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Linearna algebra nad polkolobarji : delo diplomskega seminarja
ID Zakeršnik, Jimmy (Author), ID Košir, Tomaž (Mentor) More about this mentor... This link opens in a new window

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Abstract
Delo obravnava algebraično strukturo polkolobarja z dodatno pozornostjo dano na posebni primer dioida. Množica $R$ je polkolobar za binarni notranji operaciji $\oplus$ in $\otimes$, če je $(R,\oplus)$ komutativen monoid z enoto $0$, $(R,\otimes)$ monoid z enoto $1$, med $\otimes$ in $\oplus$ velja leva ali desna distributivnost ter velja, da $0$ izniči $\otimes$, torej ⠀$\forall a \in R; a \otimes 0 = 0\otimes a = 0$. Če je $(R,\oplus)$ poleg tega še delno urejen s kanonično relacijo $\le$, polkolobarju $(R,\oplus,\otimes)$ pravimo dioid. Tako pojem dioida kot pojem polkolobarja obstajata že nekaj časa in mnogo klasičnih vprašanj v povezavi s temi strukturami, s stališča linearne algebre, že ima odgovore. V nalogi bodo obravnavana zgolj osnovna izmed teh. Obravnavana vprašanja so predvsem centrirana na lastnostih polkolobarjev in dioidov ter posplošitvah konceptov iz klasične linearne algebre nad polji, kot so obstoj in lastnosti baz $R$-polmodula nad polkolobarjem $R$, lastnosti in obrnljivost matrik nad polkolobarjem $R$ ter Cayley-Hamiltonov izrek.

Language:Slovenian
Keywords:Linearna algebra, algebra, polkolobar, polmodul, dioid, pideterminanta, karakteristični pipolinom, posplošeni Cayley-Hamiltonov izrek
Work type:Final seminar paper
Typology:2.11 - Undergraduate Thesis
Organization:FMF - Faculty of Mathematics and Physics
Year:2023
PID:20.500.12556/RUL-147347 This link opens in a new window
UDC:512
COBISS.SI-ID:157581827 This link opens in a new window
Publication date in RUL:02.07.2023
Views:1200
Downloads:66
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Secondary language

Language:English
Title:Linear algebra over semirings
Abstract:
This paper discusses the algebraic structure of a semiring, with additional attention given to the special case of a dioid. The set $R$ is a semiring for the binary internal laws $\oplus$ and $\otimes$ if $(R,\oplus)$ is a commutative monoid with the neutral element $0$, $(R,\otimes)$ is a monoid with the neutral element $1$, $\otimes$ is left- or right-distributive with respect to $\oplus$ and if $0$ is absorbing for $\otimes$, i. e. $\forall a \in R; a \otimes 0 = 0\otimes a = 0$. If additionally $(R,\oplus)$ is also ordered with the canonical order relation $\le$, we instead call $(R,\oplus,\otimes)$ a dioid. Both terms have existed for some time now and most of the classical questions relating to the structures, from the perspective of linear algebra, have already been answered. From among those, this paper will present some of the more elementary results. In particular, the focus will be on properties of semirings and dioids and on generalizations of concepts from classical linear algebra over fields such as the existence and properties of bases of an $R$-semimodule, the properties and invertibility of a matrix over a semiring $R$ and the Cayley-Hamilton theorem.

Keywords:Linear algebra, algebra, semiring, semimodule, dioid, pideterminant, characteristic pipolynomial, generalized Cayley-Hamilton theorem

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