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I'm looking to do some complex part analysis within Seimens NX. I'm looking to implement the double caliper method of measuring a model in order to find the minimum possible box that it could possibly fit into(for machining purposes). I've got all of my measurement code in place, but I am completely baffled by the idea of a construct that can randomly output normalized 3x3 vectors for use as coordinate systems. The part is measured with respect to this coordinate system, so each coordinate system gives a unique "minimum part envelope". Once analyzed, the smallest envelope is selected and displayed.

this is the type of vector I am talking about:
1 0 0
0 1 0
0 0 1

numbers can be any value between -1 and 1, with decimals not only being accepted but pretty much required.

and no, this isn't my homework. More of an individual pursuit in my free time at work.

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1 Answer 1

up vote 2 down vote accepted

If you apply a rotation matrix to an already orthogonal matrix, then the result should also be orthogonal.

So you can redefine your problem as applying a random rotation matrix to the identity matrix.

Perhaps do one random rotation matrix for each axis (x,y,z) and then apply the matrices themselves in a random order?

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This could actually be a step in the right direction. I do have access to the absolute coordinate system of the part itself, so a transform is completely acceptable. Hell, I believe there are already methods available for just that. I spent to much timer pouring over how to do this I overlooked the most obvious answer. Thanks! –  Lee Harrison Jan 4 '12 at 1:22

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