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I'm trying to classify handwriting digits, written by myself and a few friends, by usign NN and CNN. In order to train the NN, MNIST dataset is used. The problem is the NN trained with MNIST dataset does not give satisfying test results on my dataset. I've used some libraries on Python and MATLAB with different settings as listed below.

On Python I've used this code with setting;

  • 3-layers NN with # of inputs = 784, # of hidden neurons = 30, # of outputs = 10
  • Cost function = cross entropy
  • Number of Epochs = 30
  • Batch size = 10
  • Learning rate = 0.5

it is trained with MNIST training set, and test results are as follows:

test result on MNIST = 96% test result on my own dataset = 80%

On MATLAB I've used deep learning toolbox with various setting, normalization included, similar to above and best accuracy of NN is around 75%.Both NN and CNN are used on MATLAB.

I've tried to resemble my own dataset to MNIST. The results above collected from pre-processed dataset. Here is the pre-processes applied to my dataset:

  • Each digit is cropped separately and resized to 28 x 28 by usign bicubic interpolation
  • Pathces are centered with the mean values in MNIST by usign bounding box on MATLAB
  • Background is 0 and highest pixel value is 1 as in MNIST

I couldn't know what to do more. There are still some differences like contrast etc., but contrast enhancement trials couldn't increase the accuracy.

Here is some digits from MNIST and my own dataset to compare them visually.

MNIST digits

my own dataset

As you may see, there is a clear contrast difference. I think the accuracy problem is because of the lack of similarity between MNIST and my own dataset. How can I handle this issue?

There is a similar question in here, but his dataset is collection of printed digits, not like mine.

Edit: I've also tested binarized verison of my own dataset on NN trained with binarized MNIST and default MNIST. Binarization threshold is 0.05.

Here is an example image in matrix form from MNIST dataset and my own dataset, respectively. Both of them are 5.

MNIST:

  Columns 1 through 10

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         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0    0.1176    0.1412
         0         0         0         0         0         0         0    0.1922    0.9333    0.9922
         0         0         0         0         0         0         0    0.0706    0.8588    0.9922
         0         0         0         0         0         0         0         0    0.3137    0.6118
         0         0         0         0         0         0         0         0         0    0.0549
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
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         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
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         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0    0.0902    0.2588
         0         0         0         0         0         0    0.0706    0.6706    0.8588    0.9922
         0         0         0         0    0.2157    0.6745    0.8863    0.9922    0.9922    0.9922
         0         0         0         0    0.5333    0.9922    0.9922    0.9922    0.8314    0.5294
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0

  Columns 11 through 20

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         0         0    0.0118    0.0706    0.0706    0.0706    0.4941    0.5333    0.6863    0.1020
    0.3686    0.6039    0.6667    0.9922    0.9922    0.9922    0.9922    0.9922    0.8824    0.6745
    0.9922    0.9922    0.9922    0.9922    0.9922    0.9922    0.9922    0.9843    0.3647    0.3216
    0.9922    0.9922    0.9922    0.9922    0.7765    0.7137    0.9686    0.9451         0         0
    0.4196    0.9922    0.9922    0.8039    0.0431         0    0.1686    0.6039         0         0
    0.0039    0.6039    0.9922    0.3529         0         0         0         0         0         0
         0    0.5451    0.9922    0.7451    0.0078         0         0         0         0         0
         0    0.0431    0.7451    0.9922    0.2745         0         0         0         0         0
         0         0    0.1373    0.9451    0.8824    0.6275    0.4235    0.0039         0         0
         0         0         0    0.3176    0.9412    0.9922    0.9922    0.4667    0.0980         0
         0         0         0         0    0.1765    0.7294    0.9922    0.9922    0.5882    0.1059
         0         0         0         0         0    0.0627    0.3647    0.9882    0.9922    0.7333
         0         0         0         0         0         0         0    0.9765    0.9922    0.9765
         0         0         0         0    0.1804    0.5098    0.7176    0.9922    0.9922    0.8118
         0         0    0.1529    0.5804    0.8980    0.9922    0.9922    0.9922    0.9804    0.7137
    0.0941    0.4471    0.8667    0.9922    0.9922    0.9922    0.9922    0.7882    0.3059         0
    0.8353    0.9922    0.9922    0.9922    0.9922    0.7765    0.3176    0.0078         0         0
    0.9922    0.9922    0.9922    0.7647    0.3137    0.0353         0         0         0         0
    0.9922    0.9569    0.5216    0.0431         0         0         0         0         0         0
    0.5176    0.0627         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0

  Columns 21 through 28

         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0
    0.6510    1.0000    0.9686    0.4980         0         0         0         0
    0.9922    0.9490    0.7647    0.2510         0         0         0         0
    0.3216    0.2196    0.1529         0         0         0         0         0
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My own dataset:

  Columns 1 through 10

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         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0    0.4000    0.5569
         0         0         0         0         0         0         0         0    0.9961    0.9922
         0         0         0         0         0         0         0         0    0.6745    0.9882
         0         0         0         0         0         0         0         0    0.0824    0.8745
         0         0         0         0         0         0         0         0         0    0.4784
         0         0         0         0         0         0         0         0         0    0.4824
         0         0         0         0         0         0         0         0    0.0824    0.8745
         0         0         0         0         0         0         0    0.0824    0.8392    0.9922
         0         0         0         0         0         0         0    0.2392    0.9922    0.6706
         0         0         0         0         0         0         0         0         0         0
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         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0    0.4431    0.3608
         0         0         0         0         0         0         0    0.3216    0.9922    0.5922
         0         0         0         0         0         0         0    0.3216    1.0000    0.9922
         0         0         0         0         0         0         0         0    0.2784    0.5922
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         0         0         0         0         0         0         0         0         0         0
         0         0         0         0         0         0         0         0         0         0

  Columns 11 through 20

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  Columns 21 through 28

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20
  • 1
    It looks like your digits have a lot more variation in brightness. Have you tried quantising the image....i.e. x(x>0)=255? You could also try a median filter to get rid of any salt&pepper noise introduced by compression. – shaw2thefloor Jan 13 '15 at 15:46
  • 1
    @shaw2thefloor I've applied x(x<0.05) = 0, because bicubic interpolation introduced some offset at background which is not exist in MNIST. I've also tried binarized version of my dataset to test on NN trained with binarized MNIST and normal MNIST. The accuracy is dropped in both of the cases. Besides, contrast enhancement didn't increase accuracy, even decreased! I've checked the processed pathces, and there was no salt&pepper noise. – yasin.yazici Jan 13 '15 at 16:04
  • 1
    @shaw2thefloor I didn't make any augmentation on MNIST set and training is done only by using MNIST training set. MNIST test set and my own dataset is tested separately. – yasin.yazici Jan 13 '15 at 17:17
  • 1
    @NeilSlater Yes, it displays digits in a washed out way. Black background turned into gray. I've used 'display_network' to display many digits togerther. It is a part of stanford ufdl course in here. ufldl.stanford.edu/wiki/index.php/Exercise:Sparse_Autoencoder. I've aware of the line thinkness. Should I apply a transform for it? I didn't check general thickness of MNIST, but my digits are thin in general. – yasin.yazici Jan 13 '15 at 19:06
  • 1
    @shaw2thefloor yes, it is not surprising. My question is how can I resemble any kind of writing to MNIST so that it can be classified with a classifier that trained with MNIST. Otherwise, I need to include the other type of writings to the training set. As you can see from images above, my dataset has thinner lines because they are written with smartphone pen. It is not common in MNIST as far as I see. – yasin.yazici Jan 14 '15 at 11:23
2

So what you are looking for is a generalised way of normalising you test data so that it can be compared against the MNIST training data. Perhaps you could first use a technique to normalise the MNIST training data into a standard format, then train your CNN, then normalise you test data using the same process, then apply the CNN for recognition.

Have you seen this paper? It uses moment based image normalisation. It is word level, so not quite what you are doing, but should be easy enough to implement.

Moment-based Image Normalization for Handwritten Text Recognition (Kozielski et al.):

1
  • That is the closest answer to my question. I will check that out. – yasin.yazici Jan 15 '15 at 14:11
0

You could take the mnist trained cnn and try retraining on a subset of your samples. Apply blurs and small.roto-translations to increase datasize.

1
  • 1
    I've collected 120 digits from 4 subject by using Samsung Note3 with its pen. So pen thickness didn't differ in general. Your suggestion will probably increase accuracy because MNIST data has various type of digits and not similar to my own dataset in general. However, my ultimate aim is detection of handwritten letters and digits accurately from any image. It can be an image of blackboard in a class. In that case, CNN or NN trained with MNIST or dataset colected via a smartphone pen will yield lower accuracy again. I need a general pre-process that can increase resemblance with training set. – yasin.yazici Jan 13 '15 at 22:48
0

I wonder if you have only used the train/test set or partitioned your data into train/dev/test set. In the second case make sure the dev and test set come from same distribution.In either case, the model trains in the training set and tries to generalize the results to the test set.

It seems to be a high variance problem. However, since the dataset you created is from different distribution, I believe you have a case of data mismatch. The dataset you prepared might be somewhat difficult(being from different distribution) than the training set you obtained from the MNIST database and the model have never seen the dataset of that difficulty. So the model is not being able to generalize well. This problem is well addressed by Ng's lecture in model optimization(Mismatch training and dev/test set).

A simple solution could be to mix a portion of your dataset(abt 50% or more) with the MNIST training set and a portion with with dev/test set and retrain the model. This lets your model to generalize well to the difficult dataset.. Besides using elastic distortion or other augmentation techniques to augment the data might help as it brings variation to the dataset and increase your data volume.

Other methods to better optimize your model could be using regularization techniques like Dropouts

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