handybeam.evaluators

Contains methods to measure various things about the acoustic field.

Typically applied after the acoustic field calculation is complete.

Could be used for numerical optimisation runs.

Please use this as reference for opencv thresholding functions:

https://docs.opencv.org/3.4/d7/d1b/group__imgproc__misc.html#ggaa9e58d2860d4afa658ef70a9b1115576a147222a96556ebc1d948b372bcd7ac59


class handybeam.evaluators.Evaluator2D[source]

DESCRIPTION HERE

__init__()[source]

DESCRIPTION HERE

__repr__

Return repr(self).

__str__

Return str(self).

add_sampling_field(plane_sampling_field)[source]

DESCRIPTION HERE

Parameters:plane_sampling_field (DESCRIPTION HERE) – DESCRIPTION HERE
find_afi_2d()[source]

DESCRIPTION HERE

find_ahi_2d()[source]

DESCRIPTION HERE

find_ali_2d()[source]

DESCRIPTION HERE

find_area_metrics()[source]

DESCRIPTION HERE

find_focal_intensity_to_total_intensity_ratio()[source]

DESCRIPTION HERE

find_focal_peak_pressure_to_peak_sidelobe_ratio()[source]

DESCRIPTION HERE

find_focal_spot_area()[source]

DESCRIPTION HERE

find_focal_spot_contrast_connected_margin_area()[source]

DESCRIPTION HERE

find_focal_spot_contrast_unconnected_margin_area()[source]

DESCRIPTION HERE

class handybeam.evaluators.Evaluator3D[source]

DESCRIPTION HERE

__init__()[source]

DESCRIPTION HERE

__repr__

Return repr(self).

__str__

Return str(self).

add_sampling_field(volume_sampling_field)[source]

DESCRIPTION HERE

Parameters:volume_sampling_field (DESCRIPTION HERE) – DESCRIPTION HERE
find_afi_3d()[source]

DESCRIPTION HERE

find_ahi_3d()[source]

DESCRIPTION HERE

find_ali_3d()[source]

DESCRIPTION HERE

find_volume_metrics()[source]

DESCRIPTION HERE

handybeam.evaluators.acoustic_impedance = 420.0

air=420.0

Type:constant for evaluations. default
handybeam.evaluators.rms_factor = 0.7071067811865476

constant.


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Licence (documentation): Creative Commons CC BY-NC-SA 4.0

Licence (source code): Apache 2.0

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This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 737087.