Are there any benchmarks that can be used to check if implementation of ANN is correct?
I want to have some input and output data, and some information like:
- The output of Feedf开发者_JAVA百科orward neural network with 3 layers should be correct in 90% of test data.I need this information to be sure that this kind of ANN is able to deal with such problem.
Probably the best thing you can do is design a neural network that learns the XOR function. Here is a web site that shows sample runs: http://www.generation5.org/content/2001/xornet.asp
I had a homework in which our teacher gave us the first few runs of the neural network with given weights... if you set your neural network with the same weights, then you should get the same results (with straight backpropagation).
If you have a neural network with 1 input layer (with 2 input neurons + 1 constant), 1 hidden layer (with 2 neurons + 1 constant) and 1 output layer and you initialize all your weights to 0.6, and make your constant neurons always return -1, then you should get the exact same results in your first 10 runs:
* Data File: xor.csv
* Number of examples: 4
Number of input units: 2
Number of hidden units: 2
Maximum Epochs: 10
Learning Rate: 0.100000
Error Margin: 0.100000
==== Initial Weights ====
Input (3) --> Hidden (3) :
1 2
0 0.600000 0.600000
1 0.600000 0.600000
2 0.600000 0.600000
Hidden (3) --> Output:
0 0.600000
1 0.600000
2 0.600000
***** Epoch 1 *****
Maximum RMSE: 0.5435466682137927
Average RMSE: 0.4999991292217466
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.599691 0.599691
1 0.599987 0.599987
2 0.599985 0.599985
Hidden (3) --> Output:
0 0.599864
1 0.599712
2 0.599712
***** Epoch 2 *****
Maximum RMSE: 0.5435080531724404
Average RMSE: 0.4999982558452263
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.599382 0.599382
1 0.599973 0.599973
2 0.599970 0.599970
Hidden (3) --> Output:
0 0.599726
1 0.599425
2 0.599425
***** Epoch 3 *****
Maximum RMSE: 0.5434701135827593
Average RMSE: 0.4999973799942081
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.599072 0.599072
1 0.599960 0.599960
2 0.599956 0.599956
Hidden (3) --> Output:
0 0.599587
1 0.599139
2 0.599139
***** Epoch 4 *****
Maximum RMSE: 0.5434328258833577
Average RMSE: 0.49999650178769495
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.598763 0.598763
1 0.599948 0.599948
2 0.599941 0.599941
Hidden (3) --> Output:
0 0.599446
1 0.598854
2 0.598854
***** Epoch 5 *****
Maximum RMSE: 0.5433961673713259
Average RMSE: 0.49999562134010495
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.598454 0.598454
1 0.599936 0.599936
2 0.599927 0.599927
Hidden (3) --> Output:
0 0.599304
1 0.598570
2 0.598570
***** Epoch 6 *****
Maximum RMSE: 0.5433601161709642
Average RMSE: 0.49999473876144657
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.598144 0.598144
1 0.599924 0.599924
2 0.599914 0.599914
Hidden (3) --> Output:
0 0.599161
1 0.598287
2 0.598287
***** Epoch 7 *****
Maximum RMSE: 0.5433246512036478
Average RMSE: 0.49999385415748615
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.597835 0.597835
1 0.599912 0.599912
2 0.599900 0.599900
Hidden (3) --> Output:
0 0.599017
1 0.598005
2 0.598005
***** Epoch 8 *****
Maximum RMSE: 0.5432897521587884
Average RMSE: 0.49999296762990975
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.597526 0.597526
1 0.599901 0.599901
2 0.599887 0.599887
Hidden (3) --> Output:
0 0.598872
1 0.597723
2 0.597723
***** Epoch 9 *****
Maximum RMSE: 0.5432553994658493
Average RMSE: 0.49999207927647754
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.597216 0.597216
1 0.599889 0.599889
2 0.599874 0.599874
Hidden (3) --> Output:
0 0.598726
1 0.597443
2 0.597443
***** Epoch 10 *****
Maximum RMSE: 0.5432215742673802
Average RMSE: 0.4999911891911738
Percent Correct: 0%
Input (3) --> Hidden (3) :
1 2
0 0.596907 0.596907
1 0.599879 0.599879
2 0.599862 0.599862
Hidden (3) --> Output:
0 0.598579
1 0.597163
2 0.597163
Input (3) --> Hidden (3) :
1 2
0 0.596907 0.596907
1 0.599879 0.599879
2 0.599862 0.599862
Hidden (3) --> Output:
0 0.598579
1 0.597163
2 0.597163
xor.csv contains the following data:
0.000000,0.000000,0
0.000000,1.000000,1
1.000000,0.000000,1
1.000000,1.000000,0
Your neural network should look like this (disregard the weights, yellow is the constant input neuron):
(source: jtang.org)
You can use the MNIST database of handwritten digits, with a 60k training and a 10k test set, to compare the error rate of your implementation against various other machine learning algorithms like K-NN, SVM, Convolutional networks (Deep learning) and of course different ANN configurations.
精彩评论