Narayana number

In combinatorics, the Narayana numbers N(n, k), n = 1, 2, 3 ..., 1  k  n, form a triangular array of natural numbers, called Narayana triangle, that occur in various counting problems. They are named after Indian mathematician T. V. Narayana (1930–1987).

Formula

The Narayana numbers can be expressed in terms of binomial coefficients:

Numerical values

The first eight rows of the Narayana triangle read:

k =      1   2   3   4   5   6   7   8
n = 1    1
    2    1   1
    3    1   3   1
    4    1   6   6   1
    5    1  10  20  10   1
    6    1  15  50  50  15   1
    7    1  21 105 175 105  21   1
    8    1  28 196 490 490 196  28   1

(sequence A001263 in the OEIS)

Combinatorial interpretations

An example of a counting problem whose solution can be given in terms of the Narayana numbers N(n, k), is the number of expressions containing n pairs of parentheses, which are correctly matched and which contain k distinct nestings. For instance, N(4, 2) = 6 as with four pairs of parentheses six sequences can be created which each contain two times the sub-pattern '()':

()((()))  (())(())  (()(()))  ((()()))  ((())())  ((()))()

From this example it should be obvious that N(n, 1) = 1, since the only way to get a single sub-pattern '()' is to have all the opening parentheses in the first n positions, followed by all the closing parentheses. Also N(n, n) = 1, as distinct nestings can be achieved only by the repetitive pattern ()()() ... (). More generally, it can be shown that the Narayana triangle is symmetric: N(n, k) = N(n, n  k + 1).

The sum of the rows in this triangle equal the Catalan numbers:

To illustrate this relationship, the Narayana numbers also count the number of paths from (0, 0) to (2n, 0), with steps only northeast and southeast, not straying below the x-axis, with k peaks.

The following figures represent the Narayana numbers N(4, k):

N(4, k) Paths
N(4, 1) = 1 path with 1 peak:
N(4, 2) = 6 paths with 2 peaks:
N(4, 3) = 6 paths with 3 peaks:
N(4, 4) = 1 path with 4 peaks:

The sum of N(4, k) is 1 + 6 + 6 + 1, or 14, which is the same as Catalan number C4. This sum coincides with the interpretation of Catalan numbers as the number of monotonic paths along the edges of an n × n grid that do not pass above the diagonal.

Partitions

The 1,6,6,1 noncrossing partitions with 1,2,3,4 blocks of a 4-element set

In the study of partitions, we see that in a set containing n elements, we may partition that set in different ways, where is the nth Bell number. Furthermore, the number of ways to partition a set into exactly k blocks we use the Stirling numbers . Both of these concepts are a bit off-topic, but a necessary foundation for understanding the use of the Narayana numbers. In both of the above two notions crossing partitions are accounted for.

To reject the crossing partitions and count only the noncrossing partitions, we may use the Catalan numbers to count the non-crossing partitions of all n elements of the set, . To count the non-crossing partitions in which the set is partitioned in exactly k blocks, we use the Narayana number .

See also

References

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