Distance sensors provide distance measurement that can be used for terrain following, terrain holding (i.e. precision hovering for photography), improved landing behaviour (range aid), warning of regulatory height limits, collision prevention, etc.
This section lists the distance sensors supported by PX4 (linked to more detailed documentation), the generic configuration required for all rangefinders, testing, and simulation information. More detailed setup and configuration information is provided in the topics linked below (and sidebar).
Lidar-Lite is a compact, high-performance optical distant measurement rangefinder. It has a sensor range from (5cm - 40m) and can be connected to either PWM or I2C ports.
The MaxBotix I2CXL-MaxSonar-EZ range has a number of relatively short-ranged sonar based rangefinders that are suitable for assisted takeoff/landing and collision avoidance. These can be connected using an I2C port.
The rangefinders are enabled using the parameter SENS_EN_MB12XX.
Lightware SFxx Lidar provide a broad range of lightweight "laser altimeters" that are suitable for many drone applications.
PX4 supports: SF11/c and SF/LW20. PX4 can also be used with the following discontinued models: SF02, SF10/a, SF10/b, SF10/c.
TeraRanger provide a number of lightweight distance measurement sensors based on infrared Time-of-Flight (ToF) technology. They are typically faster and have greater range than sonar, and smaller and lighter than laser-based systems.
PX4 supports the following models connected via the I2C bus: TeraRanger One, TeraRanger Evo 60m and TeraRanger Evo 600Hz.
The Aerotenna uLanding Radar is compact microwave rangefinder that has been optimised for use on UAVs. It has a sensing range of 45m. A particular advantages of this product are that it can operate effectively in all weather conditions and over all terrain types (including water).
LeddarOne is small Lidar module with a narrow, yet diffuse beam that offers excellent overall detection range and performance, in a robust, reliable, cost-effective package. It has a sensing range from 1cm to 40m and needs to be connected to a UART/serial bus.
The Benewake TFmini Lidar is a tiny, low cost, and low power LIDAR with 12m range.
The Lanbao PSK-CM8JL65-CC5 ToF Infrared Distance Measuring Sensor is a very small (38 mm x 18mm x 7mm, <10g) IR distance sensor with a 0.17m-8m range and millimeter resolution. It must be connected to a UART/serial bus.
Rangefinders are usually connected to either a serial (PWM) or I2C port (depending on the device driver), and are enabled on the port by setting a particular parameter.
The hardware and software setup that is specific to each distance sensor is covered in their individual topics.
The generic configuration that is common to all distance sensors, covering both the physical setup and usage, is given below.
The common rangefinder configuration is specified using EKF2RNG* parameters. These include (non exhaustively):
- EKF2_RNG_POS_X, EKF2_RNG_POS_Y, EKF2_RNG_POS_Z - offset of the rangefinder from the vehicle centre of gravity in X, Y, Z directions.
- EKF2_RNG_PITCH - A value of 0 degrees (default) corresponds to the range finder being exactly aligned with the vehicle vertical axis (i.e. straight down), while 90 degrees indicates that the range finder is pointing forward. Simple trigonometry is used to calculate the distance to ground if a non-zero pitch is used.
- EKF2_RNG_DELAY - approximate delay of data reaching the estimator from the sensor.
- EKF2_RNG_SFE - Range finder range dependant noise scaler.
- EKF2_RNG_NOISE - Measurement noise for range finder fusion
The easiest way to test the rangefinder is to vary the range and compare to the values detected by PX4. The sections below show some approaches to getting the measured range.
The QGroundControl Analyze Tool tool and QGroundControl MAVLink Inspector let you view messages sent from the vehicle, including
DISTANCE_SENSOR information from the rangefinder. The main difference between the tools is that the Analyze tool can plot values in a graph.
The messages that are sent depend on the vehicle configuration. You will only get
DISTANCE_SENSORmessages if the connected vehicle has a rangefinder installed and is publishing sensor values.
To view the rangefinder output:
Open the menu Widgets > Analyze:
Select the message
DISTANCE_SENSOR.current_value. The tool will then plot the result:
You can also use the QGroundControl MAVLink Console to observe the
distance_sensor uORB topic:
listener distance_sensor 5
The QGroundControl MAVLink Console works when connected to Pixhawk or other NuttX targets, but not the Simulator. On the Simulator you can run the commands directly in the terminal.
For more information see: Sensor/Topic Debugging using the Listener Command (PX4 Development Guide).
Lidar and sonar rangefinders can be used in the Gazebo Simulator (PX4 Development Guide). To do this you must start the simulator using a vehicle model that includes the rangefinder.
The iris optical flow model includes a Lidar rangefinder:
make px4_sitl gazebo_iris_opt_flow
The typhoon_h480 includes a sonar rangefinder:
make px4_sitl gazebo_typhoon_h480
If you need to use a different vehicle you can include the model in its configuration file. You can see how in the respective Iris and Typhoon configuration files:
xml <include> <uri>model://sonar</uri> </include> <joint name="sonar_joint" type="revolute"> <child>sonar_model::link</child> <parent>typhoon_h480::base_link</parent> <axis> <xyz>0 0 1</xyz> <limit> <upper>0</upper> <lower>0</lower> </limit> </axis> </joint>
xml <include> <uri>model://lidar</uri> <pose>-0.12 0 0 0 3.1415 0</pose> </include> <joint name="lidar_joint" type="revolute"> <child>lidar::link</child> <parent>iris::base_link</parent> <axis> <xyz>0 0 1</xyz> <limit> <upper>0</upper> <lower>0</lower> </limit> </axis> </joint>