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I have a supervised learning problem where my algorithm will be given a set of training examples for learning whether a shape is a circle of square. I was wondering which type of ANN would be the best. I know that you can choose a perceptron if the data is linearly separable.. Surely I can easily have a hyperplane that divides my squares and circles up? So isn't a perceptron a good enough choice? However, aren't multilayer feed forward networks more commonly used? What is the natural choice and why?

The following image shows the training data given to the system. The NN needs to classify two dimensional data A=[a1,a2] into squares and circles.

enter image description here

Thank you.

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I think it depends on your repesentation of the data. What representation do you use? –  static_rtti Apr 22 '11 at 10:17
@static_rtti - Please see the image I've added, this should answer your comment. Thanks :). –  ale Apr 22 '11 at 10:33
Well, I guess that answers your question about the existence of a separating hyperplane: do you see a line separating the two classes? –  static_rtti Apr 22 '11 at 10:59
Nope.. therefore.. a perceptron is not appropriate? Therefore, a multilayer feed-forward is the answer :)? –  ale Apr 22 '11 at 11:36
(because a perceptron can only deal with probems that are linearly separable) –  ale Apr 22 '11 at 11:47

2 Answers 2

up vote 2 down vote accepted

The data set you've provided is not linearly separable in the space spanned by a1 and a2, so a perceptron won't do. You need a multi-layer perceptron (MLP). In general, MLPs are used more often because they can do everything a single-layer perceptron can do (look up universal approximation theorem). A radial-basis function will also do the job. Noli hinted to something interesting, but way more complex- a data set becomes linearly separable with high probability if projected onto a very very high dimensional space (Cover's theorem). That is the motivation for using support vector machines.

In summary, there is no natural choice, it's entirely problem specific. Experiment. A lecturer of mine used to say "crossvalidation is your friend"

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Why are you set on an NN, a specific reason? bored? if neither.. have a look at LibSVM


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@Noli.. I'm actually studying for a MSc in AI and I need to know when to use different types of neural networks for different problems. So my question's more theoretical than practical (unfortunately!). –  ale Apr 22 '11 at 10:05

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