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Brownovo gibanje in toplotna enačba : magistrsko delo
ID Saksida, Grega (Author), ID Perman, Mihael (Mentor) More about this mentor... This link opens in a new window

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Abstract
Toplotna enačba je ena najpomembnejših parcialnih diferencialnih enačb v matematiki in naravoslovju. Njene rešitve se navadno ne da izraziti v zaprti eksplicitni obliki, jo pa lahko zapišemo v integralski obliki z uporabo t. i. fundamentalne rešitve ali pa kot neskončno vrsto rešitev lastnega problema, če jo rešujemo na omejeni množici. V tej magistrski nalogi bomo raziskali še tretji način, kjer rešitev toplotne enačbe zapišemo kot pričakovano vrednost primernega funkcionala Brownovega gibanja. Računsko gledano se izkaže za sorodnega zapisu rešitve v integralski obliki, a je konceptualno povsem drugačen, omogoča pa reševanje tudi bolj splošnih oblik toplotne enačbe, med drugim posebne oblike konvekcijske toplotne enačbe. Zapis rešitve z Brownovim gibanjem porodi tudi nove numerične pristope k reševanju toplotne enačbe.

Language:Slovenian
Keywords:Brownovo gibanje, martingal, lokalni martingal, Itôv integral, toplotna enačba, Feynman-Kacova formula, enostavna lastnost Markova, Lebesgueov integral s parametrom, neodvisnost
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FMF - Faculty of Mathematics and Physics
Year:2022
PID:20.500.12556/RUL-139402 This link opens in a new window
UDC:519.2
COBISS.SI-ID:120801539 This link opens in a new window
Publication date in RUL:02.09.2022
Views:1546
Downloads:100
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Secondary language

Language:English
Title:Brownian motion and the heat equation
Abstract:
The heat equation is one of the most important partial differential equations in mathematics and natural sciences. Its solution can rarely be expressed in closed, explicit form. It can however be expressed in integral form with the so-called fundamental solution or as a series of solutions to the eigenvalue problem, if the domain is bounded. In this master's thesis a third method is explored, where the solution to the heat equation is expressed as conditional expectation of appropriate functionals of Brownian motion. In computational sense it is similar to the expression in terms of the fundamental solution, but conceptually unrelated. In addition, the Brownian approach gives rise to new numerical algorithms for solving the heat equation.

Keywords:Brownian motion, martingale, local martingale, Itô integral, heat equation, Feynman-Kac formula, Markov property, parameter-dependent Lebesgue integral, independence

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