问题
I am currently working on a project where I have to extract the facial expression of a user (only one user at a time from a webcam) like sad or happy.
My method for classifying facial expressions is:
- Use opencv to detect the face in the image
- Use ASM and stasm to get the facial feature point
and now i'm trying to do facial expression classification
is SVM a good option ? and if it is how can i start with SVM :
how i'm going to train svm for every emotions using this landmarks ?
回答1:
Yes, SVMs have been numerously shown to perform well in this task. There have been dozens (if not hundreads) of papers describing such procedures.
For example:
- Simple paper
- Longer paper
- Poster about it
- More complex example
Some basic sources of the SVMs themselves can be obtained on http://www.support-vector-machines.org/ (like books titles, software links etc.)
And if you are just interested in using them rather then understanding you can get one of basic libraries:
- libsvm http://www.csie.ntu.edu.tw/~cjlin/libsvm/
- svmlight http://svmlight.joachims.org/
回答2:
if you are already using opencv,i suggest you use the built in svm implementation, training/saving/loading in python is as follow. c++ has corresponding api to do the same in about the same amount of code. it also has 'train_auto' to find best parameters
import numpy as np
import cv2
samples = np.array(np.random.random((4,5)), dtype = np.float32)
labels = np.array(np.random.randint(0,2,4), dtype = np.float32)
svm = cv2.SVM()
svmparams = dict( kernel_type = cv2.SVM_LINEAR,
svm_type = cv2.SVM_C_SVC,
C = 1 )
svm.train(samples, labels, params = svmparams)
testresult = np.float32( [svm.predict(s) for s in samples])
print samples
print labels
print testresult
svm.save('model.xml')
loaded=svm.load('model.xml')
and output
#print samples
[[ 0.24686454 0.07454421 0.90043277 0.37529686 0.34437731]
[ 0.41088378 0.79261768 0.46119651 0.50203663 0.64999193]
[ 0.11879266 0.6869216 0.4808321 0.6477254 0.16334397]
[ 0.02145131 0.51843268 0.74307418 0.90667248 0.07163303]]
#print labels
[ 0. 1. 1. 0.]
#print testresult
[ 0. 1. 1. 0.]
so you provide the n flattened shape models as samples and n labels and you are good to go. you probably dont even need the asm part, just apply some filters which are sensitive to orientation like sobel or gabor and concatenate the matrices and flatten them then feed them directly to svm. you probably can get maybe 70-90% accuracy.
as someone said cnn are an alternative to svms.here's some links that implement lenet5. so far,i find svms much simpler to get started.
https://github.com/lisa-lab/DeepLearningTutorials/
http://www.codeproject.com/Articles/16650/Neural-Network-for-Recognition-of-Handwritten-Digi
-edit-
landmarks are just n (x,y) vectors right? so why dont you try put them into a array of size 2n and simply feed them directly to the code above?
for example,3 training samples of 4 land marks (0,0),(10,10),(50,50),(70,70)
samples = [[0,0,10,10,50,50,70,70],
[0,0,10,10,50,50,70,70],
[0,0,10,10,50,50,70,70]]
labels=[0.,1.,2.]
0=happy
1=angry
2=disgust
回答3:
You could check this code to get idea how this could be done using SVM.
You can find algorithm explained here
来源:https://stackoverflow.com/questions/18640804/facial-expression-classification-in-real-time-using-svm