image_geometry¶
image_geometry simplifies interpreting images geometrically using the parameters from sensor_msgs/CameraInfo.
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class
image_geometry.
PinholeCameraModel
¶ A pinhole camera is an idealized monocular camera.
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cx
()¶ Returns x center
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cy
()¶ Returns y center
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distortionCoeffs
()¶ Returns
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fromCameraInfo
(msg)¶ Parameters: msg (sensor_msgs.msg.CameraInfo) – camera parameters Set the camera parameters from the
sensor_msgs.msg.CameraInfo
message.
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fx
()¶ Returns x focal length
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fy
()¶ Returns y focal length
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intrinsicMatrix
()¶ Returns , also called camera_matrix in cv docs
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project3dToPixel
(point)¶ Parameters: point ((x, y, z)) – 3D point Returns the rectified pixel coordinates (u, v) of the 3D point, using the camera matrix. This is the inverse of
projectPixelTo3dRay()
.
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projectPixelTo3dRay
(uv)¶ Parameters: uv ((u, v)) – rectified pixel coordinates Returns the unit vector which passes from the camera center to through rectified pixel (u, v), using the camera matrix. This is the inverse of
project3dToPixel()
.
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projectionMatrix
()¶ Returns
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rectifyImage
(raw, rectified)¶ Parameters: - raw (
CvMat
orIplImage
) – input image - rectified (
CvMat
orIplImage
) – rectified output image
Applies the rectification specified by camera parameters and and to image raw and writes the resulting image rectified.
- raw (
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rectifyPoint
(uv_raw)¶ Parameters: uv_raw ((u, v)) – pixel coordinates Applies the rectification specified by camera parameters and and to point (u, v) and returns the pixel coordinates of the rectified point.
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rotationMatrix
()¶ Returns
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tfFrame
()¶ Returns the tf frame name - a string - of the camera. This is the frame of the
sensor_msgs.msg.CameraInfo
message.
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class
image_geometry.
StereoCameraModel
¶ An idealized stereo camera.
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fromCameraInfo
(left_msg, right_msg)¶ Parameters: - left_msg (sensor_msgs.msg.CameraInfo) – left camera parameters
- right_msg (sensor_msgs.msg.CameraInfo) – right camera parameters
Set the camera parameters from the
sensor_msgs.msg.CameraInfo
messages.
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getDisparity
(Z)¶ Parameters: Z (float) – Z (depth), in cartesian space Returns the disparity observed for a point at depth Z. This is the inverse of
getZ()
.
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getZ
(disparity)¶ Parameters: disparity (float) – disparity, in pixels Returns the depth at which a point is observed with a given disparity. This is the inverse of
getDisparity()
.Note that a disparity of zero implies Z is infinite.
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project3dToPixel
(point)¶ Parameters: point ((x, y, z)) – 3D point Returns the rectified pixel coordinates (u, v) of the 3D point, for each camera, as ((u_left, v_left), (u_right, v_right)) using the cameras’ matrices. This is the inverse of
projectPixelTo3d()
.
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projectPixelTo3d
(left_uv, disparity)¶ Parameters: - left_uv ((u, v)) – rectified pixel coordinates
- disparity (float) – disparity, in pixels
Returns the 3D point (x, y, z) for the given pixel position, using the cameras’ matrices. This is the inverse of
project3dToPixel()
.Note that a disparity of zero implies that the 3D point is at infinity.
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tfFrame
()¶ Returns the tf frame name - a string - of the 3d points. This is the frame of the
sensor_msgs.msg.CameraInfo
message. It may be used as a source frame intf.TransformListener
.
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