set_structured_light_model_param
— Set parameters of a structured light model.
set_structured_light_model_param( : : StructuredLightModel, GenParamName, GenParamValue : )
The operator set_structured_light_model_param
is used to
manipulate the parameters of a structured light model
StructuredLightModel
. The current parameter settings
can be queried with the operator get_structured_light_model_param
.
For an explanation of the concept of structured light and its supported applications, see the introduction of chapter Inspection / Structured Light.
General parameters:
Enables
(GenParamValue
='true' ) or disables
(GenParamValue
='false' ) the 'persistence'
mode of the structured light model. When in persistence mode, the model
stores intermediate results of the decoding, which can be inspected
later by get_structured_light_object
.
Note that the model might need significant memory space in this mode. Therefore, we recommend to enable this mode only during the setup and for debugging a structured light model setup.
If 'persistence' is changed, all results of the model are cleared.
Values: 'true' , 'false' , 1, 0
Default: 'false'
Parameters which influence the appearance of the generated pattern images:
Sets the width of the pattern images
that are generated while calling gen_structured_light_pattern
.
Usually, the value should be set to the width of the monitor that is
used to display the pattern images.
The value of 'pattern_width' has to be larger than the value 'min_stripe_width' /2. In case that 'pattern_type' is 'single_stripe' , it also has to be larger than 'single_stripe_width' /2.
If 'pattern_width' is changed, the model is not decodable
anymore and all possibly available results are cleared.
Therefore, gen_structured_light_pattern
has to be called before
decoding the model using decode_structured_light_pattern
.
Values: integer values larger or equal to 1
Default: 1024
Sets the height of the pattern images
that are generated while calling gen_structured_light_pattern
.
Usually, the value should be set to the height of the monitor that is
used to display the pattern images.
The value of 'pattern_height' has to be larger than the value 'min_stripe_width' /2. In case that 'pattern_type' is 'single_stripe' , it also has to be larger than 'single_stripe_width' /2.
If 'pattern_height' is changed, the model is not decodable
anymore and all possibly available results are cleared.
Therefore, gen_structured_light_pattern
has to be called before
decoding the model using decode_structured_light_pattern
.
Values: integer values larger or equal to 1
Default: 1024
Sets the width (in pixels) of the
finest stripe of the pattern images that are generated while calling
gen_structured_light_pattern
.
The value has to be a power of two. Furthermore, it has to be smaller or equal the minimum of the parameters 'pattern_width' and 'pattern_height' after rounding both up to their next power of two. In case that 'pattern_type' is 'single_stripe' , it also has to be smaller or equal the 'single_stripe_width' .
If 'min_stripe_width' is changed, the model is not decodable
anymore and all possibly available results are cleared.
Therefore, gen_structured_light_pattern
has to be called before
decoding the model using decode_structured_light_pattern
.
Values: integer values larger or equal to 4 and a power of 2
Default: 32
Sets the normalization mode of the
structured light model. If the parameter is set to 'global' ,
gen_structured_light_pattern
generates two additional pattern
images composed of a black and a white image. These images are then used
in the decoding process to determine the actual pattern region.
If instead, the value 'inverted_pattern' is chosen, each Gray
code image is additionally inverted and the pattern region is segmented
iteratively using the Gray code images and their inverted version.
If 'normalization' is changed, the model is not decodable
anymore and all possibly available results are cleared.
Therefore, gen_structured_light_pattern
has to be called before
decoding the model using decode_structured_light_pattern
.
Values: 'global' , 'inverted_pattern'
Default: 'global'
Sets the orientation of the
pattern images that are generated while calling
gen_structured_light_pattern
. If the parameter is set to
'both' , pattern images with vertical stripes as well as
pattern images with horizontal stripes are created.
For 'vertical' the pattern images consist of vertical stripes
only, whereas for 'horizontal' only horizontal stripes are
generated.
If 'pattern_orientation' is changed, the model is not decodable
anymore and all possibly available results are cleared.
Therefore, gen_structured_light_pattern
has to be called before
decoding the model using decode_structured_light_pattern
.
Values: 'both' , 'vertical' , 'horizontal'
Default: 'both'
Sets the type of the pattern images that
are generated while calling gen_structured_light_pattern
.
'pattern_type' | Generated Images |
'gray_code' | Gray code images |
'gray_code_and_phase_shift' | Gray code images and phase shift images |
'single_stripe' | Single stripe images, Gray code images and phase shift images |
Usually, 'gray_code_and_phase_shift' leads to more accurate results than 'gray_code' because the combination between Gray code and phase images yields sub-pixel precise monitor coordinates. 'single_stripe' can increase robustness in case of only partially specular surfaces.
If 'pattern_type' is changed, the model is not decodable
anymore and all possibly available results are cleared.
Therefore, gen_structured_light_pattern
has to be called before
decoding the model using decode_structured_light_pattern
.
Values: 'gray_code_and_phase_shift' , 'gray_code' , 'single_stripe'
Default: 'gray_code_and_phase_shift'
Sets the width (in pixels) of the
single stripe that is generated while calling
gen_structured_light_pattern
using the 'pattern_type'
'single_stripe' .
The value has to be a power of two and has to be greater or equal 'min_stripe_width' . Furthermore, it has to be smaller or equal the minimum of the parameters 'pattern_width' and 'pattern_height' after rounding both up to their next power of two.
Note that 'single_stripe_width' can only be set in case that 'pattern_type' is 'single_stripe' . When 'pattern_type' is changed to 'single_stripe' , 'single_stripe_width' is set to some power of two roughly halfway between the currently set 'min_stripe_width' and the minimum of 'pattern_width' and 'pattern_height' .
If 'single_stripe_width' is changed,
the model is not decodable anymore and all possibly available
results are cleared.
Therefore, gen_structured_light_pattern
has to be
called before decoding the model using
decode_structured_light_pattern
.
Values: integer values larger or equal to 4 and a power of 2
Default: power of two roughly halfway between the currently set 'min_stripe_width' and 'pattern_width' , 'pattern_height'
Parameters which influence the segmentation of the pattern region:
Sets the minimum gray value
difference for the Gray code images. This value is used within
decode_structured_light_pattern
to determine the binarized
images.
Thereby, for each pixel of the camera images the gray value difference
between the lighted and the unlighted case is calculated. If the
gray value difference of a pixel is smaller than
'min_gray_difference' , it is excluded from the domain of the
binarized images (see get_structured_light_object
) and thus also
from further calculations.
If 'min_gray_difference' is set to the value 0, the segmented region is identical to the input region of the camera images with the only exception that pixels with a decoding result outside the pattern images are excluded.
Values: integer values larger or equal to 0
Default: 30
Parameters which influence the defect image:
Sets the sigma of the Gaussian (i.e. the amount of smoothing) that is used for the convolution of the correspondence image(s) to calculate the defect image.
Values: float or integer value larger or equal 0.01
Default: 2
This operator modifies the state of the following input parameter:
The value of this parameter may not be shared across multiple threads without external synchronization.
StructuredLightModel
(input_control, state is modified) structured_light_model →
(handle)
Handle of the structured light model.
GenParamName
(input_control) attribute.name(-array) →
(string)
Name of the model parameter to be adjusted.
Default value: 'min_stripe_width'
List of values: 'derivative_sigma' , 'min_gray_difference' , 'min_stripe_width' , 'normalization' , 'pattern_height' , 'pattern_orientation' , 'pattern_type' , 'pattern_width' , 'persistence' , 'single_stripe_width'
GenParamValue
(input_control) attribute.value(-array) →
(integer / real / string)
New value of the model parameter.
Default value: 32
Suggested values: 0, 0.01, 0.5, 0.7, 1, 1.4, 5, 50.0, 64, 128, 256, 1024, 'true' , 'false' , 'both' , 'vertical' , 'horizontal' , 'global' , 'inverted_pattern' , 'gray_code_and_phase_shift' , 'gray_code' , 'single_stripe'
* Create the model create_structured_light_model ('deflectometry', StructuredLightModel) * Set the size of the monitor set_structured_light_model_param (StructuredLightModel, \ 'pattern_width', 1600) set_structured_light_model_param (StructuredLightModel, \ 'pattern_height', 1200) * Set the smallest width of the stripes in the pattern set_structured_light_model_param (StructuredLightModel, \ 'min_stripe_width', 8) * Generate the patterns to project gen_structured_light_pattern (PatternImages, StructuredLightModel) * Set the expected black/white contrast in the region of interest set_structured_light_model_param (StructuredLightModel, \ 'min_gray_difference', 70) * Decode the camera images decode_structured_light_pattern (CameraImages, StructuredLightModel) * Get the computed correspondences and defects get_structured_light_object (CorrespondenceImages, StructuredLightModel, \ 'correspondence_image') set_structured_light_model_param (StructuredLightModel, 'derivative_sigma', \ Sigma) get_structured_light_object (DefectImage, StructuredLightModel, \ 'defect_image')
The operator set_structured_light_model_param
returns the value
2 (H_MSG_TRUE) if the given parameters are valid and within acceptable range.
Otherwise, an exception will be raised.
get_structured_light_model_param
3D Metrology