)
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c) Prioritisation (see MP's compass prioritisation table)
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d) Custom orientations
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6) Intel RealSense T265 support (see VISO_TYPE = 2, companion computer required)
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a) Position and velocity from external sources accepted at up to 50hz
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b) Resets from external sources accepted
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7) New autopilot boards
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a) CUAV-Nora, CUAV-X7
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b) FlywooF745
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c) Holybro Pix32v5
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d) iFlight BeastF7 and BeastH7
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e) MatekH743
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f) mRo ControlZero, Nexus, PixracerPro
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g) R9Pilot
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h) SuccexF4
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i) QioTekZealotF427
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8) IMU improvements:
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a) temperature calibration
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b) faster gyro sampling on high performance autopilots (F7 and faster, see INS_GYRO_RATE)
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9) New drivers
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a) AllyStar NMEA GPS
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b) BMM150 as external compass
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c) CRSF and SRXL2 RC protocols
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d) Dshot (bi-directional) for RPM telemetry
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e) GY-US32-v2 lidar
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f) HC-SR04 lidar
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g) Intelligent Energy hydrogen fuel cell
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h) Lightware SF45b lidar
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i) MSP protocol support (and DJI DPV systems)
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j) RichenPower generator
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k) Rotoye smart battery
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l) RunCam Split 4 and RunCam hybrid support
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m) Smart Audio
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n) SMBus batteries up to 12 cells
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o) USD1 CAN radar
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10) Scripting enhancements:
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a) Button, Proximity, RangeFinder and RPM sensor support
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b) DO_ mission commands can be triggered from scripts
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c) I2C sensor driver support (i.e. allows writing sensor drivers in Lua)
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d) Logging (i.e. allows Lua scripts to write to onboard logs)
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e) Mission item read support
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f) Motor drivers support (used for walking robots)
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g) Position, velocity and direct steering & throttle control while in Guided mode
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h) Pre-arm checks (i.e. allows writing custom pre-arm checks in Lua)
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i) ROMFS support (allows writing scripts to ROMFS instead of SD Card)
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j) Serial port support (allows reading/writing to serial port from Lua)
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k) ToshibaCAN ESC usage time read support
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11) Other enhancements:
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a) Baro parameters start with BARO_ (was GND_)
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b) Barometers get device id for easier identification
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c) ChibiOS upgrade to 20.3
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d) CRSF passthrough for Yaapu widget
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e) DShot rates increased (see SERVO_DSHOT_RATE)
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f) Filesystem/MAVFTP expansion including @SYS for performance monitoring
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g) MAV_CMD_DO_REPOSITION support
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h) MAVFTP performance improvements
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i) Parameter reset workaround by backing-up and restoring old params after eeprom corruption
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j) Sailboats get arming check for windvane health
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k) Simple mode supports two paddle input
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l) Speed nudging in Auto made more consistent with Acro (i.e. same stick position results in same speed)
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m) Spektrum VTX control
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n) Switch to Manual mode after mission completes (see MIS_DONE_BEHAVIOR parameter)
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12) Bug fixes:
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a) Arming rejected in RTL, SmartRTL and Initializing modes
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b) CAN GPS ordering fix (previously order could switch meaning GPS_POS_ params were used on the wrong GPS)
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c) Logging reliability improvements
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d) RM3100 compass scaling fixed
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e) Speed control jumps avoided by resetting I-term when stopped
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f) Throttle slew rate fix (MOT_SLEWRATE param)
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g) Two paddle steering deadzone fix
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h) Wheel encoder fix (data could be skipped)
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--------------------------------
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Rover 4.0.0 26-Nov-2019 / 4.0.0-rc4 20-Nov-2019
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Changes from 4.0.0-rc3
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1) Lightware SF40c lidar driver for latest version
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2) UBlox F9 GPS automatic configuration
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3) UAVCAN RTK GPS support
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4) Bug Fixes:
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a) Auxiliary switch support for RTL, SmartRTL fixed
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b) Fence health reporting relaxed (was showing Fence Breach when fence was not setup)
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c) RangeFinder type parameter clarified for Benewake lidar
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d) Barometer PROBE_EXT parameter description improvement
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e) Pixhawk4 board LED brightness fix
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--------------------------------
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Rover 4.0.0-rc3 08-Nov-2019
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Changes from 4.0.0-rc2
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1) IMU heater control parameters (see BRD_IMUHEAT_P/I params)
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2) Bug Fixes:
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a) DO_CHANGE_SPEED fix (was being ignored)
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b) SET_YAW_SPEED in Guided mode made consistent with Auto mission command handling (yaw in degrees, speed in m/s)
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c) BLHeli fix to RPM calcs and telemetry (aka 0x8000 error)
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d) Fence upload is less strict about altitude types (fences don't have altitudes)
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e) Pre-arm message fix to reports AHRS/EKF issue (was blank)
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f) Sparky2 autopilot firmware available
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g) Startup message "AK09916: Unable to get bus semaphore" removed (was not an error)
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--------------------------------
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Rover 4.0.0-rc2 24-Oct-2019
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Changes from 4.0.0-rc1
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1) Vehicle stays in Auto mode after completing missions using RTL-within-Auto, Hold-within-Auto
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2) Sailboat gets dedicated parameters SAIL_LOIT_RADIUS and SAIL_XTRACK_MAX
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3) RTL/SmartRTL fixes:
|
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a) Boats loiter instead of circling at end of RTL/SmartRTL
|
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b) Warning sent to GCS when SmartRTL buffer is nearly full
|
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4) OSD improvements including total distance fix for slow vehicles
|
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5) Bug Fixes and minor enhancements
|
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a) Wheel encoder fix to use both wheel encoders (if present)
|
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b) EKF failsafe and pre-arm checks when only wheel encoders used for non-GPS navigation
|
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c) Follow mode offsets reset to zero when vehicle leaves follow mode
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d) FS_OPTIONS parameter allows enabling failsafes to trigger while in Hold mode
|
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--------------------------------
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Rover 4.0.0-rc1 01-Oct-2019
|
|
Changes from 3.5.2
|
|
1) Path Planning for Object Avoidance (aka Bendy Ruler and Dijkstra's) replaces "Dodge" avoidance
|
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2) Complex Fence support (aka stay-out zones)
|
|
3) Flight mode changes:
|
|
a) LOIT_SPEED_GAIN provides tuning of loiter mode aggressiveness
|
|
b) NAV_DELAY command support for clock-based start of mission commands
|
|
c) Simple mode (was present in 5.1 but was undocumented and untested)
|
|
d) SPEED_MIN parameter allows setting minimum speed during missions (reducing slow down at corners)
|
|
4) Sailboat improvements:
|
|
a) motor support
|
|
b) tacking improvements
|
|
c) NMEA windvanes
|
|
5) New flight controllers:
|
|
a) Hex Cube Orange
|
|
b) Holybro Durandal
|
|
6) Sensor and peripheral related changes
|
|
a) Fuel flow battery battery types
|
|
b) IBUS R/C input support
|
|
c) "Inflight" compass calibration
|
|
d) NTF_BUZZ_VOLUME allows controlling buzzer volume
|
|
e) OSD support
|
|
f) UAVCAN improvements including dynamic node allocation
|
|
g) WS2812 LEDs
|
|
h) Yaw from some GPSs
|
|
7) Safety Improvements:
|
|
a) Improved watchdog logging allows distinguishing between brown-outs from software failures
|
|
--------------------------------
|
|
Rover 3.5.2 24-Sep-2019
|
|
Changes from 3.5.1
|
|
1) fixed I2C storm lockup bug on ChibiOS
|
|
--------------------------------
|
|
Rover 3.5.1 17-May-2019 / 3.5.1-rc1 30-Apr-2019
|
|
Changes from 3.5.0
|
|
1) WHEEL_DISTANCE mavlink messages sent to ground station and companion computers
|
|
2) Bug fixes:
|
|
a) EKF compass switching fix for vehicles with 3 compasses
|
|
b) Guided's heading-and-speed controller no longer uses land based speed control
|
|
c) Pre-arm check fix that all required motors for the frame are configured
|
|
d) Prevent loss of active IMU from causing loss of attitude control
|
|
e) Added startup check for Hex CubeBlack sensor failure
|
|
f) don't reset INS_ENABLE_MASK based on found IMUs
|
|
--------------------------------
|
|
Rover 3.5.0 06-Feb-2019
|
|
Changes from 3.5.0-rc3
|
|
1) Bug fixes and minor enhancements
|
|
a) Avoid potential divide-by-zero when waypoints are almost in a straight line
|
|
b) LOIT_TYPE parameter description fix
|
|
--------------------------------
|
|
Rover 3.5.0-rc3 30-Jan-2019
|
|
Changes from 3.5.0-rc2
|
|
1) Fix build issue affecting fmuv2
|
|
--------------------------------
|
|
Rover 3.5.0-rc2 24-Jan-2019
|
|
Changes from 3.5.0-rc1
|
|
1) ChibiOS fixes and enhancements to many boards including Pixhawk4
|
|
2) EKF failsafe added and checked before entering autonomous modes
|
|
3) Object avoidance enabled in autonomous modes (Auto, Guided, RTL)
|
|
4) Cruise speed/throttle learning always runs for 2 seconds (saves user from having to lower switch)
|
|
5) Boats hold position after reaching target in Auto and Guided (also see MIS_DONE_BEHAVE)
|
|
6) MAVLink message interval support (allows precise control of mavlink message update rates)
|
|
7) Bug fixes and minor enhancements:
|
|
a) DShot ESC support
|
|
b) Auxiliary switch 7 parameter copy from CH7_OPTION to RC7_OPTION
|
|
c) Wheel encoder offset fix
|
|
d) SmartRTL default num points increased to 300
|
|
--------------------------------
|
|
Rover 3.5.0-rc1 12-Nov-2018
|
|
Changes from 3.4.2:
|
|
1) ChibiOS provides improved performance and support for many new boards including:
|
|
a) F4BY
|
|
b) TauLabs Sparky2
|
|
c) Furious FPV F-35 lightening and Wing FC-10
|
|
d) Holybro KakuteF4
|
|
e) Mateksys F405-Wing
|
|
f) Omnibus F4 Pro, NanoV6 and F7
|
|
g) SpeedyBee F4
|
|
2) BalanceBot support
|
|
3) Sailboat support
|
|
4) OmniPlus, OmniX frame support (vehicles can move laterally using 4 thrusters or wheels)
|
|
5) Auxiliary Switches expanded to many channels (see RCx_OPTION parameters)
|
|
6) External position estimates accepted from ROS and Vicon systems
|
|
7) Mode changes:
|
|
a) Follow mode (allows following another vehicle if connected via telemetry)
|
|
b) Simple mode (pilot controls direction regardless of vehicle's heading)
|
|
c) Loiter can be configured to always drive towards target (i.e. does not reverse) (see LOIT_TYPE parameter)
|
|
d) Guided, RTL, SmartRTL will reverse towards target if DO_SET_REVERSE command received (via telemetry or as mission command)
|
|
8) Bug fixes and small enhancements:
|
|
a) RC and GCS failsafe timeout shortened
|
|
b) Object avoidance fix to include all sectors from proximity sensor (aka 360 lidar)
|
|
c) Safety switch ability to arm/disarm vehicle now configurable (see BRD_SAFETYOPTION parameter)
|
|
d) Onboard OSD support (for ChibiOS-only boards)
|
|
e) Gripper support
|
|
f) Sprayer support
|
|
--------------------------------
|
|
Rover 3.4.2 30-Jul-2018 / 3.4.2-rc1 23-Jul-2018
|
|
Changes from 3.4.1:
|
|
1) bug fix to pivot turn logic during missions
|
|
2) dataflash logging improvement to NTUN message
|
|
--------------------------------
|
|
Rover 3.4.1 04-Jul-2018 / 3.4.1-rc1 12-Jun-2018
|
|
Changes from 3.4.0:
|
|
1) lane based speed control (vehicle slows to stay close to line between waypoints), WP_OVERSHOOT replaces SPEED_TURN_GAIN
|
|
2) MOT_SPD_SCA_BASE allow configuring speed above which speed scaling begins
|
|
3) disable acceleration limits when ATC_ACCEL_MAX is zero
|
|
4) accept DO_CHANGE_SPEED commands in Auto, Guided, RTL, SmartRTL
|
|
5) DPTH dataflash log messages for recording downward facing echosounders on boats
|
|
--------------------------------
|
|
Rover 3.4.0 12-Jun-2018 / 3.4.0-rc1 01-Jun-2018
|
|
Changes from 3.3.1-rc2:
|
|
1) Loiter mode for boats
|
|
2) Omni rover support (three wheeled rover with lateral movement)
|
|
3) vision-position-estimate support for use with ROS
|
|
4) Control improvements:
|
|
a) reversing control improvements
|
|
b) ATC_DECEL_MAX allows deceleration to be faster or slower than acceleration
|
|
c) PIVOT_TURN_RATE allows slower pivot turns
|
|
d) turn-rate I-term reset when switching in from manual modes
|
|
5) NMEA Echosounder support for underwater depth monitoring
|
|
6) Bug fixes:
|
|
a) fix forward/back acceleration limiting
|
|
b) MaxsonarI2C driver fix
|
|
--------------------------------
|
|
Rover 3.3.1-rc2 12-May-2018
|
|
Changes from 3.3.1-rc1:
|
|
1) Bug fix use of ATC_STR_RAT_MAX to limit maximum turn rate
|
|
--------------------------------
|
|
Rover V3.3.1-rc1 09-May-2018
|
|
Changes from 3.3.0:
|
|
1) Vectored Thrust to improve attitude control for boats with rotating motors
|
|
2) minor changes and bug fixes:
|
|
a) remove jump forward when transitioning from forward to reverse
|
|
b) safety switch allows disarming motors (was disabled in 3.3.0)
|
|
--------------------------------
|
|
Rover V3.3.0 07-May-2018
|
|
Changes from 3.3.0-rc1:
|
|
1) default parameter changes
|
|
a) TURN_MAX_G reduced from 1.0 to 0.6
|
|
b) ATC_STR_ANG_P increased from 1.0 to 2.5 (converts angle error to desired turn rate during pivot turns)
|
|
c) ATC_STR_ACC_MAX reduced from 360 to 180 deg/s/s (slows acceleration in pivot turns)
|
|
--------------------------------
|
|
Rover V3.3.0-rc1 19-Apr-2018
|
|
Changes from 3.2.3:
|
|
1) Simple object avoidance support
|
|
2) Circular and polygon fence support
|
|
3) Pivot turn improvements
|
|
a) Heading control used to aim at new target
|
|
b) ATC_STR_ACC_MAX limits maximum rotational acceleration
|
|
c) ATC_STR_RAT_MAX limits maximum rotation rate
|
|
4) Allow ACRO mode without GPS for skid-steering vehicles (reverts to manual throttle)
|
|
5) MOT_THR_MIN used as deadzone
|
|
6) Parameter default changes:
|
|
a) PIVOT_TURN_ANGLE default raised from 30 to 60 degrees
|
|
b) ATC_STR_RAT_P and I reduced to 0.2
|
|
c) ATC_STR_RAT_FILT and ATC_SPEED_FILT reduced from 50hz to 10hz to better match vehicle response time
|
|
7) Boats report themselves as boats allowing ground stations to display boat icon on map
|
|
8) ChibiOS support
|
|
--------------------------------
|
|
Rover V3.2.3 09-Apr-2018 / V3.2.3-rc1/rc2 02-Apr-2018
|
|
Changes from 3.2.2:
|
|
1) Waypoint origin uses previous waypoint or vehicle stopping point
|
|
2) Boats send correct mav-type to ground station
|
|
3) TURN_MAX_G parameter description updates (allows lower values)
|
|
4) fix two-paddle input decoding
|
|
--------------------------------
|
|
Rover V3.2.2 19-Mar-2018 / V3.2.2-rc1 08-Mar-2018
|
|
Changes from 3.2.1:
|
|
1) Fix loss of steering control when stopping in Acro and Steering modes
|
|
--------------------------------
|
|
APM:Rover V3.2.1 29-Jan-2018 / V3.2.1-rc1 24-Jan-2018
|
|
Changes from 3.2.0:
|
|
1) Fix mode switch logic to allow Auto, Guided, RTL, SmartRTL, Steering, Acro using non-GPS navigation (i.e. wheel encoders, visual odometry)
|
|
--------------------------------
|
|
APM:Rover V3.2.0 13-Jan-2018
|
|
Changes from 3.2.0-rc4:
|
|
1) Here GPS/compass default orientation fix (ICM20948)
|
|
2) PID values sent to ground station regardless of mode (see GCS_PID_MASK parameter)
|
|
3) Steering PID min and max ranges expanded
|
|
4) Mavlink message definition update
|
|
--------------------------------
|
|
APM:Rover V3.2.0-rc4 05-Jan-2018
|
|
Changes from 3.2.0-rc3:
|
|
1) Steering controller supports feed-forward (reduces wobble)
|
|
2) WP_SPEED, RTL_SPEED parameters allow speed independent of CRUISE_SPEED
|
|
3) Dataflash logging improvements for steering and throttle
|
|
4) Remove auto-trim at startup
|
|
5) GPS reports healthy even without 3d lock
|
|
---------------------------------
|
|
APM:Rover V3.2.0-rc3 05-Dec-2017
|
|
Changes from 3.2.0-rc2:
|
|
1) SmartRTL mode (retraces path back to home)
|
|
2) Acro mode (pilot controls speed and turn rate)
|
|
3) Guided mode ROS integration fixes
|
|
4) Steering mode allows pivot turns
|
|
5) Auto mode pivots on sharp corners
|
|
6) Aux switch allows arming/disarming and mode change
|
|
7) PILOT_STEER_TYPE parameter allows controlling turn direction when backing up
|
|
8) Mixer change to allow steering to use full motor range (removes need for MOT_SKID_FRIC)
|
|
---------------------------------
|
|
APM:Rover V3.2.0-rc2 28-Oct-2017
|
|
Changes from 3.2.0-rc1:
|
|
1) MOT_SKID_FRIC parameter allows increasing power for skid-steer vehicle pivot-turns
|
|
2) Bug Fixes:
|
|
a) speed nudging fix in AUTO mode
|
|
b) throttle slew range fix (was slightly incorrect when output range was not 1100 ~ 1900)
|
|
c) PID desired and achieved reported to GCS when GCS_PID_MASK param set to non-zero value
|
|
d) use-pivot fix to use absolute angle error
|
|
---------------------------------
|
|
APM:Rover V3.2.0-rc1 25-Aug-2017
|
|
Changes from 3.1.2:
|
|
1) Skid-steering vehicle support added (i.e. tank track or R2D2 style vehicles)
|
|
2) Brushless motor support
|
|
3) Improved speed/throttle and steering controllers:
|
|
a) layered P and PID controllers with optional feedforward, input filtering and saturation handling (reduces unnecessary I-term build-up)
|
|
b) forward-back acceleration limited (see ATC_ACCEL_MAX parameter)
|
|
c) pro-active slowing before waypoint in order to keep overshoot at or below WP_OVERSHOOT distance
|
|
d) proper output scaling for skid-steering vs regular car steering controls
|
|
e) TURN_RADIUS parameter added to allow better control of turn in Steering mode
|
|
f) speed along forward-back axis used instead of total ground speed (resolves unusual behaviour for boats being washed downstream)
|
|
4) Auxiliary switch changes (see CH7_OPTION parameter):
|
|
a) "Save Waypoint" saves the current location as a waypoint in all modes except AUTO if the vehicle is armed. If disarmed the mission is cleared and home is set to the current location.
|
|
b) "Learn Cruise" sets the THROTTLE_CRUISE and SPEED_CRUISE parameter values to the vehicle's current speed and throttle level
|
|
5) Wheel encoder supported for non-GPS navigation (can also be used with GPS)
|
|
6) Visual Odometry support for non-GPS navigation (can also be used with GPS)
|
|
7) Guided mode improvements:
|
|
a) for SET_ATTITUDE_TARGET accepts quaternions for target heading, valid thrust changed to -1 ~ +1 range (was previously 0 ~ 1)
|
|
b) COMMAND_LONG.SET_YAW_SPEED support fixes (thrust field accepted as target speed in m/s)
|
|
c) SET_POSITION_TARGET_GLOBAL_INT, _LOCAL_NED fixes and added support for yaw and yaw-rate fields
|
|
8) Bug Fixes:
|
|
a) resolve occasional start of motors after power-on
|
|
b) steering mode turn direction fix while reversing
|
|
c) reversing in auto mode fixes (see DO_REVERSE mission command)
|
|
----------------------------------------------------------
|
|
Release 3.1.2, 15 March 2017
|
|
============================
|
|
Minor bugfix release.
|
|
|
|
- Crashing detection is off by default
|
|
- DISARMing of a rover via the transmitter stick works again
|
|
- If a user was driving in reverse in Manual and went into an AUTO
|
|
mode the rover would do the mission in reverse. This is fixed.
|
|
|
|
|
|
Release 3.1.1, 31 January 2017
|
|
==============================
|
|
Minor bugfix release for a crash bug in the SRXL driver
|
|
|
|
|
|
Release 3.1.0, 22 December 2016
|
|
===============================
|
|
The ArduPilot development team is proud to announce the release of
|
|
version 3.1.0 of APM:Rover. This is a major release with a lot of
|
|
changes so please read the notes carefully!
|
|
|
|
A huge thanks to ALL the ArduPilot developers. The Rover code
|
|
benefits tremendously from all the hard work that goes into the Copter
|
|
and Plane vehicle code. Most of the code changes in this
|
|
release were not specifically for Rover however because of the
|
|
fantastic architecture of the ArduPilot code Rover automatically gets
|
|
those enhancements anyway.
|
|
|
|
Note that the documentation hasn't yet caught up with all the changes
|
|
in this release. We are still working on that, but meanwhile if you
|
|
see a feature that interests you and it isn't documented yet then
|
|
please ask.
|
|
|
|
The PX4-v2 build has had CANBUS support removed due to firmware size
|
|
issues. If Rover users want CANBUS support you will need to install
|
|
the PX4-v3 build located in the firmware folder here:
|
|
http://firmware.ap.ardupilot.org/Rover/stable/PX4/
|
|
|
|
EKF1 has been removed as EKF2 has been the long term default and is
|
|
working extremely well and this has allowed room for EKF3.
|
|
|
|
EKF3 is included in this release but it is not the default. Should
|
|
you want to experiment with it set the following parameters:
|
|
AHRS_EKF_TYPE=3
|
|
EK3_ENABLE=1
|
|
but note it is still experimental and you must fully understand the
|
|
implications.
|
|
|
|
New GUIDED Command
|
|
------------------
|
|
Rover now accepts a new message MAV_CMD_NAV_SET_YAW_SPEED which has an
|
|
angle in centidegrees and a speed scale and the rover will drive based
|
|
on these inputs.
|
|
|
|
The ArduPilot team would like to thank EnRoute for the sponsoring of
|
|
this feature
|
|
http://enroute.co.jp/
|
|
|
|
COMMAND_INT and ROI Commands
|
|
----------------------------
|
|
COMMAND_INT support has been added to Rover. This has allowed the
|
|
implementation of SET_POSITION_TARGET_GLOBAL_INT,
|
|
SET_POSITION_TARGET_LOCAL_NED and DO_SET_ROI as a COMMAND_INT
|
|
|
|
The ArduPilot team would like to thank EnRoute for the sponsoring of
|
|
this feature
|
|
http://enroute.co.jp/
|
|
|
|
Reverse
|
|
-------
|
|
Its now possible in a mission to tell the rover to drive in
|
|
Reverse. If using Mission Planner insert a new Waypoint using "Add
|
|
Below" button on the Flight Plan screen and select from the Command
|
|
drop down list you will see a new command "DO_SET_REVERSE". It takes 1
|
|
parameter - 0 for forward, 1 for reverse. It's that simple. Please give
|
|
it a try and report back any success or issues found or any questions
|
|
as well.
|
|
|
|
The ArduPilot team would like to thank the Institute for Intelligent
|
|
Systems Research at Deakin University
|
|
(http://www.deakin.edu.au/research/iisri16) for the sponsoring of the
|
|
reverse functionality.
|
|
|
|
Loiter
|
|
------
|
|
This changes brings the LOITER commands in line with other ArduPilot
|
|
vehicles so both NAV_LOITER_UNLIM and NAV_LOITER_TIME are supported and are
|
|
actively loitering. This means for instance if you have set a boat to
|
|
loiter at a particular position and the water current pushes the boat off
|
|
that position once the boat has drifted further then the WP_RADIUS
|
|
parameter distance setting from the position the motor(s) will be
|
|
engaged and the boat will return to the loiter position.
|
|
|
|
The ArduPilot team would like to thanko MarineTech for sponsoring this
|
|
enhancement.
|
|
http://www.marinetech.fr
|
|
|
|
Note: if you currently use Param1 of a NAV_WAYPOINT to loiter at a
|
|
waypoint this functionality has not changed and is NOT actively loitering.
|
|
|
|
Crash Check
|
|
-----------
|
|
Rover can now detect a crash in most circumstances - thanks Pierre
|
|
Kancir. It is enabled by default and will change the vehicle into HOLD
|
|
mode if a crash is detected. FS_CRASH_CHECK is the parameter used to
|
|
control what action to take on a crash detection and it supports
|
|
0:Disabled, 1:HOLD, 2:HoldAndDisarm
|
|
|
|
Pixhawk2 heated IMU support
|
|
---------------------------
|
|
This release adds support for the IMU heater in the Pixhawk2,
|
|
allowing for more stable IMU temperatures. The Pixhawk2 is
|
|
automatically detected and the heater enabled at boot, with the target
|
|
IMU temperature controllable via BRD_IMU_TARGTEMP.
|
|
Using an IMU heater should improve IMU stability in environments with
|
|
significant temperature changes.
|
|
|
|
PH2SLIM Support
|
|
---------------
|
|
This release adds support for the PH2SLIM variant of the Pixhawk2,
|
|
which is a Pixhawk2 cube without the isolated sensor top board. This
|
|
makes for a very compact autopilot for small aircraft. To enable
|
|
PH2SLIM support set the BRD_TYPE parameter to 6 using a GCS connected
|
|
on USB.
|
|
|
|
AP_Module Support
|
|
-----------------
|
|
This is the first release of ArduPilot with loadable module support
|
|
for Linux based boards. The AP_Module system allows for externally
|
|
compiled modules to access sensor data from ArduPilot controlled
|
|
sensors. The initial AP_Module support is aimed at vendors integrating
|
|
high-rate digital image stabilisation using IMU data, but it is
|
|
expected this will be expanded to other use cases in future releases.
|
|
|
|
Major VRBrain Support Update
|
|
----------------------------
|
|
This release includes a major merge of support for the VRBrain family
|
|
of autopilots. Many thanks to the great work by Luke Mike in putting
|
|
together this merge!
|
|
|
|
Much Faster Boot Time
|
|
---------------------
|
|
Boot times on Pixhawk are now much faster due to a restructuring of
|
|
the driver startup code, with slow starting drivers not started unless
|
|
they are enabled with the appropriate parameters. The restructuring
|
|
also allows for support of a wide variety of board types, including
|
|
the PH2SLIM above.
|
|
|
|
This release includes many other updates right across the flight
|
|
stack, including several new features. Some of the changes include:
|
|
|
|
- log all rally points on startup
|
|
- the armed state is now logged
|
|
- support added for MAV_CMD_ACCELCAL_VEHICLE_POS
|
|
- support MAVLink based external GPS device
|
|
- support LED_CONTROL MAVLink message
|
|
- support PLAY_TUNE MAVLink message
|
|
- added AP_Button support for remote button input reporting
|
|
- support 16 channel SERVO_OUTPUT_RAW in MAVLink2
|
|
- added MAVLink reporting of logging subsystem health
|
|
- added BRD_SAFETY_MASK to allow for channel movement for selected channels with safety on
|
|
- lots of HAL_Linux improvements to bus and thread handling
|
|
- added IMU heater support on Pixhawk2
|
|
- allow for faster accel bias learning in EKF2
|
|
- added AP_Module support for loadable modules
|
|
- merged support for wide range of VRBrain boards
|
|
- added support for PH2SLIM and PHMINI boards with BRD_TYPE
|
|
- greatly reduced boot time on Pixhawk and similar boards
|
|
- fixed magic check for signing key in MAVLink2
|
|
- fixed averaging of gyros for EKF2 gyro bias estimate
|
|
- added support for ParametersG2
|
|
- support added for the GPS_INPUT mavlink message
|
|
|
|
|
|
|
|
Release 3.0.1, 17 June 2016
|
|
===========================
|
|
The ArduPilot development team is proud to announce the release of
|
|
version 3.0.1 of APM:Rover. This is a minor release with small but
|
|
important bug fix changes.
|
|
|
|
The two main motivations for this release
|
|
1. Fixing the arming for skid steering Rovers
|
|
2. Fix to the rover steering that should really improve steering of
|
|
all rovers.
|
|
|
|
Skid Steering Arming
|
|
--------------------
|
|
Fixed arming for Skid Steering rovers. You should now be able to arm
|
|
your skid steering rover using the steering stick. NOTE skid steering
|
|
Rovers - you will not be able to disarm. The reason for this is zero
|
|
throttle full left turn is a perfectly valid move for a skid steering
|
|
rover as it can turn on the spot. You don't want to be executing this
|
|
and have the rover disarm part way through your turn so we have
|
|
disabled disarming via the steering stick. You can still disarm from
|
|
the GCS. Thanks to Pierre Kancir for working on this.
|
|
|
|
Improved Steering Control
|
|
-------------------------
|
|
For historical reason's the steering controller was using the raw GPS
|
|
data for ground speed without any filtering. If you have every graphed
|
|
this data you will see on a rover its very spiky and all over the
|
|
place. This spiky'ness was feeding into the lateral accel demand and
|
|
causing inaccuracies/jitters. Now we using the EKF GPS filtered data
|
|
which is much smoother and accurate and the steering control has
|
|
greatly improved.
|
|
|
|
Improved Cornering
|
|
------------------
|
|
Previously when corning we didn't take into account any "lean or tilt"
|
|
in the rover - we assumed the turns were always flat. We have changed
|
|
this to now take into account any lean so turning should be more
|
|
accurate. Boat users should really benefit from this too.
|
|
|
|
MAVLink2 support has been added
|
|
-------------------------------
|
|
See this post by Tridge -
|
|
http://discuss.ardupilot.org/t/mavlink2-is-in-ardupilot-master/9188/1
|
|
|
|
|
|
The other changes in this release are:
|
|
|
|
- setting your sonar_trigger_cm to 0 will now log the sonar data but
|
|
not use it for vehicle avoidance.
|
|
- the throttle PID is now being logged
|
|
- range finder input is now being captured (thanks to Allan Matthew)
|
|
- added LOG_DISARMED parameter
|
|
- merge upstream PX4Firmware changes
|
|
- numerous waf build improvements
|
|
- numerous EKF2 improvements
|
|
|
|
|
|
Release 3.0.0, 5 April 2016
|
|
===========================
|
|
The ArduPilot development team is proud to announce the release of
|
|
version 3.0.0 of APM:Rover. This is a major release with a lot of
|
|
changes so please read the notes carefully!
|
|
|
|
A huge thanks to ALL the ArduPilot developers. The Rover code
|
|
benefits tremendously from all the hard work that goes into the Copter
|
|
and Plane vehicle code. Most of the code changes in this
|
|
release were not specifically for Rover however because of the
|
|
fantastic architecture of the ArduPilot code Rover automatically get's
|
|
those enhancements anyway.
|
|
|
|
Note that the documentation hasn't yet caught up with all the changes
|
|
in this release. We are still working on that, but meanwhile if you
|
|
see a feature that interests you and it isn't documented yet then
|
|
please ask.
|
|
|
|
The 3.x.x releases and above DON'T support APM1/APM2
|
|
----------------------------------------------------
|
|
This release DOES NOT SUPPORT the old APM1/APM2 AVR based boards. The
|
|
issue is the amount of effort required to keep the new code ported to
|
|
the old platforms. We are very sorry this has to occur and if there
|
|
is someone who is willing and technically capable of doing this work
|
|
then please let us know.
|
|
There will be a discussion created on ArduPilot forums where people
|
|
can request features in the new code be backported to the APM code to
|
|
run on the AVR boards and if it is reasonably easy and they are
|
|
willing to do the beta testing we will do our best to make it happen.
|
|
|
|
EKF2 - New Kalman Filter
|
|
------------------------
|
|
Paul Riseborough has been working hard recently on the new
|
|
EKF2 variant which fixes many issues seen with the old estimator. The
|
|
key improvements are:
|
|
|
|
- support for separate filters on each IMU for multi-IMU boards
|
|
(such as the Pixhawk), giving a high degree of redundency
|
|
- much better handling of gyro drift estimation, especially on
|
|
startup
|
|
- much faster recovery from attitude estimation errors
|
|
|
|
After extensive testing of the new EKF code we decided to make it the
|
|
default for this release. You can still use the old EKF if you want to
|
|
by setting AHRS_EKF_TYPE to 1, although it is recommended that the new
|
|
EKF be used for all vehicles.
|
|
|
|
In order to use the EKF we need to be a bit more careful about the
|
|
setup of the vehicle. That is why we enabled arming and pre-arm checks
|
|
by default. Please don't disable the arming checks, they are there for
|
|
very good reasons.
|
|
|
|
UAVCAN new protocol
|
|
-------------------
|
|
The uavcan change to the new protocol has been a long time coming, and
|
|
we'd like to thank Holger for both his great work on this and his
|
|
patience given how long it has taken to be in a release. This adds
|
|
support for automatic canbus node assignment which makes setup much
|
|
easier, and also supports the latest versions of the Zubax canbus GPS.
|
|
|
|
Support for 4 new Boards
|
|
------------------------
|
|
The porting of ArduPilot to more boards continues, with support
|
|
for 3 new boards in this release. They are:
|
|
|
|
- the BHAT board
|
|
- the PXFmini
|
|
- the QualComm Flight
|
|
- the Pixracer
|
|
|
|
More information about the list of supported boards is available here:
|
|
https://ardupilot.org/copter/docs/common-autopilots.html
|
|
|
|
Startup on a moving platform
|
|
----------------------------
|
|
One of the benefits of the new EKF2 estimator is that it allows for
|
|
rapid estimation of gyro offset without doing a gyro calibration on
|
|
startup. This makes it possible to startup and arm on a moving
|
|
platform by setting the INS_GYR_CAL parameter to zero (to disable gyro
|
|
calibration on boot). This should be a big help for boats.
|
|
|
|
Improved Camera Trigger Logging
|
|
-------------------------------
|
|
This release adds new CAM_FEEDBACK_PIN and CAM_FEEDBACK_POL
|
|
parameters. These add support for separate CAM and TRIG log messages,
|
|
where TRIG is logged when the camera is triggered and the CAM message
|
|
is logged when an external pin indicates the camera has actually
|
|
fired. This pin is typically based on the flash hotshoe of a camera
|
|
and provides a way to log the exact time of camera triggering more
|
|
accurately. Many thanks to Dario Andres and Jaime Machuca for their
|
|
work on this feature.
|
|
|
|
PID Tuning
|
|
----------
|
|
You can now see the individual contributions of the P, I and D
|
|
components for the Steering PID in the logs (PIDY), allowing you to
|
|
get a much better picture of the performance.
|
|
|
|
Vibration Logging
|
|
-----------------
|
|
This release includes a lot more options for diagnosing vibration
|
|
issues. You will notice new VIBRATION messages in MAVLink and VIBE
|
|
messages in the dataflash logs. Those give you a good idea of your
|
|
(unfiltered) vibration levels. For really detailed analysis you can
|
|
setup your LOG_BITMASK to include raw logging, which gives you every
|
|
accel and gyro sample on your Pixhawk. You can then do a FFT on the
|
|
result and plot the distribution of vibration level with
|
|
frequency. That is great for finding the cause of vibration
|
|
issues. Note that you need a very fast microSD card for that to work!
|
|
|
|
More Sensors
|
|
------------
|
|
This release includes support for a bunch more sensors. It now supports
|
|
3 different interfaces for the LightWare range of Lidars (serial, I2C
|
|
and analog), and also supports the very nice Septentrio RTK
|
|
dual-frequency GPS (the first dual-frequency GPS we have support
|
|
for). It also supports the new "blue label" Lidar from Pulsed Light
|
|
(both on I2C and PWM).
|
|
|
|
For the uBlox GPS, we now have a lot more configurability of the
|
|
driver, with the ability to set the GNSS mode for different
|
|
constellations. Also in the uBlox driver we support logging of the raw
|
|
carrier phase and pseudo range data, which allows for post RTK
|
|
analysis with raw-capable receivers for really accurate photo
|
|
missions.
|
|
|
|
Better Linux support
|
|
--------------------
|
|
This release includes a lot of improvements to the Linux based
|
|
autopilot boards, including the NavIO+, the PXF and ERLE boards and
|
|
the BBBMini and the new RasPilot board.
|
|
|
|
On-board compass calibrator
|
|
---------------------------
|
|
We also have a new on-board compass calibrator, which also adds calibration
|
|
for soft iron effects, allowing for much more accurate compass
|
|
calibration.
|
|
|
|
Lots of other changes!
|
|
----------------------
|
|
The above list is just a taste of the changes that have gone into this
|
|
release. Thousands of small changes have gone into this release with
|
|
dozens of people contributing. Many thanks to everyone who helped!
|
|
|
|
Other key changes
|
|
-----------------
|
|
- fixed the MAV_CMD_DO_SET_HOME (thanks salonijain12)
|
|
- fixed bug when reverse throttle would increase speed in AUTO
|
|
- fixed a bug going into guided and rover still moving
|
|
- loitering at a waypoint if Param1 is non-zero
|
|
- update uavcan to new protocol
|
|
- fixed reporting of armed state with safety switch
|
|
- added optional arming check for minimum voltage
|
|
- improved text message queueing to ground stations
|
|
- re-organisation of HAL_Linux bus API
|
|
- improved NMEA parsing in GPS driver
|
|
- improved autoconfig of uBlox GPS driver
|
|
- support a wider range of Lightware serial Lidars
|
|
- improved non-GPS performance of EKF2
|
|
- improved compass fusion in EKF2
|
|
- improved support for Pixracer board
|
|
- improved NavIO2 support
|
|
- added BATT_WATT_MAX parameter
|
|
- enable messages for MAVLink gimbal support
|
|
- use 64 bit timestamps in dataflash logs
|
|
- added realtime PID tuning messages and PID logging
|
|
- fixed a failure case for the px4 failsafe mixer
|
|
- added DSM binding support on Pixhawk
|
|
- added vibration level logging
|
|
- ignore low voltage failsafe while disarmed
|
|
- added delta velocity and delta angle logging
|
|
- allow steering disarm based on ARMING_RUDDER parameter
|
|
- prevent mode switch changes changing WP tracking
|
|
- fixed parameter documentation spelling errors
|
|
- send MISSION_ITEM_REACHED messages on waypoint completion
|
|
- enable EKF by default on rover
|
|
- Improve gyro bias learning rate for plane and rover
|
|
- Allow switching primary GPS instance with 1 sat difference
|
|
- added NSH over MAVLink support
|
|
- added support for mpu9250 on pixhawk and pixhawk2
|
|
- Add support for logging ublox RXM-RAWX messages
|
|
- lots of updates to improve support for Linux based boards
|
|
- added ORGN message in dataflash
|
|
- added support for new "blue label" Lidar
|
|
- switched to real hdop in uBlox driver
|
|
- improved auto-config of uBlox
|
|
- raise accel discrepancy arming threshold to 0.75
|
|
- improved support for tcp and udp connections on Linux
|
|
- switched to delta-velocity and delta-angles in DCM
|
|
- improved detection of which accel to use in EKF
|
|
- improved auto-detections of flow control on pixhawk UARTs
|
|
- added HDOP to uavcan GPS driver
|
|
- improved sending of autopilot version
|
|
- log zero rangefinder distance when unhealthy
|
|
- added PRU firmware files for BeagleBoneBlack port
|
|
- fix for recent STORM32 gimbal support
|
|
- changed sending of STATUSTEXT severity to use correct values
|
|
- added new RSSI library with PWM input support
|
|
- fixed MAVLink heading report for UAVCAN GPS
|
|
- support LightWare I2C rangefinder on Linux
|
|
- improved staging of parameters and formats on startup to dataflash
|
|
- added new on-board compass calibrator
|
|
- improved RCOutput code for NavIO port
|
|
- added support for Septentrio GPS receiver
|
|
- support DO_MOUNT_CONTROl via command-long interface
|
|
- added CAM_RELAY_ON parameter
|
|
- moved SKIP_GYRO_CAL functionality to INS_GYR_CAL
|
|
- new waf build system
|
|
- new async accel calibrator
|
|
- better rangefinder power control
|
|
- dataflash over mavlink support
|
|
- settable main loop rate
|
|
- hideable parameters
|
|
- improved logging for dual-GPS setups
|
|
- improvements to multiple RTK GPS drivers
|
|
- numerous HAL_Linux improvements
|
|
- improved logging of CAM messages
|
|
- added support for IMU heaters in HAL_Linux
|
|
- support for RCInput over UDP in HAL_Linux
|
|
- improved EKF startup checks for GPS accuracy
|
|
- added raw IMU logging for all platforms
|
|
- configurable RGB LED brightness
|
|
- improvements to the lsm303d driver for Linux
|
|
|
|
|
|
Release 2.50, 19 June 2015
|
|
==========================
|
|
|
|
The ardupilot development team has released version 2.50 of
|
|
APM:Rover. This release is mostly a backend improvement to ArduPilot
|
|
but a few new features and bug fixes are included.
|
|
|
|
Re-do Accelerometer Calibration
|
|
-------------------------------
|
|
Due to a change in the maximum accelerometer range on the Pixhawk all
|
|
users must re-do their accelerometer calibration for this release.
|
|
|
|
|
|
Only 3D accel calibration
|
|
-------------------------
|
|
The old "1D" accelerometer calibration method has now been removed, so
|
|
you must use the 3D accelerometer calibration method. The old method
|
|
was removed because a significant number of users had poor experiences.
|
|
|
|
|
|
Changes in this release are:
|
|
|
|
- CLI_ENABLED parameter added so the CLI can now be accessed
|
|
in Rover
|
|
- PID logging for the steering controller. It its now
|
|
possible to graph what the P, I and D are doing as your
|
|
driving the rover around to enable much better tuning of the
|
|
vehicle.
|
|
- Transition from .pde file to .cpp files for improved
|
|
development.
|
|
- GIT Submodules created for PX4Firmware, PX4Nuttx and uavcan
|
|
git repositories for improved development.
|
|
- Followme mode now works for Rover
|
|
- GUIDED mode significantly improved. If you have a GCS which is in
|
|
Followme mode if the user then changes mode with the RC transmitter to
|
|
HOLD or anything else then the Rover will STOP listening to the
|
|
Followme updated guided mode waypoints.
|
|
- When going into GUIDED mode the rover went into RTL - this
|
|
is fixed.
|
|
- Added EKF_STATUS_REPORT MAVLink message
|
|
- 64-bit timestamps in dataflash logs
|
|
- Numerous EKF improvements
|
|
- Added support for 4th Mavlink channel
|
|
- Added support for raw IMU logging
|
|
- updated Piksi RTK GPS driver
|
|
- improved support for GPS data injection (for Piksi RTK GPS)
|
|
- The SITL software in the loop simulation system has been completely
|
|
rewritten for this release. A major change is to make it possible to
|
|
run SITL on native windows without needing a Linux virtual
|
|
machine. (thanks Tridge)
|
|
|
|
|
|
|
|
Release 2.49, March 4th 2015
|
|
----------------------------
|
|
|
|
The ardupilot development team has released version 2.49 of
|
|
APM:Rover. This release is a bug fix release with two important bugs
|
|
found by Marco Walther - Thanks Marco!
|
|
|
|
The bug fixes in this release are:
|
|
|
|
- fixed a sonar problem where objects to the left wouldn't be
|
|
identified - thanks Marco Walther!
|
|
- Fixed the ordering of the AP_Notify call so the main indicator
|
|
light would be correct on startup - thanks Marco Walther!
|
|
|
|
|
|
|
|
Release 2.48, February 20th 2015
|
|
--------------------------------
|
|
|
|
The ardupilot development team has released version 2.48 of
|
|
APM:Rover. This release is a bug fix release with some important bugs
|
|
found by the users of ardupilot.
|
|
|
|
The changes in this release are:
|
|
|
|
- fixed a bug that could cause short term loss of RC control with
|
|
some receiver systems and configurations
|
|
- allowed for shorter sync pulse widths for PPM-SUM receivers on
|
|
APM1 and APM2
|
|
- fix an issue where battery reporting could be intermittent (thanks
|
|
Georgii Staroselskii!)
|
|
- fixed a mission handling bug that could cause a crash if jump
|
|
commands form an infinite loop (thanks to Dellarb for reporting
|
|
this bug)
|
|
- improved support for in-kernel SPI handling on Linux (thanks to John Williams)
|
|
- support UAVCAN based ESCs and GPS modules on Pixhawk (thanks to
|
|
Pavel, Holger and and PX4 dev team)
|
|
- Multiple updates for the NavIO+ cape on RaspberryPi (thanks to
|
|
Emlid)
|
|
- Lots of EKF changes
|
|
- added support for MAVLink packet routing
|
|
- added detection and recovery from faulty gyro and accel sensors
|
|
- added support for BBBMini Linux port
|
|
- increased number of AVR input channels from 8 to 11
|
|
- auto-set system clock based on GPS in Linux ports
|
|
- added SBUS FrSky telemetry support (thanks to Mathias)
|
|
- Added AK8963 MAG support (thanks Staroselskii Georgii)
|
|
- Added support for second battery
|
|
- Auto formatting of SDCard if it cannot be accessed on startup
|
|
- A number of significant performance improvements for the PX4 platform
|
|
|
|
The most important bug fix is the one for short term loss of RC
|
|
control. This is a very long standing bug which didn't have a
|
|
noticeable impact for most people, but could cause loss of RC control
|
|
for around 1 or 2 seconds for some people in certain circumstances.
|
|
|
|
The bug was in the the AP_HAL RCInput API. Each HAL backend has a flag
|
|
that says whether there is a new RC input frame available. That flag
|
|
was cleared by the read() method (typically hal.rcin->read()). Callers
|
|
would check for new input by checking the boolean
|
|
hal.rcin->new_input() function.
|
|
|
|
The problem was that read() was called from multiple places. Normally
|
|
this is fine as reads from other than the main radio input loop happen
|
|
before the other reads, but if the timing of the new radio frame
|
|
exactly matched the loop frequency then a read from another place
|
|
could clear the new_input flag and we would not see the new RC input
|
|
frame. If that happened enough times we would go into a short term RC
|
|
failsafe and ignore RC inputs, even in manual mode.
|
|
|
|
The fix was very simple - it is the new_input() function itself that
|
|
should clear the flag, not read().
|
|
|
|
Many thanks to MarkM for helping us track down this bug by providing
|
|
us with sufficient detail on how to reproduce it. In Marks case his
|
|
OpenLRSng configuration happened to produce exactly the worst case
|
|
timing needed to reproduce the issue. Once Tridge copied his OpenLRS
|
|
settings to his TX/RX he was able to reproduce the problem and it was
|
|
easy to find and fix.
|
|
|
|
A number of users have reported occasional glitches in manual control
|
|
where servos pause for short periods in past releases. It is likely
|
|
that some of those issues were caused by this bug. The dev team would
|
|
like to apologise for taking so long to track down this bug!
|
|
|
|
The other main change was also related to RC input. Some receivers use
|
|
a PPM-SUM sync pulse width shorter than what the APM1/APM2 code was
|
|
setup to handle. The OpenLRSng default sync pulse width is 3000
|
|
microseconds, but the APM1/APM2 code was written for a mininum sync
|
|
pulse width of 4000 microseconds. For this release we have changed the
|
|
APM1/APM2 driver to accept a sync pulse width down to 2700
|
|
microseconds.
|
|
|
|
Auto format of SD Card
|
|
======================
|
|
From time to time the SD cards in the PX4 autopilots get corrupted.
|
|
This isn't a surprise considering what we do to them. Your all
|
|
familiar with the windows "please unmount or eject your SDCard before
|
|
removing" process. Well we don't do that. In fact normal operation
|
|
is to just pull the power on the SDCard - whilst its being written
|
|
too!! Not to metion the horrible vibration rich environment the
|
|
SDCard exists in. If the autopilot is setup in the internal innards
|
|
of your plane/copter/rover this can be a nightmare to get to. To
|
|
resolve that problem Tridge has added code at startup so when
|
|
ArduPilot tries to mount to SDCard to access it - if that fails it
|
|
will then try to format the SDCard and if successful mount the card
|
|
and proceed. If the format fails then you will get the usual SOS
|
|
Audio that makes most of us want to find the buzzer and rip its heart
|
|
out.
|
|
|
|
I mention this in case anyone has precious logs saved on the SDCard or
|
|
they are using the SDCard out of their phone with their wedding
|
|
photo's on it. Probably best not to do that and assume any data on
|
|
the SDCard can be deleted.
|
|
|
|
We are also looking to add a parameter to control whether the card is
|
|
auto formatted on startup or not but it isn't in there yet.
|
|
|
|
|
|
|
|
Release 2.47, November 15th 2014
|
|
--------------------------------
|
|
|
|
The ardupilot development team is proud to announce the release of
|
|
version 2.47 of APM:Rover. This is a minor bug fix release. The most
|
|
important change in this release is the fixing of the skid steering
|
|
support but there have been a number of fixes in other areas as well.
|
|
|
|
Full changes list for this release:
|
|
|
|
- add support for controlling safety switch on Pixhawk from ground station
|
|
|
|
- prevent reports of failed AHRS during initialisation
|
|
|
|
- fixed skid steering that was broken in the last release
|
|
|
|
- report gyro unhealthy if gyro calibration failed
|
|
|
|
- fixed dual sonar support in CLI sonar test
|
|
|
|
- fixed Nuttx crash on Pixhawk with bad I2C cables
|
|
|
|
- added GPS_SBAS_MODE parameter - turns on/off satellite based augemtation system for GPS
|
|
|
|
- added GPS_MIN_ELEV parameter - specifiy the elevation mask for GPS satellites
|
|
|
|
- added RELAY_DEFAULT parameter to control default of relay on startup
|
|
|
|
- fixed bug in FRAM storage on Pixhawk that could cause parameters changes not to be saved
|
|
|
|
- better handling of compass errors in the EKF (Extended Kalman Filter)
|
|
|
|
- improved support for linux based autopilots
|
|
|
|
- added support for PulsedLight LIDAR as a range finder
|
|
|
|
Many thanks to everyone who contributed to this release, especially
|
|
Tom Coyle and Linus Penzlien for their excellent testing and feedback.
|
|
|
|
Happy driving!
|
|
|
|
|
|
|
|
Release 2.46, August 26th 2014
|
|
------------------------------
|
|
|
|
The ardupilot development team is proud to announce the release of
|
|
version 2.46 of APM:Rover. This is a major release with a lot of new
|
|
features and bug fixes.
|
|
|
|
This release is based on a lot of development and testing that
|
|
happened prior to the AVC competition where APM based vehicles
|
|
performed very well.
|
|
|
|
Full changes list for this release:
|
|
|
|
- added support for higher baudrates on telemetry ports, to make it
|
|
easier to use high rate telemetry to companion boards. Rates of up
|
|
to 1.5MBit are now supported to companion boards.
|
|
|
|
- new Rangefinder code with support for a wider range of rangefinder
|
|
types including a range of Lidars (thanks to Allyson Kreft)
|
|
|
|
- added logging of power status on Pixhawk
|
|
|
|
- added PIVOT_TURN_ANGLE parameter for pivot based turns on skid
|
|
steering rovers
|
|
|
|
- lots of improvements to the EKF support for Rover, thanks to Paul
|
|
Riseborough and testing from Tom Coyle. Using the EKF can greatly
|
|
improve navigation accuracy for fast rovers. Enable with
|
|
AHRS_EKF_USE=1.
|
|
|
|
- improved support for dual GPS on Pixhawk. Using a 2nd GPS can
|
|
greatly improve performance when in an area with an obstructed
|
|
view of the sky
|
|
|
|
- support for up to 14 RC channels on Pihxawk
|
|
|
|
- added BRAKING_PERCENT and BRAKING_SPEEDERR parameters for better
|
|
breaking support when cornering
|
|
|
|
- added support for FrSky telemetry via SERIAL2_PROTOCOL parameter
|
|
(thanks to Matthias Badaire)
|
|
|
|
- added support for Linux based autopilots, initially with the PXF
|
|
BeagleBoneBlack cape and the Erle robotics board. Support for more
|
|
boards is expected in future releases. Thanks to Victor, Sid and
|
|
Anuj for their great work on the Linux port.
|
|
|
|
- added StorageManager library, which expands available FRAM storage
|
|
on Pixhawk to 16 kByte. This allows for 724 waypoints, 50 rally
|
|
points and 84 fence points on Pixhawk.
|
|
|
|
- improved reporting of magnetometer and barometer errors to the GCS
|
|
|
|
- fixed a bug in automatic flow control detection for serial ports
|
|
in Pixhawk
|
|
|
|
- fixed use of FMU servo pins as digital inputs on Pixhawk
|
|
|
|
- imported latest updates for VRBrain boards (thanks to Emile
|
|
Castelnuovo and Luca Micheletti)
|
|
|
|
- updates to the Piksi GPS support (thanks to Niels Joubert)
|
|
|
|
- improved gyro estimate in DCM (thanks to Jon Challinger)
|
|
|
|
- improved position projection in DCM in wind (thanks to Przemek
|
|
Lekston)
|
|
|
|
- several updates to AP_NavEKF for more robust handling of errors
|
|
(thanks to Paul Riseborough)
|
|
|
|
- lots of small code cleanups thanks to Daniel Frenzel
|
|
|
|
- initial support for NavIO board from Mikhail Avkhimenia
|
|
|
|
- fixed logging of RCOU for up to 12 channels (thanks to Emile
|
|
Castelnuovo)
|
|
|
|
- code cleanups from Silvia Nunezrivero
|
|
|
|
- improved parameter download speed on radio links with no flow
|
|
control
|
|
|
|
Many thanks to everyone who contributed to this release, especially
|
|
Tom Coyle and Linus Penzlien for their excellent testing and feedback.
|
|
|
|
Happy driving!
|