Accoring to Boyce-Codd Normal Form Definition,
Reln R with FDs F is in BCNF if, for all X -> A in F+ -A is subset of X (called a trivial FD), or -X is a superkey for R.
“R is in BCNF if the only non-trivial FDs over R are key constraints.”
If R in BCNF, then every field of every tuple records information that
cannot be inferred using FDs alone.
What I dont understand is the above two statements about normal form,
Can someone give me an example?
Thanks!
Some Pre-requisite terms before I try to Explain:
• Non-key attribute: An attribute that is not part of any candidate key is known as non-key /non-prime attribute.
• Superkey: A set of attributes within a table whose values can be used to uniquely identify a tuple. A candidate key is a minimal set of attributes necessary to identify a tuple; this is also called a minimal superkey.
Now, BCNF is the advance version of 3NF, stricter than 3NF.
A table is in BCNF if every functional dependency X → Y, X is the super key of the table.
Consider a relation : R(A,B,C,D)
The dependencies are:
A->BCD
BC->AD
D->B
So, Candidate keys(or minimal super keys) are A and BC.
But in dependency: D->B, D is not a superkey.
Hence it violates BCNF form.
We can break this relation into R1 and R2 as:
R1(A,D,C) and R2(D,B) to get BCNF.
