-
 
No version for distro humble. Known supported distros are highlighted in the buttons above.
No version for distro iron. Known supported distros are highlighted in the buttons above.
No version for distro jazzy. Known supported distros are highlighted in the buttons above.
No version for distro rolling. Known supported distros are highlighted in the buttons above.

innopolis_vtol_dynamics package from inno_vtol_dynamics repo

innopolis_vtol_dynamics

Package Summary

Tags No category tags.
Version 0.0.0
License GPLv3
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/InnopolisAero/inno_vtol_dynamics.git
VCS Type git
VCS Version main
Last Updated 2024-09-02
Dev Status MAINTAINED
CI status Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The innopolis_vtol_dynamics package

Additional Links

No additional links.

Maintainers

  • Roman Fedorenko

Authors

  • Roman Fedorenko
  • Dmitry Ponomarev
  • Ezra Tal
  • Winter Guerra

Zilant UAV dynamics Quality Gate Status Code Smells Lines of Code Coverage

This package is the core of the UAV HITL dynamics simulator. It has an implementation of custom quadcopter vertical takeoff and landing aircraft dynamics.

VTOL plane

Innopolis VTOL has UAVCAN onboard electronics based on RaccoonLab Cyphal/DroneCAN sensors and actuators (so it’s a good example of full UAVCAN-based onboard control and object for new UAVCAN-HITL simulation approach).

Purpose

  • Modeling of UAV onboard systems at a low hardware level
  • Development and testing of intelligent automatic control systems for UAVs.
  • Training in the development and use of drones, including creating datasets and automated testing.

Minimal technical requirements

  • Operating System: We’ve tailored the simulator for modern versions of Windows, Linux, and Mac. Choose the build that matches your OS.

  • CPU: Aim for an Intel i7 from the 11th or 12th generation. For those using AMD, any equivalent processor will suffice.

  • RAM: 16GB is a recommended minimum, but more is always better for performance.

Design

This package contains Innopolis VTOL simulation based on rigid body kinematics and dynamics, CFD analysis and actuators simulation.

Innopolis VTOL plane dynamics structure

The package is used inside a new Cyphal/DroneCAN-HITL .

The node from this package communicates with the flight stack via communicator UAV dynamics by subscribing and publishing to the following topics:

flowchart LR

actuators[ /uav/actuators, sensor_msgs/Joy] --> F(uav_hitl_node)
arm[ /uav/arm, std_msgs/Bool] --> F(uav_hitl_node)
calibration[ /uav/calibration, std_msgs/UInt8] --> F(uav_hitl_node)
scenario[ /uav/scenario, std_msgs/UInt8] --> F(uav_hitl_node)
F --> temperature[ /uav/static_temperature, std_msgs/Float32]
F --> static_pressure[ /uav/static_pressure, std_msgs/Float32]
F --> raw_air_data[ /uav/raw_air_data, std_msgs/Float32]
F --> gps_point[ /uav/gps_point, sensor_msgs/NavSatFix]
F --> velocity[ /uav/velocity, geometry_msgs/Twist]
F --> imu[ /uav/imu, sensor_msgs/Imu]
F --> mag[ /uav/mag, sensor_msgs/MagneticField]
F --> esc_status[ /uav/esc_status, mavros_msgs/ESCTelemetryItem]
F --> ice_rpm[ /uav/esc_status, mavros_msgs/ESCStatusItem]
F --> ice_status[ /uav/ice_status, std_msgs/UInt8]
F --> fuel_tank_status[ /uav/ice_status, std_msgs/UInt8]
F --> battery_status[ /uav/battery_status, sensor_msgs/BatteryState]

Auxilliary topics might be enabled/disabled in the sim_params.yaml config file. You may implement your own sensors in the sensors.cpp file.

To work in pair with InnoSimulator as physics engine via inno_sim_interface it publishes and subscribes on following topics.

flowchart LR

F(uav_hitl_node) --> actuators[ /uav/actuators, sensor_msgs/Joy]
F --> gps_point[ /uav/gps_point, sensor_msgs/NavSatFix]
F --> velocity[ /uav/velocity, geometry_msgs/Twist]
F --> attitude[ /uav/attitude, geometry_msgs/QuaternionStamped]
actuators --> G(inno_sim_interface)
gps_point --> G
velocity --> G
attitude --> G

CHANGELOG
No CHANGELOG found.

Wiki Tutorials

This package does not provide any links to tutorials in it's rosindex metadata. You can check on the ROS Wiki Tutorials page for the package.

Launch files

  • launch/rviz.launch
  • launch/hitl.launch
      • logging_type — [standard_vtol, quadcopter]
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
      • mixer [default: vtol_13070_mixer] — [vtol_13070_mixer, babyshark_standard_vtol_mixer, direct_mixer]
      • dynamics [default: vtol_dynamics] — [vtol_dynamics, quadcopter]
      • run_rviz [default: false] — [true, false]
      • run_inno_sim_bridge [default: false] — [true, false]
      • run_cyphal_communicator [default: false] — [true, false]
      • run_dronecan_communicator [default: false] — [true, false]
  • launch/uavcan_communicator.launch
      • partial_cyphal [default: false] — [true, false]
  • launch/sitl.launch
      • logging_type — [standard_vtol, quadcopter]
      • sitl_vehicle — [innopolis_vtol, iris]
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
      • mixer [default: vtol_13070_mixer] — [vtol_13070_mixer, babyshark_standard_vtol_mixer, direct_mixer]
      • dynamics [default: vtol_dynamics] — [vtol_dynamics, quadcopter]
      • run_rviz [default: false] — [true, false]
      • run_inno_sim_bridge [default: false] — [true, false]
      • run_sitl_flight_stack [default: true] — [true, false]
  • launch/inno_sim.launch
  • launch/load_parameters.launch
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
  • launch/dynamics.launch
      • logging_type — [standard_vtol, quadcopter]
      • sitl_vehicle [default: iris] — [innopolis_vtol, iris]
      • mixer [default: vtol_13070_mixer] — [vtol_13070_mixer, babyshark_standard_vtol_mixer, direct_mixer]
      • dynamics [default: vtol_dynamics] — [vtol_dynamics, quadcopter]
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
      • run_rviz [default: false] — [true, false]
      • run_sitl_flight_stack [default: true] — [true means sitl, false means do nothing]
      • run_sitl_communicator [default: false] — [true means run mavlink communicator, false means do nothing]
      • run_hitl_communicator [default: false] — [true means run uavcan communicator, false means do nothing]
      • run_inno_sim_bridge [default: false] — [true, false]
      • run_cyphal_communicator [default: false] — [true, false]
      • run_dronecan_communicator [default: false] — [true, false]
  • launch/gazebo.launch
      • vehicle [default: standard_vtol] — [standard_vtol, iris]
      • fcu_url [default: udp://:14540@127.0.0.1:14557] — [udp://:14560@127.0.0.1:14558]
      • gui [default: true]

Messages

No message files found.

Services

No service files found

Plugins

No plugins found.

Recent questions tagged innopolis_vtol_dynamics at Robotics Stack Exchange

No version for distro galactic. Known supported distros are highlighted in the buttons above.

innopolis_vtol_dynamics package from inno_vtol_dynamics repo

innopolis_vtol_dynamics

Package Summary

Tags No category tags.
Version 0.0.0
License GPLv3
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/InnopolisAero/inno_vtol_dynamics.git
VCS Type git
VCS Version main
Last Updated 2024-09-02
Dev Status MAINTAINED
CI status Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

The innopolis_vtol_dynamics package

Additional Links

No additional links.

Maintainers

  • Roman Fedorenko

Authors

  • Roman Fedorenko
  • Dmitry Ponomarev
  • Ezra Tal
  • Winter Guerra

Zilant UAV dynamics Quality Gate Status Code Smells Lines of Code Coverage

This package is the core of the UAV HITL dynamics simulator. It has an implementation of custom quadcopter vertical takeoff and landing aircraft dynamics.

VTOL plane

Innopolis VTOL has UAVCAN onboard electronics based on RaccoonLab Cyphal/DroneCAN sensors and actuators (so it’s a good example of full UAVCAN-based onboard control and object for new UAVCAN-HITL simulation approach).

Purpose

  • Modeling of UAV onboard systems at a low hardware level
  • Development and testing of intelligent automatic control systems for UAVs.
  • Training in the development and use of drones, including creating datasets and automated testing.

Minimal technical requirements

  • Operating System: We’ve tailored the simulator for modern versions of Windows, Linux, and Mac. Choose the build that matches your OS.

  • CPU: Aim for an Intel i7 from the 11th or 12th generation. For those using AMD, any equivalent processor will suffice.

  • RAM: 16GB is a recommended minimum, but more is always better for performance.

Design

This package contains Innopolis VTOL simulation based on rigid body kinematics and dynamics, CFD analysis and actuators simulation.

Innopolis VTOL plane dynamics structure

The package is used inside a new Cyphal/DroneCAN-HITL .

The node from this package communicates with the flight stack via communicator UAV dynamics by subscribing and publishing to the following topics:

flowchart LR

actuators[ /uav/actuators, sensor_msgs/Joy] --> F(uav_hitl_node)
arm[ /uav/arm, std_msgs/Bool] --> F(uav_hitl_node)
calibration[ /uav/calibration, std_msgs/UInt8] --> F(uav_hitl_node)
scenario[ /uav/scenario, std_msgs/UInt8] --> F(uav_hitl_node)
F --> temperature[ /uav/static_temperature, std_msgs/Float32]
F --> static_pressure[ /uav/static_pressure, std_msgs/Float32]
F --> raw_air_data[ /uav/raw_air_data, std_msgs/Float32]
F --> gps_point[ /uav/gps_point, sensor_msgs/NavSatFix]
F --> velocity[ /uav/velocity, geometry_msgs/Twist]
F --> imu[ /uav/imu, sensor_msgs/Imu]
F --> mag[ /uav/mag, sensor_msgs/MagneticField]
F --> esc_status[ /uav/esc_status, mavros_msgs/ESCTelemetryItem]
F --> ice_rpm[ /uav/esc_status, mavros_msgs/ESCStatusItem]
F --> ice_status[ /uav/ice_status, std_msgs/UInt8]
F --> fuel_tank_status[ /uav/ice_status, std_msgs/UInt8]
F --> battery_status[ /uav/battery_status, sensor_msgs/BatteryState]

Auxilliary topics might be enabled/disabled in the sim_params.yaml config file. You may implement your own sensors in the sensors.cpp file.

To work in pair with InnoSimulator as physics engine via inno_sim_interface it publishes and subscribes on following topics.

flowchart LR

F(uav_hitl_node) --> actuators[ /uav/actuators, sensor_msgs/Joy]
F --> gps_point[ /uav/gps_point, sensor_msgs/NavSatFix]
F --> velocity[ /uav/velocity, geometry_msgs/Twist]
F --> attitude[ /uav/attitude, geometry_msgs/QuaternionStamped]
actuators --> G(inno_sim_interface)
gps_point --> G
velocity --> G
attitude --> G

CHANGELOG
No CHANGELOG found.

Wiki Tutorials

This package does not provide any links to tutorials in it's rosindex metadata. You can check on the ROS Wiki Tutorials page for the package.

Launch files

  • launch/rviz.launch
  • launch/hitl.launch
      • logging_type — [standard_vtol, quadcopter]
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
      • mixer [default: vtol_13070_mixer] — [vtol_13070_mixer, babyshark_standard_vtol_mixer, direct_mixer]
      • dynamics [default: vtol_dynamics] — [vtol_dynamics, quadcopter]
      • run_rviz [default: false] — [true, false]
      • run_inno_sim_bridge [default: false] — [true, false]
      • run_cyphal_communicator [default: false] — [true, false]
      • run_dronecan_communicator [default: false] — [true, false]
  • launch/uavcan_communicator.launch
      • partial_cyphal [default: false] — [true, false]
  • launch/sitl.launch
      • logging_type — [standard_vtol, quadcopter]
      • sitl_vehicle — [innopolis_vtol, iris]
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
      • mixer [default: vtol_13070_mixer] — [vtol_13070_mixer, babyshark_standard_vtol_mixer, direct_mixer]
      • dynamics [default: vtol_dynamics] — [vtol_dynamics, quadcopter]
      • run_rviz [default: false] — [true, false]
      • run_inno_sim_bridge [default: false] — [true, false]
      • run_sitl_flight_stack [default: true] — [true, false]
  • launch/inno_sim.launch
  • launch/load_parameters.launch
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
  • launch/dynamics.launch
      • logging_type — [standard_vtol, quadcopter]
      • sitl_vehicle [default: iris] — [innopolis_vtol, iris]
      • mixer [default: vtol_13070_mixer] — [vtol_13070_mixer, babyshark_standard_vtol_mixer, direct_mixer]
      • dynamics [default: vtol_dynamics] — [vtol_dynamics, quadcopter]
      • vehicle_params — [quadrotor, octorotor, vtol_7kg, vtol_tfm15]
      • run_rviz [default: false] — [true, false]
      • run_sitl_flight_stack [default: true] — [true means sitl, false means do nothing]
      • run_sitl_communicator [default: false] — [true means run mavlink communicator, false means do nothing]
      • run_hitl_communicator [default: false] — [true means run uavcan communicator, false means do nothing]
      • run_inno_sim_bridge [default: false] — [true, false]
      • run_cyphal_communicator [default: false] — [true, false]
      • run_dronecan_communicator [default: false] — [true, false]
  • launch/gazebo.launch
      • vehicle [default: standard_vtol] — [standard_vtol, iris]
      • fcu_url [default: udp://:14540@127.0.0.1:14557] — [udp://:14560@127.0.0.1:14558]
      • gui [default: true]

Messages

No message files found.

Services

No service files found

Plugins

No plugins found.

Recent questions tagged innopolis_vtol_dynamics at Robotics Stack Exchange