2022-01-05 07:52:29 +03:00
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//go:build !ignore
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// +build !ignore
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/*
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DESCRIPTION
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2022-01-07 04:10:20 +03:00
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Holds the turbidity sensor struct. Can evaluate 4x4 chessboard markers in an
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image to measure the sharpness and contrast. This implementation is based off
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a master thesis from Aalborg University, Turbidity measurement based on computer vision.
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The full paper is avaible at https://projekter.aau.dk/projekter/files/306657262/master.pdf
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2022-01-05 07:52:29 +03:00
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AUTHORS
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2022-01-06 06:25:40 +03:00
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Russell Stanley <russell@ausocean.org>
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2022-01-05 07:52:29 +03:00
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LICENSE
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2022-01-07 04:10:20 +03:00
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Copyright (C) 2021-2022 the Australian Ocean Lab (AusOcean)
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2022-01-05 07:52:29 +03:00
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It is free software: you can redistribute it and/or modify them
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under the terms of the GNU General Public License as published by the
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Free Software Foundation, either version 3 of the License, or (at your
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option) any later version.
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It is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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in gpl.txt. If not, see http://www.gnu.org/licenses.
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*/
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2022-01-05 05:46:08 +03:00
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2022-01-07 04:10:20 +03:00
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package turbidity
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import (
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"errors"
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"fmt"
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"image"
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"math"
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"gocv.io/x/gocv"
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)
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// TurbiditySensor is a software based turbidity sensor that uses CV to determine sharpness and constrast level
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// of a chessboard-like target submerged in water that can be correlated to turbidity/visibility values.
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type TurbiditySensor struct {
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template, templateCorners gocv.Mat
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standard, standardCorners gocv.Mat
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k1, k2, sobelFilterSize int
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scale, alpha float64
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}
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// NewTurbiditySensor returns a new TurbiditySensor.
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func NewTurbiditySensor(template, standard gocv.Mat, k1, k2, sobelFilterSize int, scale, alpha float64) (*TurbiditySensor, error) {
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ts := new(TurbiditySensor)
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templateCorners := gocv.NewMat()
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standardCorners := gocv.NewMat()
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// Validate template image is not empty and has valid corners.
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if template.Empty() {
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return nil, errors.New("template image is empty")
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}
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if !gocv.FindChessboardCorners(template, image.Pt(3, 3), &templateCorners, gocv.CalibCBNormalizeImage) {
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return nil, errors.New("could not find corners in template image")
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}
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ts.template = template
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ts.templateCorners = templateCorners
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// Validate standard image is not empty and has valid corners.
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if standard.Empty() {
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return nil, errors.New("standard image is empty")
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}
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if !gocv.FindChessboardCorners(standard, image.Pt(3, 3), &standardCorners, gocv.CalibCBNormalizeImage) {
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return nil, errors.New("could not find corners in standard image")
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}
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ts.standard = standard
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ts.standardCorners = standardCorners
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ts.k1, ts.k2, ts.sobelFilterSize = k1, k2, sobelFilterSize
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ts.alpha, ts.scale = alpha, scale
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return ts, nil
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}
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// Evaluate, given a slice of images, return the sharpness and contrast scores.
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func (ts TurbiditySensor) Evaluate(imgs []gocv.Mat) (*Results, error) {
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result, err := NewResults(len(imgs))
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if err != nil {
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return nil, fmt.Errorf("could not create results: %w", err)
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}
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for i := range imgs {
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marker, err := ts.transform(imgs[i])
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if err != nil {
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return nil, fmt.Errorf("could not transform image: %d: %w", i, err)
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}
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edge := ts.sobel(marker)
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// Evaluate image.
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sharpScore, contScore, err := ts.EvaluateImage(marker, edge)
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if err != nil {
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return result, err
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}
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result.Update(sharpScore, contScore, float64(i), i)
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}
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return result, nil
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}
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// EvaluateImage will evaluate image sharpness and contrast using blocks of size k1 by k2. Return the respective scores.
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func (ts TurbiditySensor) EvaluateImage(img, edge gocv.Mat) (float64, float64, error) {
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var sharpness float64
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var contrast float64
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if img.Rows()%ts.k1 != 0 || img.Cols()%ts.k2 != 0 {
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return math.NaN(), math.NaN(), fmt.Errorf("dimensions not compatible (%v, %v)", ts.k1, ts.k2)
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}
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lStep := img.Rows() / ts.k1
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kStep := img.Cols() / ts.k2
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for l := 0; l < img.Rows(); l += lStep {
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for k := 0; k < img.Cols(); k += kStep {
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// Enhancement Measure Estimation (EME), provides a measure of the sharpness.
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sharpness += ts.evaluateBlockEME(edge, l, k, l+lStep, k+kStep)
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// AMEE, provides a measure of the contrast.
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contrast += ts.evaluateBlockAMEE(img, l, k, l+lStep, k+kStep)
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}
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}
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// Scale EME based on block size.
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sharpness = 2.0 / (float64(ts.k1 * ts.k2)) * sharpness
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// Scale and flip AMEE based on block size.
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contrast = -1.0 / (float64(ts.k1 * ts.k2)) * contrast
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return sharpness, contrast, nil
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}
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// minMax returns the max and min pixel values of an image block.
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func (ts TurbiditySensor) minMax(img gocv.Mat, xStart, yStart, xEnd, yEnd int) (float64, float64) {
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max := -math.MaxFloat64
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min := math.MaxFloat64
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for i := xStart; i < xEnd; i++ {
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for j := yStart; j < yEnd; j++ {
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value := float64(img.GetUCharAt(i, j))
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// Check max/min conditions, zero values are ignoredt to avoid divison by 0.
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if value > max && value != 0.0 {
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max = value
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}
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if value < min && value != 0.0 {
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min = value
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}
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}
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}
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return max, min
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}
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// evaluateBlockEME will evaluate an image block and return the value to be added to the sharpness result.
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func (ts TurbiditySensor) evaluateBlockEME(img gocv.Mat, xStart, yStart, xEnd, yEnd int) float64 {
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max, min := ts.minMax(img, xStart, yStart, xEnd, yEnd)
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// Blocks where all pixel values are equal are ignored to avoid division by 0.
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if max != -math.MaxFloat64 && min != math.MaxFloat64 && max != min {
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return math.Log(max / min)
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}
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return 0.0
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}
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// evaluateBlockAMEE will evaluate an image block and return the value to be added to the contrast result.
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func (ts TurbiditySensor) evaluateBlockAMEE(img gocv.Mat, xStart, yStart, xEnd, yEnd int) float64 {
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max, min := ts.minMax(img, xStart, yStart, xEnd, yEnd)
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// Blocks where all pixel values are equal are ignored to avoid division by 0.
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if max != -math.MaxFloat64 && min != math.MaxFloat64 && max != min {
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contrast := (max + min) / (max - min)
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return math.Pow(ts.alpha*(contrast), ts.alpha) * math.Log(contrast)
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}
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return 0.0
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}
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// transform will search img for matching template. Returns the transformed image which best match the template.
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func (ts TurbiditySensor) transform(img gocv.Mat) (gocv.Mat, error) {
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out := gocv.NewMat()
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mask := gocv.NewMat()
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imgCorners := gocv.NewMat()
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const (
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ransacThreshold = 3.0 // Maximum allowed reprojection error to treat a point pair as an inlier.
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maxIter = 2000 // The maximum number of RANSAC iterations.
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confidence = 0.995 // Confidence level, between 0 and 1.
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)
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if img.Empty() {
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return out, errors.New("image is empty, cannot transform")
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}
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// Check image for corners, if non can be found corners will be set to default value.
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if !gocv.FindChessboardCorners(img, image.Pt(3, 3), &imgCorners, gocv.CalibCBFastCheck) {
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imgCorners = ts.standardCorners
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}
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// Find and apply transformation.
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H := gocv.FindHomography(imgCorners, &ts.templateCorners, gocv.HomograpyMethodRANSAC, ransacThreshold, &mask, maxIter, confidence)
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gocv.WarpPerspective(img, &out, H, image.Pt(ts.template.Rows(), ts.template.Cols()))
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return out, nil
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}
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// sobel will apply sobel filter to an image and return the result.
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func (ts TurbiditySensor) sobel(img gocv.Mat) gocv.Mat {
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dx := gocv.NewMat()
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dy := gocv.NewMat()
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sobel := gocv.NewMat()
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// Apply filter.
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gocv.Sobel(img, &dx, gocv.MatTypeCV64F, 0, 1, ts.sobelFilterSize, ts.scale, 0.0, gocv.BorderConstant)
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gocv.Sobel(img, &dy, gocv.MatTypeCV64F, 1, 0, ts.sobelFilterSize, ts.scale, 0.0, gocv.BorderConstant)
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// Convert to unsigned.
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gocv.ConvertScaleAbs(dx, &dx, 1.0, 0.0)
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gocv.ConvertScaleAbs(dy, &dy, 1.0, 0.0)
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// Add x and y components.
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gocv.AddWeighted(dx, 0.5, dy, 0.5, 0, &sobel)
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return sobel
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}
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