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1. A matroid M is a pair (E, C) consisting of a nite set E, called the ground set, and a set C of subsets of E, called circuits, that obey the following three conditions.^[1]
2. In a matroid M , we often write E(M ) for the ground set and C(M ) for the set of circuits, especially when several matroids are being considered.^[1]
3. Let G be a graph with edge set E and C be the set of edge sets of cycles of G. Then (E, C) is a matroid.^[1]
4. The matroid whose existence is asserted there is called the cycle matroid of the graph G and is denoted by M (G).^[1]
5. Every ag B1 ... Bs with Bi a basis of Mi is in F. The relation is obtained by considering ag matroid polytopes and lattice polytopes representing a toric variety.^[2]
6. Denition (Dual of a matroid) Let M = (E , B) be a matroid.^[2]
7. A regular (i.e. representable over every eld) matroid is graphic if and only if it has no minor isomorphic to M (K5) or M (K3,3).^[2]
8. 9 A brief detour on representability Previously, we saw that U 2 matroid which is not representable.^[2]
9. Introduction to Matroids A matroid is a structure that generalizes the properties of indepen- dence.^[3]
10. There are several ways to de(cid:12)ne a matroid, each relate to the concept of independence.^[3]
11. This paper will focus on the the de(cid:12)nitions of a matroid in terms of bases, the rank function, independent sets and cycles.^[3]
12. The four de(cid:12)nitions of a matroid introduced in this paper are equiv- alent to each other.^[3]
13. Roughly speaking, a matroid is a finite set together with a generalization of a concept from linear algebra that satisfies a natural set of properties for that concept.^[4]
14. A matroid can be defined in terms of bases.^[5]
15. A matroid consists of a ground set as well as a set of bases which is a nonempty subset of the power set of the ground set.^[5]
16. The answer is yes, and the framework that enables us to do this is called a matroid.^[6]
17. That is, if we can phrase the problem we’re trying to solve as a matroid, then the greedy algorithm is guaranteed to be optimal.^[6]
18. There is also a similar concept of an oriented matroid; every oriented matroid has an underlying matroid.^[7]
19. Proposition Any two bases of a matroid X X have the same cardinality, provided that one of them is finite.^[7]
20. The cardinality of such a basis is called of course the dimension of the matroid.^[7]
21. Clearly then a finite matroid has a well-defined dimension.^[7]
22. The word matroid was coined by Whitney in 1935 in his landmark paper "On the abstract properties of linear dependence".^[8]
23. In defining a matroid Whitney tried to capture the fundamental properties of dependence that are common to graphs and matrices.^[8]
24. Almost simultaneously, Birkhoff showed that a matroid can be interpreted as a geometric lattice.^[8]
25. This page has a chronological list of matroid books including collections of papers, applications and generalizations.^[8]
26. A matroid, M , dened by independent sets comes with two pieces.^[9]
27. Let us check that M = (E, I) is a matroid.^[9]
28. After a lot of painful checking, we nd that the M we dened above is actually a matroid.^[9]
29. This matroid has another name: the uniform matroid U2,4.^[9]
30. There are two main entry points to Sage’s matroid functionality.^[10]
31. This function attempts to interpret its arguments to create an appropriate matroid.^[10]
32. graph – A graph, whose edges form the elements of the matroid.^[10]
33. matroid – An object that is already a matroid.^[10]
34. E.1 Denitions Many problems that can be correctly solved by greedy algorithms can be described in terms of an abstract combinatorial object called a matroid.^[11]
35. An independent set is called a basis of the matroid if it is not a proper subset of another independent set.^[11]
36. The exchange property implies that every basis of a matroid has the same cardinality.^[11]
37. Most of this terminology is justied by Whitneys original example: Linear matroid: Let A be any n m matrix.^[11]
38. In the language of partially ordered sets, a finite matroid is equivalent to a geometric lattice.^[12]
39. Matroid theory borrows extensively from the terminology of both linear algebra and graph theory, largely because it is the abstraction of various notions of central importance in these fields.^[12]
40. A maximal independent set—that is, an independent set that becomes dependent upon adding any element of E {\displaystyle E} —is called a basis for the matroid.^[12]
41. The collections of dependent sets, of bases, and of circuits each have simple properties that may be taken as axioms for a matroid.^[12]
42. This survey paper introduces matroid theory, presents some of the main theorems in the subject, and identies some of the major problems of current research interest.^[13]
43. This survey of matroid theory will assume only that the reader is familiar with the basic concepts of linear algebra.^[13]
44. In Section 2, Whitneys denition of a matroid is given, some basic classes of examples of matroids are introduced, and some important questions are identied.^[13]
45. The set E and the members of I are the ground set and independent sets of this matroid.^[13]
46. The Matroid product enables non-software organizations in enterprise to harness the power of software-defined sensors.^[14]
47. With the Matroid product, we set a new standard for ease of use in deploying sensors.^[14]
48. Once a detector is developed, Matroid can search any live stream or recorded video, providing real time notifications when the object of interest has been detected.^[14]
49. Customers use Matroid in construction, manufacturing, security, media, retail and other industries.^[14]
50. The polymatroid matching problem, also known as the matchoid problem or the matroid parity problem, is polynomially unsolvable in general but solvable for linear matroids.^[15]
51. As this book is being written, a large collection of deep matroid theorems already exists.^[16]
52. So I'd like to know, please, what specific results a matroid theory partisan would likely cite as the best demonstrations of the power of matroid theory within the larger arena of mathematics.^[17]
53. Matroid theory examines and answers questions like these.^[18]
54. This book falls into two parts: the first provides a comprehensive introduction to the basics of matroid theory, while the second treats more advanced topics.^[18]
55. We saw in the previous section that both problems, \((P_{\le k})\) and \((P_{\ge k})\), can be solved in strongly polynomial time via a weighted matroid intersection algorithm.^[19]
56. Note that this problem can be solved with a matroid greedy algorithm.^[19]
57. A. Frank proved the following result about sequences of moves, to show correctness of the weighted matroid intersection algorithm.^[19]
58. Introduction A matroid is a combinatorial structure that possesses important combinatorial properties of a wide variety of math emati cal structures.^[20]
59. J arc called the independent sets of the matroid.^[20]
60. J are called the bases of the matroid.^[20]
61. Set ill equivalently defines a matroid on E .^[20]

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