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pylon-ROS-camera

The official pylon ROS driver for Basler GigE Vision and USB3 Vision cameras

Please Note: This project is offered with no technical support by Basler AG. You are welcome to post any questions or issues on GitHub

This driver was improved by drag and bot GmbH from the version originally released by Magazino GmbH.

ROS packages included:

  • pylon_camera: the driver itself
  • camera_control_msgs: message and service definitions for interacting with the camera driver

Please check the README file of each package for more details and help.

For the Impatient

  • Clone this repository in your catkin workspace (e.g. catkin_ws): cd ~/catkin_ws/src && git clone https://github.com/basler/pylon-ros-camera
  • Clone drag&bot public common messages: git clone https://github.com/dragandbot/dragandbot_common.git
  • Install ROS dependencies: sudo sh -c 'echo "yaml https://raw.githubusercontent.com/basler/pylon-ros-camera/master/pylon_camera/rosdep/pylon_sdk.yaml" > /etc/ros/rosdep/sources.list.d/30-pylon_camera.list' && rosdep update && sudo rosdep install --from-paths . --ignore-src --rosdistro=$ROS_DISTRO -y
  • Compile the workspace using catkin build or catkin make: cd ~/catkin_ws && catkin clean -y && catkin build && source ~/.bashrc or cd ~/catkin_ws && catkin_make clean && catkin_make && source ~/.bashrc
  • Start the driver: roslaunch pylon_camera pylon_camera_node.launch
  • GigE Cameras IP Configuration can be done using the command: roslaunch pylon_camera pylon_camera_ip_configuration.launch

The pylon Camera Software Suite is automatically installed through rosdep installation.

Available functionalities:

This package offers many functions of the Basler pylon Camera Software Suite C++ API inside the ROS-Framework.

This is a list of the supported functionality accesible through ROS services, which may depend on the exact camera model you are using:

Image Format Control

  • Offset X
  • Offset Y
  • Reverse X
  • Reverse Y
  • Pixel Format
  • Binning Control
  • ROI Control

Analog Control

  • Black Level
  • Black Level Raw
  • Gain Control
  • Gamma Control
  • Gain Auto

Image Quality Control

  • PGI Control
  • Demosaicing Mode
  • Noise Reduction
  • Sharpness Enhancement
  • Light Source Preset
  • Balance White Auto
  • Brightness Control
  • Balance White

Acquisition Control

  • Sensor Readout Mode
  • Acquisition Burst Frame
  • Acquisition Frame Count
  • Trigger Selector
  • Trigger Mode
  • Generate Software Trigger
  • Trigger Source
  • Trigger Activation
  • Trigger Delay
  • Exposure Time
  • Exposure Auto
  • Auto Exposure Time Upper Limit
  • Acquisition Frame Rate
  • Resulting Frame Rate
  • Trigger Timeout
  • Grabbing Timeout
  • Grabbing Strategy
  • Output Queue Size

Digital I/O Control

  • Line Selector
  • Line Mode
  • Line Source
  • Line Inverter
  • Line Debouncer Time

User Set Control

  • User Set Selector
  • User Set Load
  • User Set Save
  • User Set Default

Device Control

  • Device Link Throughput Limit Mode
  • Device Link Throughput Limit
  • Device Reset
  • Device User ID

Transport Layer

  • (GigE only) GevSCPSPacketSize (Packet Size)
  • (GigE only) GevSCPD (Inter-Packet Delay)
  • (USB only) MaxTransferSize

Stream & Statistic Parameters

  • MaxNumBuffer
  • Statistic Total Buffer Count
  • Statistic Failed Buffer Count
  • (GigE only) Statistic Buffer Underrun Count
  • (GigE only) Statistic Failed Packet Count
  • (GigE only) Statistic Resend Request Count
  • (USB only) Statistic Missed Frame Count
  • (USB only) Statistic Resynchronization Count

Chunk Data

  • ChunkModeActive
  • ChunkSelector
  • ChunkEnable
  • ChunkTimestamp
  • ChunkExposureTime
  • ChunkLineStatusAll
  • (ace GigE) ChunkFramecounter
  • (ace 2 GigE/USB, ace USB) ChunkCounterValue

ROS Service list

The ROS interface with the camera was extended with new functionality. Here is presented a list of current available services.

Service Name Notes
/pylon_camera_node/get_loggers -
/pylon_camera_node/gamma_enable (For GigE Cameras)
/pylon_camera_node/set_binning -
/pylon_camera_node/set_brightness -
/pylon_camera_node/set_camera_info -
/pylon_camera_node/set_exposure -
/pylon_camera_node/set_gain -
/pylon_camera_node/set_gamma -
/pylon_camera_node/set_gamma_selector value : 0 = User, 1 = sRGB (For GigE Cameras)
/pylon_camera_node/set_logger_level -
/pylon_camera_node/set_roi -
/pylon_camera_node/set_sleeping -
/pylon_camera_node/execute_software_trigger -
/pylon_camera_node/load_user_set -
/pylon_camera_node/reset_device -
/pylon_camera_node/save_user_set -
/pylon_camera_node/select_default_user_set value : 0 = Default, 1 = UserSet1, 2 = UserSet2, 3 = UserSet3, 4 = HighGain, 5 = AutoFunctions, 6 = ColorRaw
/pylon_camera_node/select_user_set value : 0 = Default, 1 = UserSet1, 2 = UserSet2, 3 = UserSet3, 4 = HighGain, 5 = AutoFunctions, 6 = ColorRaw
/pylon_camera_node/set_acquisition_frame_count value = new targeted frame count
/pylon_camera_node/set_balance_white_auto value : 0 = Off, 1 = Once, 2 = Continuous
/pylon_camera_node/set_black_level value = new targeted black level
/pylon_camera_node/set_demosaicing_mode value : 0 = Simple, 1 = Basler PGI
/pylon_camera_node/set_device_link_throughput_limit value = new targeted throughput limit in Bytes/sec.
/pylon_camera_node/set_device_link_throughput_limit_mode data : false = deactivate, true = activate
/pylon_camera_node/set_image_encoding value = mono8, mono16, bgr8, rgb8, bayer_bggr8, bayer_gbrg8, bayer_rggb8, bayer_grbg8, bayer_rggb16, bayer_bggr16, bayer_gbrg16, bayer_grbg16
/pylon_camera_node/set_light_source_preset value : 0 = Off, 1 = Daylight5000K, 2 = Daylight6500K, 3 = Tungsten2800K
/pylon_camera_node/set_line_debouncer_time value = delay in micro sec.
/pylon_camera_node/set_line_inverter data : false = deactivate, true = activate
/pylon_camera_node/set_line_mode value : 0 = Input, 1 = Output
/pylon_camera_node/set_line_selector value : 0 = Line1, 1 = Line2, 2 = Line3, 3 = Line4
/pylon_camera_node/set_line_source value : 0 = Exposure Active, 1 = FrameTriggerWait, 2 = UserOutput1, 3 = Timer1Active, 4 = FlashWindow
/pylon_camera_node/set_noise_reduction value = reduction value
/pylon_camera_node/set_max_transfer_size Maximum USB data transfer size in bytes
/pylon_camera_node/set_offset_x value = targeted offset in x-axis
/pylon_camera_node/set_offset_y value = targeted offset in y-axis
/pylon_camera_node/set_pgi_mode data : false = deactivate, true = activate
/pylon_camera_node/set_reverse_x data : false = deactivate, true = activate
/pylon_camera_node/set_reverse_y data : false = deactivate, true = activate
/pylon_camera_node/set_sensor_readout_mode value : 0 = Normal, 1 = Fast
/pylon_camera_node/set_sharpness_enhancement value = sharpness value
/pylon_camera_node/set_trigger_activation value : 0 = RigingEdge, 1 = FallingEdge
/pylon_camera_node/set_trigger_delay value = delay in micro sec.
/pylon_camera_node/set_trigger_mode data : false = deactivate, true = activate
/pylon_camera_node/set_trigger_selector value : 0 = Frame start, 1 = Frame burst start (ace USB cameras) / Acquisition Start (ace GigE cameras)
/pylon_camera_node/set_trigger_source value : 0 = Software, 1 = Line1, 2 = Line3, 3 = Line4, 4 = Action1 (only selected GigE Camera)
/pylon_camera_node/start_grabbing -
/pylon_camera_node/stop_grabbing -
/pylon_camera_node/set_grab_timeout -
/pylon_camera_node/set_trigger_timeout -
/pylon_camera_node/set_white_balance Triggering this service will turn off the white balance auto
/pylon_camera_node/set_grabbing_strategy value : 0 = GrabStrategy_OneByOne, 1 = GrabStrategy_LatestImageOnly, 2 = GrabStrategy_LatestImages
/pylon_camera_node/set_output_queue_size -
/pylon_camera_node/set_max_num_buffer value = Maximum number of buffers that can be used simultaneously for grabbing images.
/pylon_camera_node/get_max_num_buffer value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_total_buffer_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_failed_buffer_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_buffer_underrun_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_failed_packet_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_resend_request_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_missed_frame_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/get_statistic_resynchronization_count value : -1 = Feature not supported by current camera, -2 = error getting the value.
/pylon_camera_node/set_chunk_mode_active -
/pylon_camera_node/get_chunk_mode_active value 1 : enabled , value 2 : disabled, -1 = Feature not supported by current camera, -2 = error setting the value.
/pylon_camera_node/set_chunk_selector 1 = AutoBrightnessStatus , 2 = BrightPixel , 3 = CounterValue 4 = DynamicRangeMax , 5 = DynamicRangeMin , 6 = ExposureTime , 7 = FrameID , 8 = FrameTriggerCounter , 9 = FrameTriggerIgnoredCounter , 10 = Framecounter , 11 = FramesPerTriggerCounter , 12 = Gain , 13 = GainAll , 14 = Height , 15 = Image , 16 = InputStatusAtLineTrigger , 17 = LineStatusAll , 18 = LineTriggerCounter , 19 = LineTriggerEndToEndCounter , 20 = LineTriggerIgnoredCounter, 21 = OffsetX , 22 = OffsetY, 23 = PayloadCRC16 , 24 = PixelFormat , 25 = SequenceSetIndex , 26 = SequencerSetActive, 27 = ShaftEncoderCounter , 28 = Stride , 29 = Timestamp , 30 = Triggerinputcounter , 31 = VirtLineStatusAll , 32 = Width
/pylon_camera_node/get_chunk_selector 1 = AutoBrightnessStatus , 2 = BrightPixel , 3 = CounterValue 4 = DynamicRangeMax , 5 = DynamicRangeMin , 6 = ExposureTime , 7 = FrameID , 8 = FrameTriggerCounter , 9 = FrameTriggerIgnoredCounter , 10 = Framecounter , 11 = FramesPerTriggerCounter , 12 = Gain , 13 = GainAll , 14 = Height , 15 = Image , 16 = InputStatusAtLineTrigger , 17 = LineStatusAll , 18 = LineTriggerCounter , 19 = LineTriggerEndToEndCounter , 20 = LineTriggerIgnoredCounter, 21 = OffsetX , 22 = OffsetY, 23 = PayloadCRC16 , 24 = PixelFormat , 25 = SequenceSetIndex , 26 = SequencerSetActive, 27 = ShaftEncoderCounter , 28 = Stride , 29 = Timestamp , 30 = Triggerinputcounter , 31 = VirtLineStatusAll , 32 = Width
/pylon_camera_node/set_chunk_enable -
/pylon_camera_node/get_chunk_enable value 1 : enabled , value 2 : disabled, -1 = Feature not supported by current camera, -2 = error setting the value.
/pylon_camera_node/get_chunk_timestamp -
/pylon_camera_node/get_chunk_timestamp -
/pylon_camera_node/get_chunk_exposure_time -
/pylon_camera_node/set_chunk_exposure_time -
/pylon_camera_node/get_chunk_line_status_all -
/pylon_camera_node/get_chunk_frame_counter -
/pylon_camera_node/get_chunk_counter_value -

Image pixel encoding

This package currently support the following ROS image pixel formats :

* mono8	        (Basler Format : Mono8)
* mono16	(Basler Format : Mono16, Mono12)       (Notes 1&2)
* bgr8 		(Basler Format : BGR8)
* rgb8 		(Basler Format : RGB8)
* bayer_bggr8 	(Basler Format : BayerBG8)
* bayer_gbrg8 	(Basler Format : BayerGB8)
* bayer_rggb8 	(Basler Format : BayerRG8)
* bayer_grbg8 	(Basler Format : BayerRG8)
* bayer_rggb16	(Basler Format : BayerRG16, BayerRG12) (Notes 1&2)
* bayer_bggr16 	(Basler Format : BayerBG16, BayerBG12) (Notes 1&2)
* bayer_gbrg16 	(Basler Format : BayerGB16, BayerGB12) (Notes 1&2)
* bayer_grbg16 	(Basler Format : BayerGR16, BayerGR12) (Notes 1&2)

NOTES:

1 : 12-bits image will be remapped to 16-bits using bit shifting to make it work with the ROS 16-bits sensor standard message.

2 : When the user call the /pylon_camera_node/set_image_encoding to use 16-bits encoding, the driver will check first for the availability of the requested 16-bits encoding to set it, when the requested 16-bits image encoding is not available, then the driver will check the availability of the equivalent 12-bits encoding to set it. When both 16-bits and 12-bits image encoding are not available then an error message will be returned.

Usage

Start the driver with command: roslaunch pylon_camera pylon_camera_node.launch. Then the driver will try to connect to the available cameras automatically.

To test if the driver is correctly working we recommend to use the rqt ROS tool (http://wiki.ros.org/rqt). You will need to add an image viewer through the the contextual menu RQT Plugin --> Visualization --> Image View. Then please select the pylon_camera_node/image_raw to display the current camera picture. If the intrinsic calibration file was configured, pylon_camera_node/image_rect will also appear. Please check Intrinsic calibration section for further information.

This drivers offers different ROS services to change the camera parameters. To see the list of available services please use rosservice list command. Once you have located the desired service you can call it by using the rosservice call /service_name {...parameters...} (with the corresponding service and parameters). E.g.:

~/workspace/dnb_docs$ rosservice call /pylon_camera_node/set_reverse_x "data: true" 
success: True
message: "done"

To auto-fill the parameters you can use Tab after writing the service name. Please refer to http://wiki.ros.org/rosservice for ros service usage.

Intrinsic calibration

ROS includes a standardised camera intrinsic calibration process through camera_calibration package (http://wiki.ros.org/camera_calibration). This calibration process generates a file which can be read by the pylon-ros-camera driver by setting the camera_info_url parameter of the config/default.yaml file to the correct URI (e.g. file:///home/user/data/calibrations/my_calibration.yaml)

Setting device user id

Set the device user id with command: rosrun pylon_camera set_device_user_id [-sn SERIAL_NB] your_device_user_id. If no serial number is specified thanks to the option -sn, the specified device user id your_device_user_id will be assigned to the first available camera. USB cameras must be disconnected and then reconnected after setting a new device user id. USB cameras keep their old user id otherwise.

Troubleshooting

To increase performance and to minimize CPU usage when grabbing images, the following settings should be considered:

Camera hot-swapping

If you hot-swap the camera with a different camera with a non-compatible pixel encoding format (e.g. mono and color cameras), you need to restart the ROS system to replace the encoding value or replace the rosparam directly by setting the image_encoding parameter. E.g.: rosparam set /pylon_camera_node/image_encoding "mono8"

GigE Devices

Maximum UDP Socket Buffer Size

The system's maximum UDP receive buffer size should be increased to ensure a stable image acquisition. A maximum size of 2 MB is recommended. This can be achieved by issuing the sudo sysctl net.core.rmem_max=2097152 command. To make this setting persistent, you can add the net.core.rmem_max setting to the /etc/sysctl.conf file.

Enable Jumbo Frames.

Many GigE network adapters support so-called jumbo frames, i.e., network packets larger than the usual 1500 bytes. To enable jumbo frames, the maximum transfer unit (MTU) size of the PC's network adapter must be set to a high value. We recommend using a value of 8192.

Increase the packet size.

If your network adapter supports jumbo frames, you set the adapter's MTU to 8192 as described above. In order to take advantage of the adapter's jumbo frame capability, you must also set the packet size used by the camera to 8192.

If you are working with the pylon Viewer application, you can set the packet size by first selecting a camera from the tree in the "Device" pane. In the "Features" pane, expand the features group that shows the camera's name, expand the "Transport Layer" parameters group, and set the "Packet Size" parameter to 8192. If you write your own application, use the camera API to set the PacketSize parameter to 8192.

Real-time Priority

The GigE Vision implementation of Basler pylon software uses a thread for receiving image data. Basler pylon tries to set the thread priority for the receive thread to real-time thread priority. This requires certain permissions. The 'Permissions for Real-time Thread Priorities' section of the pylon INSTALL document describes how to grant the required permissions.

U3V Devices

Increasing Packet Size

For faster USB transfers you should increase the packet size. You can do this by changing the "Stream Parameters" -> "Maximum Transfer Size" value from inside the pylon Viewer or by setting the corresponding value via the API. After increasing the package size you will likely run out of kernel space and see corresponding error messages on the console. The default value set by the kernel is 16 MB. To set the value (in this example to 1000 MB) you can execute as root: echo 1000 > /sys/module/usbcore/parameters/usbfs_memory_mb This would assign a maximum of 1000 MB to the USB stack.

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