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Schema attributes: A,B,C,D,E,F,G

The candidate keys of the schema are A, CF, BFG

Now I have a following minimal cover:

BG->C, ABG->D CF->A A->C A->G AD->F AD->E AC->B

How can I get a 3NF decomposition from minimal cover?

Someone said just combine FDs with same left hand side, but it seems to be not totally right...

What is the standard process to do this?

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1 Answer

Any R relational schema* can be decomposed into multiple relations in 3NF form, given any set of dependencies on R.

If you have the following G minimal cover:

G = { X1 -> A, X2 -> A2, ..., Xn ->An}

A correct 3NF, loseless, dependency preserving decomposition can be the following:

r = {X1A1, X2A2, ..., XnAn} U {K} where K is a key of the R relation.

The r decomposition preserves the original dependencies, because each dependency projected on the decomposed parts gives you one from the original set of dependencies in the G set.

The r decomposition also results in 3NF relations.

1; K is only needed for the loseless decompostion. If you need only dependency preserving, you don't have to add it.

2; During construction of r decomposition, it is possible that some Ri part of r contains a key of the original R relation. This time you don't have to add the plus schema with the key, since the key is already included in the decomposition.

*:Must be at least 1NF form, so the attributes are atomic.

Example for your schema and set of dependencies

Set of dependencies:

BG->C, ABG->D, CF->A, A->C, A->G, AD->F, AD->E, AC->B

Set of candidate keys:


A loseless, dependency preserving 3NF Decomposition:


As you can see A key is already included in the decomposition so you don't have to add that.

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