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Questions tagged [matroids]

Matroids are a common generalization of linearly independent sets and independent sets in graphs. Among other applications, they are exactly the simplical complexes in which the greedy algorithm outputs the optimal solution. Matroids are also studied for their own sake.

A Matroid is a structure that abstracts and generalizes the notion of linear independence in vector spaces. There are many equivalent ways to define a matroid axiomatically, the most significant being in terms of: independent sets; bases or circuits; rank functions; closure operators; and closed sets or flats. In the language of partially ordered sets, a finite matroid is equivalent to a geometric lattice.

Matroid theory borrows extensively from the terminology of linear algebra and graph theory, largely because it is the abstraction of various notions of central importance in these fields. Matroids have found applications in geometry, topology, combinatorial optimization, network theory and coding theory

378 questions
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Pairs of matroids $(M_1, M_2)$ with $\mathcal C(M_1) = \mathcal B(M_2)$

Let $M$ be a matroid on (finite) ground set $E$ with $\mathcal B(M)$ as its set of bases and $\mathcal C(M)$ as its set of circuits. If we consider the uniform matroid $U_{m,n}$ for $m,n \in \mathbb N$ with $m < n$, then we see that $\mathcal…
Moritz
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Does the strong elimination axiom hold also for the set of dependent sets of a matroid?

Let $M$ be a matroid with $\mathcal C$ as set of circuits of $M$, and $\mathcal D$ as set of dependent sets of $M$, respectively. Recall that $\mathcal C \subseteq \mathcal D$. We know that the strong elimination axiom holds for $\mathcal C$, that…
Moritz
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Why are there exactly two cocircuits for a given basis $B$ and $e\in B$?

I am very unfamiliar with the topic of oriented matroids and am just learning about it. I want to prove the following result which is needed to define fundamental cocircuits. Alas, I did not succeed in doing so, so far. Therefore, I would appreciate…
caligula
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Alternative definition of and opposite concept to a matroid?

From Wikipedia In terms of independence, a finite matroid $M$ is a pair $(E,\mathcal{I})$, where $E$ is a finite set (called the ground set) and $\mathcal{I}$ is a family of subsets of $E$ (called the independent sets) with the following…
Tim
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Relation between topes and sign vectors

I studying the following proposition and have a question about the very last part of its proof: $\textbf{Proposition}$ The set $\mathcal{T}$ of topes of an oriented matroid $\mathcal{M}=(E,\mathcal{F})$ determines the set of covectors by $$…
math
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Proof of laminar matroid

Let $S$ be a ground set, and $\mathscr{L}$ be a laminar family of subsets of $S$, which means that for every two distinct subsets $A,B \in \mathscr{L}$, we have either $A \subseteq B$ or $B \subseteq A$ or $A \cap B = \emptyset$. For every $Y \in…
CSDude101
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Proving the recurrence relation of the rank polynomial (or Tutte's) on a matroid.

I'm reading through chapter 15 on Algebraic Graph Theory by Godsil and Royle. The $\mathit{rank \ polynomial}$ for a matroid $M$ is defined as $$R_M(x,y)=\sum_{A \subseteq\Omega} x^{rk(\Omega)-rk(A)}y^{|A|-rk(A)}, $$ where $rk(X)$ is the the rank…
ak87
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Multi cover a matroid with circuits

The following question looks similar to the double cover conjecture for graphs and regular matroids, but I am not sure if it has been studied for general matroids: Is there a universal constant $c$ such that for every bridgeless matroid…
Jose Soto
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Not understanding the uniqueness of uniform matroid

According to Oxley's Matroid Theory, page 19 (second edition), a uniform matroid is a matroid with $n$ elements in set $E$, so that for some integer $m$ the set $I$ is defined: $I(U_{m,n})=\{X \subseteq E: |X|\leq m\}$. But if the bases of some…
Avi
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Theory of matroids and euclidean representation

I am looking for the definition of the "euclidian representation" of a matroid. I guess it is used for graphic matroids but impossible to find the construction for this representation. Thank you for your help.
Fundamentalistic
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Matroid Isomorphism Definition

I'm working though Welsh's Matroid Theory work, and he very casually mentions matroid isomorphisms in the first chapter but I don't think I like his statement. He says that two matroids $M_1=(S_1,I_1)$ and $M_2 = (S_2,I_2)$ are isomorphic if there…
walkar
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Is this function submodular?

Let $f:2^V\to \mathbb{R}$ be a symmetric submodular function. Let $T\subset V$, consider the function $f_T:2^T\to \mathbb{R}$ defined as follows: $$f_T(X) = \min \{f(Y) | X\subset Y,T\backslash X\subset V\backslash Y \}$$ Is $f_T$ submodular? If so,…
Chao Xu
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How to prove whether a given matroid is a Gammoid?

Statement : Given a matroid in some representation say $(E,I)$. How do we prove it is a gammoid? For example to prove a matroid is transversal, we try to create a bipartite graph. If we are unable to(i.e. if we get some contradiction) then it is not…
Swapniel
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How to find an uncommon base of two matroids

Let $M_1=(E,\mathcal{I}_1)$ and $M_2=(E,\mathcal{I}_2)$ be two matroids defined on the same ground set $E$ with independent sets $\mathcal{I}_1$ and $\mathcal{I}_2$ respectively. Suppose we can check whether a subset $S$ of $E$ is an independent set…
Amritanshu singh
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Property of circuits of a matroid made up of two circuits that differ by one element

Exercise 5 in section 1.1. of Oxley's Matroid Theory (1992) says: Let $C_1$ and $C_2$ be circuits of a matroid $M$ such that $C_1 \cup C_2 = E(M)$ and $C_1 \setminus C_2 = \{e\}$. Prove that if $C_3$ is a circuit of $M$, then either $C_3 = C_1$ or…
Anakhand
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