The polynomial Hirsch conjecture

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The polynomial Hirsch conjecture (or polynomial diameter conjecture) states the following:

Polynomial Diameter Conjecture: Let G be the graph of a d-polytope with n facets. Then the diameter of G is bounded above by a polynomial of d and n.

One approach to this problem is purely combinatorial. It is known that this conjecture follows from

Combinatorial polynomial Hirsch conjecture: Consider t disjoint families of subsets [math]\displaystyle{ F_1,\ldots,F_t }[/math] of [math]\displaystyle{ \{1,\ldots,n\} }[/math]. Suppose that
For every [math]\displaystyle{ i \lt j \lt k }[/math], and every [math]\displaystyle{ S \in F_i }[/math] and [math]\displaystyle{ T \in F_k }[/math], there exists [math]\displaystyle{ R \in F_j }[/math] such that [math]\displaystyle{ S \cap T \subset R }[/math].
Let f(n) be the largest value of t for which this is possible.
Conjecture: f(n) is of polynomial size in n.


Threads

Possible strategies

Partial results and remarks

In the setting of the combinatorial Hirsch conjecture, one can obtain the bound [math]\displaystyle{ f(n) \leq n^{\log n + 1} }[/math] by an elementary argument, given here.

In [EHRR] it is noted that f(n) is at least quadratic in n.

What are the best upper and lower bounds on f(n) for small n?


Background and terminology

(Maybe some history of the Hirsch conjecture here?)

The disproof of the Hirsch conjecture

The Hirsch conjecture: The graph of a d-polytope with n facets has diameter at most n-d.

This conjecture was recently disproven by Francisco Santos [S].

Bibliography

(Expand this biblio!)

Other links

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