/usr/share/sensor_msgs/msg/CameraInfo.msg is in libsensor-msgs-dev 1.12.3-5.
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1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 | # This message defines meta information for a camera. It should be in a
# camera namespace on topic "camera_info" and accompanied by up to five
# image topics named:
#
# image_raw - raw data from the camera driver, possibly Bayer encoded
# image - monochrome, distorted
# image_color - color, distorted
# image_rect - monochrome, rectified
# image_rect_color - color, rectified
#
# The image_pipeline contains packages (image_proc, stereo_image_proc)
# for producing the four processed image topics from image_raw and
# camera_info. The meaning of the camera parameters are described in
# detail at http://www.ros.org/wiki/image_pipeline/CameraInfo.
#
# The image_geometry package provides a user-friendly interface to
# common operations using this meta information. If you want to, e.g.,
# project a 3d point into image coordinates, we strongly recommend
# using image_geometry.
#
# If the camera is uncalibrated, the matrices D, K, R, P should be left
# zeroed out. In particular, clients may assume that K[0] == 0.0
# indicates an uncalibrated camera.
#######################################################################
# Image acquisition info #
#######################################################################
# Time of image acquisition, camera coordinate frame ID
Header header # Header timestamp should be acquisition time of image
# Header frame_id should be optical frame of camera
# origin of frame should be optical center of camera
# +x should point to the right in the image
# +y should point down in the image
# +z should point into the plane of the image
#######################################################################
# Calibration Parameters #
#######################################################################
# These are fixed during camera calibration. Their values will be the #
# same in all messages until the camera is recalibrated. Note that #
# self-calibrating systems may "recalibrate" frequently. #
# #
# The internal parameters can be used to warp a raw (distorted) image #
# to: #
# 1. An undistorted image (requires D and K) #
# 2. A rectified image (requires D, K, R) #
# The projection matrix P projects 3D points into the rectified image.#
#######################################################################
# The image dimensions with which the camera was calibrated. Normally
# this will be the full camera resolution in pixels.
uint32 height
uint32 width
# The distortion model used. Supported models are listed in
# sensor_msgs/distortion_models.h. For most cameras, "plumb_bob" - a
# simple model of radial and tangential distortion - is sufficent.
string distortion_model
# The distortion parameters, size depending on the distortion model.
# For "plumb_bob", the 5 parameters are: (k1, k2, t1, t2, k3).
float64[] D
# Intrinsic camera matrix for the raw (distorted) images.
# [fx 0 cx]
# K = [ 0 fy cy]
# [ 0 0 1]
# Projects 3D points in the camera coordinate frame to 2D pixel
# coordinates using the focal lengths (fx, fy) and principal point
# (cx, cy).
float64[9] K # 3x3 row-major matrix
# Rectification matrix (stereo cameras only)
# A rotation matrix aligning the camera coordinate system to the ideal
# stereo image plane so that epipolar lines in both stereo images are
# parallel.
float64[9] R # 3x3 row-major matrix
# Projection/camera matrix
# [fx' 0 cx' Tx]
# P = [ 0 fy' cy' Ty]
# [ 0 0 1 0]
# By convention, this matrix specifies the intrinsic (camera) matrix
# of the processed (rectified) image. That is, the left 3x3 portion
# is the normal camera intrinsic matrix for the rectified image.
# It projects 3D points in the camera coordinate frame to 2D pixel
# coordinates using the focal lengths (fx', fy') and principal point
# (cx', cy') - these may differ from the values in K.
# For monocular cameras, Tx = Ty = 0. Normally, monocular cameras will
# also have R = the identity and P[1:3,1:3] = K.
# For a stereo pair, the fourth column [Tx Ty 0]' is related to the
# position of the optical center of the second camera in the first
# camera's frame. We assume Tz = 0 so both cameras are in the same
# stereo image plane. The first camera always has Tx = Ty = 0. For
# the right (second) camera of a horizontal stereo pair, Ty = 0 and
# Tx = -fx' * B, where B is the baseline between the cameras.
# Given a 3D point [X Y Z]', the projection (x, y) of the point onto
# the rectified image is given by:
# [u v w]' = P * [X Y Z 1]'
# x = u / w
# y = v / w
# This holds for both images of a stereo pair.
float64[12] P # 3x4 row-major matrix
#######################################################################
# Operational Parameters #
#######################################################################
# These define the image region actually captured by the camera #
# driver. Although they affect the geometry of the output image, they #
# may be changed freely without recalibrating the camera. #
#######################################################################
# Binning 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 is considered the same
# as binning_x = binning_y = 1 (no subsampling).
uint32 binning_x
uint32 binning_y
# Region of interest (subwindow of full camera resolution), given in
# full resolution (unbinned) image coordinates. A particular ROI
# always denotes the same window of pixels on the camera sensor,
# regardless of binning settings.
# The default setting of roi (all values 0) is considered the same as
# full resolution (roi.width = width, roi.height = height).
RegionOfInterest roi
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