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Photogrammetry-based approach for collecting and processing information about an existing building

Kontrimovičius Robertas, Juszczyk Michał, Leśniak Agnieszka, Ustinovichius Leonas, Miedziałowski Czesław

Bulletin of the Polish Academy of Sciences. Technical Sciences

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2023

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Vol. 71, nr 1

art. no. e144453

EN

Due to the organization of construction works, one of the most difficult situations is when a building is planned in a heritage or a densely built-up location. Fixing an existing situation manually takes a lot of time and effort and is usually not accurate. For example, it is not always possible to measure the exact spacing between buildings at different levels and to consider all outside elements of an existing building. Improper fixation of the existing situation causes mistakes and collisions in design and the use of inappropriate construction solutions. The development and progress in technologies such as BIM, laser scanning, and photogrammetry broaden the options for supporting the management of construction projects. It is important to have an effective fast collection and processing of useful information for management processes. The purpose of this paper is to analyze and present some aspects of photogrammetry to collect and process information about existing buildings. The methodology of the study is based on the comparison of two alternative approaches, namely photogrammetry and BIM modelling. Case studies present an analysis of the quantity take-offs for selected elements and parts of the buildings based on the two approaches. In this article, the specific use of photogrammetry shows that the error between the detailed BIM model and the photogrammetry model is only 1.02% and the accuracy is 98.98%. Moreover, physical capabilities do not always allow us to measure every desired element in reality. This is followed by a discussion on the usability of photogrammetry.

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Modelling of the spatial structure of longwall buildings with large-scale quasi finite elements and applying the method in the interaction issues with subsoil - with regard to their implementation in stages

Miedziałowski Czesław, Ustinovichius Leonas

Archives of Civil Engineering

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2021

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Vol. 67, nr 4

527--541

EN

The paper presents the original concept of description and analysis of buildings (wall and floor structures), corresponding to the natural components of construction, quasi finite elements (QWSFS). This concept constitutes one of the component of the developed, interactive model of deep foundation buildings. The presented modelling method enables a significant reduction of the number of unknowns, which in the case of interaction building - subsoil, gives a possibility of including the factual geometry and building development stiffness into the FEM model. Therefore the true representation of static operation of the objects can be analysed. The paper gives basic assumptions to the construction of the QWSF-superelements as well as the results of numerical tests conducted. The potential of using the developed modelling concept in the analysis of the structural elements and deep foundation problems, in a three-dimensional system: subsoil - new building - potential neighbouring building development (at each stage of erection of investment, using a structural statics stage analysis) was presented.

PL

W artykule przedstawiono oryginalną koncepcję opisu i analizy budynków (konstrukcji ścian i stropów), odpowiadającą naturalnym komponentom konstrukcji opisanych elementami quasi skończonymi (QWSFS). Koncepcja ta stanowi jeden z elementów składowych opracowanego interakcyjnego modelu budynków o głęboko posadowionych fundamentach. Przedstawiona metoda modelowania pozwala na znaczne zmniejszenie liczby niewiadomych, co w przypadku modelu interakcji budowla-podłoże daje możliwość włączenia faktycznej geometrii i sztywności zabudowy do modelu MES. Dzięki temu można przeanalizować rzeczywiste odwzorowanie statycznej pracy obiektów. W artykule przedstawiono podstawowe założenia konstruowania superelementów QWSF oraz wyniki przeprowadzonych testów numerycznych. Przedstawiono możliwości wykorzystania opracowanej koncepcji modelowania w analizie problemów konstrukcji oraz głębokich fundamentów w układzie trójwymiarowym: podłoże-nowy budynek i ewentualnie zabudowa sąsiednia (na każdym etapie realizacji inwestycji, tzn. stosując analizę etapową statyki konstrukcji).

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The analysis of stress distribution in tempered structural glass with stress concentrators under tension and compression

Šaučiuvėnas Gintas, Gečys Tomas, Mudrov Andrej, Ustinovichius Leonas, Miedzialowski Czesław

Archives of Civil and Mechanical Engineering

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2020

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Vol. 20, no. 3

62--77

EN

The paper describes the results obtained from the tensile and compression experimental tests of the structural tempered glass plates with three different types of stress concentrators and without them. The types of stress concentrator have been chosen as close as possible to those usually found in practical situations and also taking into account the cases known from the literature. All tests are performed under the same conditions and with the step of loading 1.0 kN for tension and compression tests up to the limit of 8.0 kN. The stress gradients are measured with an optical device by birefringence. The research is aimed at determining the distribution and the values of stress gradients under tension and compression. The paper considers the problems of determining the stress values and their distribution in the glass plates with various stress concentrators, based on the results of non-destructive measuring, analytical calculations and the numerical simulation.