# Structured, factored and atomic representation?

I am currently reading "Artificial Intelligence: A modern Approach". Though the terminology factored, structured and atomic representation is confusing what do these mean exactly?

In relation with programming...

Thanks

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I'm not thrilled with the lines that Russell and Norvig draw, but: Generally, when you're using AI techniques to solve a problem, you're going to have a programmed model of the situation. Atomic/factored/structured is a qualitative measure of how much "internal structure" those models have, from least to most.

Atomic models have no internal structure; the state either does or does not match what you're looking for. In a sliding tile puzzle, for instance, you either have the correct alignment of tiles or you do not.

Factored models have more internal structure, although exactly what will depend on the problem. Typically, you're looking at variables or performance metrics of interest; in a sliding puzzle, this might be a simple heuristic like "number of tiles out of place," or "sum of manhatten distances."

Structured models have still more; again, exactly what depends on the problem, but they're often relations either of components of the model to itself, or components of the model to components of the environment.

It is very easy, especially when looking at very simple problems like the sliding tile, to unconsciously do all the hard intelligence work yourself, at a glance, and forget that your model doesn't have all your insight. For example, if you were to make a program to do a graph search technique on the sliding puzzle, you'd probably make some engine that took as input a puzzle state and an action, and generated a new puzzle state from that. The puzzle states are still atomic, but you the programmer are using a much more detailed model to link those inputs and outputs together.

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They write in a cryptic way. So an atomic model is an environment structure which lacks the level of details that an agent may require. i.e. driving from one city to another factors such as the car's fuel gauge, and accelerometer are not discernible when defining a problem definition, due to uncertainty, correct? Thus, factor representation makes these details available to the agent. Then does the structured model define the relationships between actions and states in an environment? – Hmm Dec 21 '11 at 22:27
That's a rough patch in an otherwise very strong book, in my opinion. It's a chicken-and-egg problem, in that you probably can't appreciate their framework until you see it applied; but just seeing it applied, the framework might not occur to you. So, they do the best they can-- point it out early, give some examples, and then treat the examples exhaustively in subsequent chapters. – Novak Dec 21 '11 at 22:35