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I have a high traffic web site.
I want to create software which analyses client requests on-the-fly and decide if they come from a real user or a botnet bot. For training the neural network to identify legitimate ("good") users I can use logs when there are no DDoS activity. Once trained, the network would distinguish real users from bots.

What I have:

  • request URI (and order)
  • cookie
  • user agent
  • request frequency.

Any ideas on how to best design ANN for this task and how to tune it?

Edit: [in response to comments about the overly broad scope of this question]

I currently have a working C# program which blocks clients on the basis the frequency of identical requests. Now I'd like to improve its "intelligence" with a classifier based on neural network.
I don't know how to normalize these inputs for ANN and I need suggestions in this specific area.

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That's a question of tremendous scope - as in a whole discipline of computer science works on answering that question. –  Robert Dec 8 '10 at 19:27
This is a broad question. Have you tried it yet? –  Mike Daniels Dec 8 '10 at 19:28
No. I have a working C# program which can block clients based on frequency of same requests. But now I want to improve it's "inteligance" with neural network. I don't know how to normalize these inputs for ANN. –  Dmytro Leonenko Dec 8 '10 at 19:40
Interesting question, but I hope you realize that by the time the packets hit your server, it's already too late to mitigate a DDoS attack. What good does it do to tell real users from bots, if your upstream connection is saturated? –  Jim Lewis Dec 8 '10 at 19:45
It depends on kind of DDoS attack. If aim of attack is your CPU or memory when bots are trying to request, say, index.php many times then it's not about traffic, it's about your CPU and memory and you can block these bots and release your CPU time and memory. –  Dmytro Leonenko Dec 8 '10 at 21:18

2 Answers 2

This isn't really suited to neural networks. Neural networks are great provided (as a rough guide):

  1. You can spare the processing power,
  2. The data is not temporal,
  3. The input data is finite,

I don't think that you really pass any of these.

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(2) - what do you mean? (3) - data is finite. You can pass, say, 5 requests and ask ANN if it looks like real user or not. I think it is good task for NN to classify data, isn't it? –  Dmytro Leonenko Dec 8 '10 at 21:20
The data is temporal, it's has timing information. It's depends what information you put into the NN as to whether it's finite, (actually fixed length better describes this property). I don't want to prevent you from trying this, but I don't hold much hope that it'll work. –  dan_waterworth Dec 9 '10 at 7:20
"The data is temporal, it's has timing information" - No. You can pass time delta to NN –  Dmytro Leonenko Dec 9 '10 at 10:07
temporal - "of or relating to time", it's still temporal. –  dan_waterworth Dec 9 '10 at 10:36

Re: normalizing the inputs: you map your input data to a set of symbols (which are then turned into numbers) or you map the inputs to a floating point number where the number represents some degree of intensity. You can map any kind of data to any kind of scheme but you would really only want to use ANN's when the problem solution is nonlinear (all the data for one classification of another classification CAN'T be clustered on one side of a line with all the data for the other classification on the other side of the line). In both cases you end up with a vector of inputs associated with an output ([BOT, HUMAN], or [BOT, HUMAN, UNKNOWN] or [BOT, PROBABLY-BOT, PROBABLY-HUMAN, HUMAN], etc).

How do you distinguish between two users coincidentally submitting the exact same book request equentially in time (let's assume you are selling books)?

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It's really more complicated than I thought –  Dmytro Leonenko Jan 18 '11 at 6:36

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