Draft:Lambda function (graph theory)

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• Comment: This title and this draft are purely promotional for junk research defining and renaming binomial coefficients, a concept that has been well known for millenia. —David Eppstein (talk) 22:43, 24 March 2024 (UTC)

In a generalised form of graph theory, the lambda function of a nonnegative integer ${\displaystyle n}$, notated as ${\displaystyle \lambda (n)}$ or ${\displaystyle \lambda n}$, is equal to the exact number of links required so that there is not a single entity of entities that is not directly connected by a single link per connection to every other entity of entities. This means that it is equal to the number of edges in ${\displaystyle K_{n}}$, the complete graph of ${\displaystyle n}$ vertices, in graph theory.

The lambda function was introduced in the 2024 generalised graph theory paper "The lambda function - computing required amounts of links to make every one of a number of entities directly linked to each other" by the mathematician Charles Ewan Milner.^[1]

In his paper, Milner gives these formulas for values of the lambda function which are valid only when all the variables are nonnegative integers: ${\displaystyle \lambda (n)=\lambda (n-1)+n-1}$, ${\displaystyle \lambda (a+b)=\lambda (a)+\lambda (b)+ab}$, and ${\displaystyle \lambda (a+b+c)=\lambda (a)+\lambda (b)+\lambda (c)+ab+bc+ac}$.