Abstract:In Russia, Building Information Modeling (BIM) is becoming a mandatory requirement for the construction of new buildings. There is a positive experience in the implementation and examination of projects with BIM. A number of Russian companies have already introduced and are actively using information design technologies in their activities. However, at the current moment, the use of BIM in Russia is at the start. This paper shows examples of the use of BIM and laser scanning in the development of scientific an… Show more
“…A novel approach to prioritizing the severity of physical defects is visual inspection using a multi-criteria decision analysis approach [13]. Methods of laser scanning and photogrammetry are also widely used [5,9]. There is a known method of complex chronological attribution of monuments of wooden architecture, including architectural and dendrochronological studies [24].…”
The preservation of cultural heritage sites is an important task. Historical monuments are a reflection and documentary evidence of the past, information about which must be preserved and passed on to future generations. One of the most vulnerable and fragile structures in a building is the roof. This work provides historical information and presents the results of a survey of the structures of the building of engineer Moberg in the urban-type settlement of Kalevala in the Republic of Karelia of the Russian Federation. The structural system of the roof and the joint work of its elements have been studied. The expediency of preserving the structural system, shape and geometric parameters of the roof, as well as replacing the existing structures before the reconstruction with new elements from modern sawn timber has been substantiated. The cultural heritage site “House of Engineer Moberg” is an architectural monument of regional significance of the early 20th century and the main historical building of the urban-type settlement of Kalevala, built under the influence of the ideas of Finnish national romanticism. According to archival sources, the house was built in 1906 and renovated in 1925-1926 with the participation of engineer Eduard Moberg and builder Tuomas Waller. Nowadays, the building houses the ethnocultural center kalevalatalo.
“…A novel approach to prioritizing the severity of physical defects is visual inspection using a multi-criteria decision analysis approach [13]. Methods of laser scanning and photogrammetry are also widely used [5,9]. There is a known method of complex chronological attribution of monuments of wooden architecture, including architectural and dendrochronological studies [24].…”
The preservation of cultural heritage sites is an important task. Historical monuments are a reflection and documentary evidence of the past, information about which must be preserved and passed on to future generations. One of the most vulnerable and fragile structures in a building is the roof. This work provides historical information and presents the results of a survey of the structures of the building of engineer Moberg in the urban-type settlement of Kalevala in the Republic of Karelia of the Russian Federation. The structural system of the roof and the joint work of its elements have been studied. The expediency of preserving the structural system, shape and geometric parameters of the roof, as well as replacing the existing structures before the reconstruction with new elements from modern sawn timber has been substantiated. The cultural heritage site “House of Engineer Moberg” is an architectural monument of regional significance of the early 20th century and the main historical building of the urban-type settlement of Kalevala, built under the influence of the ideas of Finnish national romanticism. According to archival sources, the house was built in 1906 and renovated in 1925-1926 with the participation of engineer Eduard Moberg and builder Tuomas Waller. Nowadays, the building houses the ethnocultural center kalevalatalo.
“…(1) Focus on the basic definition and model of BIM, describe the three-dimensional modeling process of BIM in detail, and provide technical support for the construction of intelligent bridge management and maintenance system model based on BIM technology [3]; (2) Further explain the two important functions of the model, namely, bridge management and bridge technical condition evaluation, and formulate the intelligent bridge management and maintenance system based on the results of the two functions.…”
In recent years, the bridge construction industry of China has developed rapidly. With the increase in bridge service lifetime, numerous damages and cracks have appeared that pose a direct threat to its structure and transportation safety. Therefore, a new approach to bridge management and maintenance is proposed using building information modeling (BIM) system. The objective of this paper is to monitor and manage bridge problems in real time. It will develop an intelligent bridge management and maintenance system model. This system will improve bridge management and maintenance and reduce the number of accidents on unsafe bridges. According to the data, the management and maintenance units can adopt scientific and reasonable methods to manage and restore bridges. This will ensure the safety and property of people. To improve the efficiency of bridge management and maintenance, a visible and accurate model is built with a combination of BIM technology. In this model, bridge damages are controlled and analyzed using BIM technology. The results show that the changes in the cracks and damage to the bridge within a year continue to rise from January to September and decrease from September to October. The crack of width and length continues to increase from October to December. As a case study, Tianyuan Bridge is selected to evaluate the technical condition of the bridge. The overall evaluation of the bridge result indicates a class II bridge.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.