public void AddClassifier(StrongClassifier classifier)
{
if (classifier.WeakClassifiers.Count == 0)
{
throw new ArgumentException("Classifier cannot have 0 features", nameof(classifier.WeakClassifiers));
}
Classifiers.Add(classifier);
}
/// <summary>
/// Viola Jones Cascade Classifier Training Method
/// </summary>
/// <param name="features">Haar-Features</param>
/// <param name="images">Image data</param>
/// <param name="results">Results data</param>
/// <param name="f">Maximum false positive rate</param>
/// <param name="d">Minimum detection rate</param>
/// <param name="fTarget">Target overall false positive rate</param>
public void Train(List <WeakClassifier> features, double[][,] images, bool[] results, double f, double d, double fTarget, double[][,] validImages, bool[] validResults)
{
Classifiers = new List <StrongClassifier>();
var imagesCpy = images.Clone() as double[][, ]; // copy not to damage original images
var resultsCpy = results.Clone() as bool[]; // copy not to damage original results
var integralValidImages = IntegrateImages(validImages);
var falsePositiveRates = new List <double>();
falsePositiveRates.Add(1.0);
var detectionRates = new List <double>();
detectionRates.Add(1.0);
var i = 0;
Console.WriteLine("*********Traning of the cascade classifier started*********");
// Train Cascade Classifier
while (falsePositiveRates[i] > fTarget)
{
// Strong classifiers counter
i++;
// WeakClassifiers counter
var n = 0;
falsePositiveRates.Add(falsePositiveRates.Last());
detectionRates.Add(0.0);
// Train Strong Classifier
var sc = new StrongClassifier();
while (falsePositiveRates[i] > f * falsePositiveRates[i - 1])
{
n++;
Console.Write(" ");
// Train Strong Classifier with n Weak Classifiers
sc.AddWeakClassifier(imagesCpy, resultsCpy, features);
Classifiers.Add(sc);
var detectionRate = 0.0;
var falsePositiveRate = 0.0;
// Evaluate current cascade classifier to determine detection rate and false positives rate
Evaluate(integralValidImages, validResults, out falsePositiveRate, out detectionRate);
detectionRates[i] = detectionRate;
falsePositiveRates[i] = falsePositiveRate;
while (detectionRate < d * detectionRates[i - 1])
{
// Decrease Threshold by 0.001
sc.DecreaseThreshold();
Evaluate(integralValidImages, validResults, out falsePositiveRate, out detectionRate);
detectionRates[i] = detectionRate;
falsePositiveRates[i] = falsePositiveRate;
}
Classifiers.Remove(sc);
}
Classifiers.Add(sc);
Console.WriteLine("Strong classifier was added. Number of weak classifiers: {0} Detection Rate: {1} False Positive Rate: {2}",
sc.WeakClassifiers.Count.ToString().PadRight(10),
Math.Round(detectionRates[i], 4).ToString().PadRight(10),
Math.Round(falsePositiveRates[i], 4).ToString().PadRight(10));
// Get images that were classified incorrectly
var posImages = new List <double[, ]>();
var posResults = new List <bool>();
for (int j = 0; j < imagesCpy.Length; j++)
{
var classifierResult = sc.Detect(imagesCpy[j]);
if (classifierResult)
{
posImages.Add(imagesCpy[j]);
posResults.Add(resultsCpy[j]);
}
}
imagesCpy = posImages.ToArray();
resultsCpy = posResults.ToArray();
if (falsePositiveRates[i] > fTarget)
{
var fDetImgs = new List <double[, ]>();
var fDetResults = new List <bool>();
for (int j = 0; j < validImages.Length; j++)
{
var result = Detect(validImages[j]);
if (result != validResults[j] && result)
{
fDetImgs.Add(validImages[j]);
fDetResults.Add(validResults[j]);
}
}
var toTakeCount = new int[] { resultsCpy.Count(r => r) - resultsCpy.Count(r => !r), fDetImgs.Count }.Where(x => x >= 0).Min();
fDetImgs = fDetImgs.Take(toTakeCount).ToList();
fDetImgs.AddRange(imagesCpy);
imagesCpy = fDetImgs.ToArray();
fDetResults = fDetResults.Take(toTakeCount).ToList();
fDetResults.AddRange(resultsCpy);
resultsCpy = fDetResults.ToArray();
}
}
Console.WriteLine("*********Traning of the cascade classifier ended*********");
Statistics(images, results);
}
