Thirring model

From formulasearchengine
Jump to navigation Jump to search

Armstrong's axioms are a set of axioms (or, more precisely, inference rules) used to infer all the functional dependencies on a relational database. They were developed by William W. Armstrong on his 1974 paper.[1] The axioms are sound in generating only functional dependencies in the closure of a set of functional dependencies (denoted as F+) when applied to that set (denoted as F). They are also complete in that repeated application of these rules will generate all functional dependencies in the closure F+.

More formally, let <R(U), F> denote a relational scheme over the set of attributes U with a set of functional dependencies F. We say that a functional dependency f is logically implied by F,and denote it with Ff if and only if for every instance r of R that satisfies the functional dependencies in F, r also satisfies f. We denote by F+ the set of all functional dependencies that are logically implied by F.

Furthermore, with respect to a set of inference rules A, we say that a functional dependency f is derivable from the functional dependencies in F by the set of inference rules A, and we denote it by FAf if and only if f is obtainable by means of repeatedly applying the inference rules in A to functional dependencies in F. We denote by FA* the set of all functional dependencies that are derivable from F by inference rules in A.

Then, a set of inference rules A is sound if and only if the following holds:

FA*F+

that is to say, we cannot derive by means of A functional dependencies that are not logically implied by F. The set of inference rules A is said to be complete if the following holds:

F+FA*

more simply put, we are able to derive by A all the functional dependencies that are logically implied by F.

Axioms

Let R(U) be a relation scheme over the set of attributes U. Henceforth we will denote by letters X, Y, Z any subset of U and, for short, the union of two sets of attributes X and Y by XY instead of the usual XY; this notation is rather standard in database theory when dealing with sets of attributes.

Axiom of Reflexivity

If YX, then XY

Axiom of augmentation

If XY, then XZYZ for any Z If XY, then XCYC for any C

Axiom of transitivity

If XY and YZ, then XZ

Additional rules

These rules can be derived from above axioms.

Union

If XY and XZ then XYZ

Decomposition

If XYZ then XY and XZ

Pseudo transitivity

If AB and BCD then ACD

Armstrong relation

Given a set of functional dependencies F, the Armstrong relation is a relation which satisfies all the functional dependencies in the closure F+ and only those dependencies. Unfortunately, the minimum-size Armstrong relation for a given set of dependencies can have a size which is an exponential function of the number of attributes in the dependencies considered.[2]

External links

References

  1. William Ward Armstrong: Dependency Structures of Data Base Relationships, page 580-583. IFIP Congress, 1974.
  2. Template:Cite doi

Template:Databases Template:Database normalization