boofcv.alg.background.stationary.BackgroundStationaryBasic_IL Maven / Gradle / Ivy
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BoofCV is an open source Java library for real-time computer vision and robotics applications.
/*
* Copyright (c) 2011-2015, Peter Abeles. All Rights Reserved.
*
* This file is part of BoofCV (http://boofcv.org).
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package boofcv.alg.background.stationary;
import boofcv.alg.InputSanityCheck;
import boofcv.alg.misc.ImageMiscOps;
import boofcv.core.image.FactoryGImageMultiBand;
import boofcv.core.image.GConvertImage;
import boofcv.core.image.GImageMultiBand;
import boofcv.struct.image.*;
/**
* Implementation of {@link BackgroundStationaryBasic} for {@link ImageSingleBand}.
*
* @author Peter Abeles
*/
public class BackgroundStationaryBasic_IL
extends BackgroundStationaryBasic
{
// storage for background image
protected InterleavedF32 background;
// wrapper which provides abstraction across image types
protected GImageMultiBand inputWrapper;
public BackgroundStationaryBasic_IL(float learnRate, float threshold,
ImageType imageType) {
super(learnRate, threshold, imageType);
int numBands = imageType.getNumBands();
background = new InterleavedF32(1, 1, numBands);
inputWrapper = FactoryGImageMultiBand.create(imageType);
}
/**
* Returns the background image.
*
* @return background image.
*/
public InterleavedF32 getBackground() {
return background;
}
@Override
public void reset() {
background.reshape(1,1);
}
@Override
public void updateBackground( T frame) {
if( background.width == 1 ) {
background.reshape(frame.width, frame.height);
GConvertImage.convert(frame, background);
return;
} else {
InputSanityCheck.checkSameShape(background,frame);
}
inputWrapper.wrap(frame);
int numBands = background.getNumBands();
float minusLearn = 1.0f - learnRate;
int indexBG = 0;
for (int y = 0; y < frame.height; y++) {
int indexInput = frame.startIndex + y*frame.stride;
int end = indexInput + frame.width*numBands;
while( indexInput < end ) {
int endIndexBG = indexBG + numBands;
while( indexBG < endIndexBG ) {
float valueBG = background.data[indexBG];
background.data[indexBG] = minusLearn*valueBG + learnRate*inputWrapper.getF(indexInput);
indexBG++;
indexInput++;
}
}
}
}
@Override
public void segment(T frame, ImageUInt8 segmented) {
if( background.width == 1 ) {
ImageMiscOps.fill(segmented,unknownValue);
return;
}
InputSanityCheck.checkSameShape(background,frame,segmented);
inputWrapper.wrap(frame);
int numBands = background.getNumBands();
float thresholdSq = numBands*threshold*threshold;
int indexBG = 0;
for (int y = 0; y < frame.height; y++) {
int indexInput = frame.startIndex + y*frame.stride;
int indexSegmented = segmented.startIndex + y*segmented.stride;
int end = indexInput + frame.width*numBands;
while( indexInput < end ) {
float sumErrorSq = 0;
int endIndexBG = indexBG + numBands;
while( indexBG < endIndexBG ) {
float diff = background.data[indexBG++] - inputWrapper.getF(indexInput++);
sumErrorSq += diff*diff;
}
if (sumErrorSq <= thresholdSq) {
segmented.data[indexSegmented] = 0;
} else {
segmented.data[indexSegmented] = 1;
}
indexSegmented++;
}
}
}
}