A note on geometric structures of linear ordered orthogonal arrays and \((t,m,s)\)-nets of low strength (Q1611368)
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scientific article; zbMATH DE number 1785713
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | A note on geometric structures of linear ordered orthogonal arrays and \((t,m,s)\)-nets of low strength |
scientific article; zbMATH DE number 1785713 |
Statements
A note on geometric structures of linear ordered orthogonal arrays and \((t,m,s)\)-nets of low strength (English)
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21 August 2002
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Ordered orthogonal arrays are a large family of combinatorial objects, which contain orthogonal arrays and \((t,m,s)\)-nets as subclasses. A \(q\)-ary ordered orthogonal array is linear if it forms a vector space over the field with \(q\) elements. Each \((t,m,s)\)-net projects to an ordinary orthogonal array. The embedding problem asks if a given orthogonal array can be embedded in a \((t,m,s)\)-net. In the present paper well-known embedding theorems for linear orthogonal arrays (these are just the duals of linear error-correcting codes) in the case of strenghts 3 and 4 are reproved using geometric language.
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geometric structure
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linear ordered orthogonal array
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pseudo-random number generation
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\((t,m,s)\)-net
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theta configuration
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orthogonal arrays
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embedding theorems
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