Integration of Differential Forms on  Manifolds With Locally-Finite Variations

Rahmani, Fatma Zohra; M.Abdelouahab, Chikh Salah/encadreur

dc.contributor.author	Rahmani, Fatma Zohra
dc.contributor.author	M.Abdelouahab, Chikh Salah/encadreur
dc.date.accessioned	2025-08-12T13:49:38Z
dc.date.available	2025-08-12T13:49:38Z
dc.date.issued	2025
dc.identifier.uri	https://dspace.univ-ghardaia.edu.dz/xmlui/handle/123456789/9758
dc.description	Mathematics and Computer Science Field, Mathematics Stream Functional Analysis Specialty	EN_en
dc.description.abstract	Given the fundamental role of integration in measuring distances, there has always been a need to develop this concept, especially due to the diversity and complexity of shapes in the real world. Geometers have historically sought to extend integration to more complex geometric objects. The first major obstacle arose when Riemann and Lebesgue integrals failed to apply on non-flat surfaces. This prompted the intervention of differential geometers, most notably George Stokes, who formulated the famous Stokes's theorema partial resolution connecting integration over a manifold with its boundary. However, this did not fully solve the issue. Therefore, Alexey V. Potepun approached the problem differently by modifying the foundations of integration on manifolds, adapting it to the framework of locally-finite variation. This was a major challenge, but it allowed for powerful new generalizations of the integral. Let us now explore what exactly happened.	EN_en
dc.language.iso	en	EN_en
dc.publisher	University of Ghardaia	EN_en
dc.subject	Differential Forms, Manifolds with Locally-Finite Variations, Integration on Manifolds, Geometric Measure Theory, Topological Degree Theory, Locally-Finite Variation.	EN_en
dc.title	Integration of Differential Forms on Manifolds With Locally-Finite Variations	EN_en
dc.type	Thesis	EN_en