# The tf frame under which the images were published camera_frame: pylon_camera # The DeviceUserID of the camera. If empty, the first camera found in the # device list will be used device_user_id: "" # The CameraInfo URL (Uniform Resource Locator) where the optional intrinsic # camera calibration parameters are stored. This URL string will be parsed # from the ROS-CameraInfoManager: # http://docs.ros.org/api/camera_info_manager/html/classcamera__info__manager_ # 1_1CameraInfoManager.html#details camera_info_url: "" # The encoding of the pixels -- channel meaning, ordering, size # taken from the list of strings in include/sensor_msgs/image_encodings.h # The supported encodings are 'mono8', 'bgr8', 'rgb8', 'bayer_bggr8', # 'bayer_gbrg8' and 'bayer_rggb8' # Default values are 'mono8' and 'rgb8' image_encoding: "bayer_rggb8" # Binning factor to get downsampled images. It refers here to any camera # setting which combines rectangular neighborhoods of pixels into larger # "super-pixels." It reduces the resolution of the output image to # (width / binning_x) x (height / binning_y). # The default values binning_x = binning_y = 0 are considered the same # as binning_x = binning_y = 1 (no subsampling). # binning_x: 1 # binning_y: 1 # The desired publisher frame rate if listening to the topics. # This parameter can only be set once at startup # Calling the GrabImages-Action can result in a higher framerate frame_rate: 24.0 trigger_timeout: 5 # in ms grab_timeout: 5 # in ms # Camera grab strategy # 0 : GrabStrategy_OneByOne # 1 : GrabStrategy_LatestImageOnly # 2 : GrabStrategy_LatestImages grab_strategy : 2 ##--White Balance Auto--## # Automatically corrects color shifts in images acquired. 0 = Off, 1 = Once, 2 = Continuous white_balance_auto : 2 ##----------------------## ##--White balance--## # The Balance White camera feature allows you to manually correct color shifts so that white objects appear white in images acquired. # The increase or decrease in intensity is proportional. For example, if the balance ratio for a color is set to 1.2, the intensity of that color is increased by 20 %. # Activating these values will turn off the white_balance_auto. # white_balance_ratio_red : 1.0 # white_balance_ratio_green : 1.0 # white_balance_ratio_blue : 1.0 ##--------------## # Mode of camera's shutter. # The supported modes are "rolling", "global" and "global_reset" # Default value is "" (empty) means default_shutter_mode shutter_mode: "global" ########################################################################## ######################## Image Intensity Settings ######################## ########################################################################## # The following settings do *NOT* have to be set. Each camera has default # values which provide an automatic image adjustment resulting in valid # images ########################################################################## # The exposure time in microseconds to be set after opening the camera. exposure: 20000.0 # The target gain in percent of the maximal value the camera supports # For USB-Cameras, the gain is in dB, for GigE-Cameras it is given in so # called 'device specific units'. gain: 0.0 # Gamma correction of pixel intensity. # Adjusts the brightness of the pixel values output by the camera's sensor # to account for a non-linearity in the human perception of brightness or # of the display system (such as CRT). gamma: 1.0 # The average intensity value of the images. It depends the exposure time # as well as the gain setting. If 'exposure' is provided, the interface will # try to reach the desired brightness by only varying the gain. (What may # often fail, because the range of possible exposure vaules is many # times higher than the gain range). If 'gain' is provided, the interface will # try to reach the desired brightness by only varying the exposure time. If # gain AND exposure are given, it is not possible to reach the brightness, # because both are assumed to be fix. brightness: 0.3 # Only relevant, if 'brightness' is set: # The brightness_continuous flag controls the auto brightness function. # If it is set to false, the brightness will only be reached once. # Hence changing light conditions lead to changing brightness values. # If it is set to true, the given brightness will be reached continuously, # trying to adapt to changing light conditions. This is only possible for # values in the possible auto range of the pylon API which is e.g. [50 - 205] # for acA2500-14um and acA1920-40gm brightness_continuous: true # Only relevant, if 'brightness' is set: # If the camera should try to reach and / or keep the brightness, hence # adapting to changing light conditions, at least one of the following flags # must be set. # If both are set, the interface will use the profile that tries to keep the # gain at minimum to reduce white noise. # The exposure_auto flag indicates, that the desired brightness will be # reached by adapting the exposure time. # The gain_auto flag indicates, that the desired brightness will be # reached by adapting the gain. exposure_auto: true gain_auto: true ########################################################################## # The timeout while searching the exposure which is connected to the # desired brightness. For slow system this has to be increased. exposure_search_timeout: 5.0 # The exposure search can be limited with an upper bound. This is to prevent # very high exposure times and resulting timeouts. # A typical value for this upper bound is ~2000000us. auto_exposure_upper_limit: 20000.0 # The MTU size. Only used for GigE cameras. # To prevent lost frames configure the camera has to be configured # with the MTU size the network card supports. A value greater 3000 # should be good (1500 for RaspberryPI) gige: mtu_size: 8192 # Only used for GigE cameras. # The inter-package delay in ticks to prevent lost frames. # For most of GigE-Cameras, a value of 1000 is reasonable. # For cameras used on a RaspberryPI this value should be set to 11772. gige: inter_pkg_delay: 1000