Category: Санкт-Петербургский государственный архитектурно-строительный университет

Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

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The SPbGASU team with winning diplomas: Elena Ozerova, Alexandra Vavulova, Tatyana Zherebko, Polina Chiryaeva, Polina Roster

Teacher Tatyana Zherebko and students Polina Chiryaeva, Polina Roster, Alexandra Vavulova, and Elena Ozerova from the Department of Technosphere Safety participated in the Youth Day of the All-Russian Occupational Safety Week (VNOT-2025). This key event for future occupational safety specialists took place in Sochi on September 15.

The event provided a platform not only for gaining new knowledge but also for applying professional skills in practice. The team immersed themselves in the day's action-packed program, participating in a series of unique activities.

Our participants were particularly interested in the business game "GosLeague," in which they demonstrated their knowledge of civil service and personnel policy. The goal was to promote the civil service.

Our team's participation in the First Aid Championship competition was a highlight. In conditions simulating real-life emergencies, the students demonstrated impeccable knowledge of first aid procedures, coordinated teamwork, composure, and high professionalism. Following a tense competition with top teams from other universities, the SPbGASU representatives took a respectable third place.

This achievement is a clear result of the high-quality training provided to students in the Technosphere Safety program, where occupational safety and human health are paramount. Congratulations to our winners and their mentors on their well-deserved victory!

Please note: This information is raw content obtained directly from the source. It represents an accurate account of the source's assertions and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

The Department of Ground Transport and Technological Machines at SPbGASU conducts research into improving the design of municipal vehicles, in particular, snow removal equipment for city highways.

Today, the capacity of Russian roads is significantly reduced in winter: after heavy snowfalls, the passage of snowplows creates snow banks along the roads, taking up to half the highway lane. While these machines are quick to clear the roadway of snow, clearing the snowplows takes a long time.

At the same time, municipal companies lack standard snow removal equipment—snow blowers—for city highways. Front-end loaders, used additionally during heavy snowfalls, mitigate the problem, but they block at least two traffic lanes when loading snow onto vehicles. It's worth noting that front-end loaders are the most common type of specialized equipment used by road and construction companies, and they are rarely used for construction work in winter.

An obvious technical solution for improving snow removal from urban roads is to equip front-end loaders with a rear-dumping function. This allows the loader to load snow into a dump truck while remaining in the same lane.

Fig. 1 shows a diagram of the proposed design of a front loader with rear bucket discharge.

The loader consists of a base machine 1, a double-beam boom 2, the lower part of which is pivotally fixed in the front part of the base machine, a bucket 3, pivotally fixed on the upper part of the boom 2, a telescopic boom lifting hydraulic cylinder 4, pivotally fixed between the boom beams on the front part of the base machine frame, a bucket turning hydraulic cylinder 5, installed by means of a clamp 6 on a bracket 7, fixed on a crossbar connecting the boom beams in their upper part, a metal chute 8, installed above the cabin and the engine by means of a pair of two-legged stands 9, fixedly fixed on the sides of the front part of the frame 10, and two hydraulic cylinders 11, pivotally fixed on the sides of the middle part of the frame 10, a damping device 12, fixed on the front part of the frame 10 at a height from the road surface corresponding to the height of the bumper of the dump truck. 13.

The hydraulic cylinder 5 for turning the bucket 3 is pivotally secured in its middle part to the boom 2 by means of a clamp 6.

Chute 8 is pivotally attached to posts 9 and hydraulic cylinder rods 11. The right end of chute 8 extends beyond the base vehicle by one to one and a half meters, and its height should be at least half a meter higher than the top edge of dump truck 13 used for hauling snow, i.e., 3.2 m. Number 14 shows the trajectory of the boom end. Number 15 shows the shaft of snow being removed.

The proposed front loader operates as follows. Before collecting snow from windrow 15, located along the right edge of the roadway, loader 1 lowers bucket 3 to the lower position (shown by the dotted line) by retracting hydraulic cylinder 4. Dump truck 11 approaches the loader from the rear of chute 6. Chute 6 is lowered by retracting cylinder 9.

Bucket 3 is filled with snow by moving loader 1 to the left. Once full, the bucket is rotated clockwise using cylinder 5 until the open end of the bucket is horizontal. Boom 2 is then raised using cylinder 4 until bucket 3 is above the left edge of chute 8. While boom 2 is raised, the open end of the bucket is maintained in a horizontal position using cylinder 5. Once bucket 3 is above chute 8, it is rotated clockwise using cylinder 5 to discharge snow into the chute. While the bucket is being raised, the dump truck drives close to the loader until its rear bumper touches damper 12.

The bucket is then lowered to the snow collection position. One to two seconds after cylinder 4 is activated to lower the boom, cylinders 11 are activated to raise the left side of chute 8 to the top position (shown by the dotted line), ensuring that snow slides from chute 8 into the dump truck body 13. Once the loader begins moving to collect snow with the bucket, the chute is lowered.

The cycle of picking up and unloading snow is repeated three to five times until the body of the dump truck 13 is filled.

For the convenience of the dump truck driver, the damping device 12 can be equipped with sound and light signaling sensors.

Computer modeling has shown that the new loader's productivity is three times higher than that of a claw loader and one and a half times higher than that of a typical front-end loader.

An application for a utility model has been submitted for the design of the new loader.

The development was carried out as part of research projects by the research and teaching staff of SPbGASU using internal grants in 2025.

Please note: This information is raw content obtained directly from the source. It represents an accurate account of the source's assertions and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

Participants of the Art School of Architecture

From September 6 to 12, a summer school dedicated to the 105th anniversary of the birth of the legendary animator Leonid Shvartsman was held in Crimea at the Tavrida art cluster. The event brought together architects, production designers, graphic designers and representatives of youth councils from all over the country. Students and graduates of our university took an active part in the work of the Art School of Architecture.

The teams of participants had an ambitious task: not just to propose improvement options, but to conduct a deep conceptual rethinking of key territories – the art clusters “Tavrida”, “Mashuk”, “Senezh” and the village of Schastlivtsevo. The participants had to go beyond momentary solutions and develop truly bold, meaningful projects.

The participants from SPbGASU were Ekaterina Zlotnikova, Valeria Dmitrieva, Alena Donskova, Vyacheslav Sharunov, Aslan Osmanov, Ksenia Rudenko, Emilia Karaeva, Nikita Kasin and Maria Voronina.

As one of the participants, Alexandra Polyanskaya, noted, despite the initial request from the organizers for practical and targeted solutions, the creative process led to the creation of larger-scale and innovative projects.

"The initial request from the organizers was to focus on practical, targeted solutions – ones that could be implemented immediately or adapted for other regions. However, in the process of work, the ideas developed into more conceptual and futuristic formats. They went beyond the immediate implementation, but offered a truly fresh perspective," Alexandra shared.

Following the intensive work, all teams successfully presented their projects and received detailed feedback from experts. Participants agreed that the school format was more like a productive workshop, where innovative ideas for the future development of public spaces in Russia were born in an atmosphere of joint creativity.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

In the implementation of educational programs in the areas of training "Operation of transport and technological machines and complexes" and "Technology of transport processes", the resources of the interdepartmental laboratory No. 3 of the Educational base of SPbGASU "Krasnoe Selo" are actively used. The laboratory is a training car service, equipped with modern equipment for diagnostics, maintenance and repair of cars, which also includes a diagnostic line for technical inspection, organized taking into account the current accreditation requirements for such organizations. In addition, the laboratory includes an aggregate-mechanical section and a section for working with composite materials.

The interdepartmental laboratory hosts practical classes in the following disciplines: "Technology of technical maintenance and repair of motor vehicles", "Repair of motor vehicle bodies", "Diagnostics of electronic systems of motor vehicles", "Organization of control of technical condition and state registration of motor vehicles", etc.

The laboratory is involved in organizing introductory practice for students, in carrying out work within the framework of project activities, in conducting advanced training classes, in pre-professional training in the programs of motor transport classes for students of secondary comprehensive schools.

The quality of the educational, methodological and material equipment of the interdepartmental laboratory No. 3 is highly appreciated by representatives of employers participating as experts in the procedures of independent assessment of qualifications within the framework of a pilot project to combine the state final certification (SFC) and independent assessment of qualifications (IAQ).

The continuous development of the university's educational and laboratory facilities is the most important tool in achieving the goals of the educational policy of the SPbGASU Development Program for 2023–2032.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

Alexandra Polyanskaya

A graduate of the Faculty of Architecture, a student of the Faculty of Continuing Education of SPbGASU Alexandra Polyanskaya reached the final of the National Open Championship of Creative Competencies for specialists in the field of creative industries Art Masters and visited Sakhalin among the finalists. The program of the stay included meetings with the Governor and Minister of Architecture and Urban Development of the Sakhalin Region and the defense of competition projects.

Let us recall that the championship is held with the support of the Ministry of Science and Higher Education of the Russian Federation, the Ministry of Education of the Russian Federation, the Ministry of Culture of the Russian Federation and the Government of Moscow in order to identify talented young specialists and create opportunities for their professional growth.

The sixth season of the ArtMasters Championship was attended by 30 thousand participants from all regions of Russia and 51 countries. The prize fund for the current season was 36 million rubles. In the main age category, individual competitions were held in 20 competencies. Alexandra Polyanskaya participated in the "Architectural Environment Designer" category.

"The championship required us to design a public space. I proposed a design for a landmark (an architectural dominant) in the form of a frozen wave – a symbol of the meeting of the Sea of Japan and the Sea of Okhotsk. The object emphasizes the natural landscape, unites both competition territories, serves as a navigation point for tourists and is easily scalable for small architectural forms, while being designed for long-term use in the harsh climatic conditions of Sakhalin. And the form itself originates in one territory and continues in another, forming a kind of "Gateway to Two Seas," Alexandra explained.

The winners of the championship will be determined by the results of the audience vote. From September 10 to 20, you can vote for Alexandra Polyanskaya.

Visualization of the project by Alexandra Polyanskaya

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

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At the opening of the mural. Second from left is Sofia Andreeva, third from left is Sergey Lutchenko

Third-year student of the Faculty of Architecture Sofia Andreeva is the author of the mural “Dawn of Hope,” which was created on the facade of the boarding school “Red Dawns” in the Petrodvortsov district.

Let us recall that earlier the Council for Architecture and Urban Development of the Leningrad Region and the North-West of the Russian Federation, the companies "BaltInvest-Project" and "Kraski Friedlander" announced an architectural competition to develop a sketch of a mural for the boarding school "Krasnye Zori". The jury included the President of the Union of Architects of Russia Nikolay Shumakov and the first deputy chairman of the committee – the chief architect of the Leningrad Region Sergey Lutchenko. More than 80 applications from students from different universities were submitted to the competition. The work of Sofia Andreeva was recognized as the best and recommended for implementation.

"Sophia's sketch stood out, first of all, for the composition of the mural. It is made in the shape of a heart and thus does not repeat the rigid orthogonal grid of the pylons of the boarding school, as was the case in most of the works submitted to the competition. The winner carefully studied the history of the school and each element displayed in the mural – ears of corn, a river, domestic animals, conifers, mountains, the sun and so on in the drawing are not accidental. These elements have a hidden meaning and show the history of the life of this unique place and building. The colors used in the mural attract the gaze of a person entering the school and at the same time organically fit into the environment around the building," noted Sergey Lutchenko.

Sofia Andreeva admits that murals as a type of monumental painting attract with their scale and, unlike the construction of buildings, fast and direct interaction with space. The decision to take part in the competition was made spontaneously, and inspiration came while working on the plot.

"The plot arose from the idea to show the unity and work of the children who studied here at different times, which is very important for a boarding school. The mural used the symbols of the school itself, and the main emphasis was born from the name "Red Dawns". I was a second-year student and had no experience in creating such a work. But I have been doing design for a long time, since it is indirectly related to my future profession, so it was easier. While working on this project, I learned to work with a certain color palette, which was new to me. Murals are far from just a student activity. This is an experience of creativity and communication, which complements the understanding of space and environment, and therefore is useful in the profession of an architect. I will use this experience in the future, perhaps combining architecture with contemporary art in public spaces," said Sofia.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

Text: Alexander Dmitriev, Director of the Smart Labor testing ground, Assistant of the Department of Technosphere Safety

Photo: Alexander Dmitriev

11 Sept

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Students in a risk management technology class Classes have begun at the educational base of SPbGASU "Krasnoe Selo" and at the "Smart Labor" training ground in a majorly renovated educational building: the Department of Technosphere Safety is holding a series of seminars dedicated to the fire protection properties of materials and structures, the organization of labor protection in the construction industry and modern risk management technologies. The classrooms are equipped taking into account the needs of study groups of different sizes and the specifics of educational tasks.

On the eve of the new academic year, significant upgrades were also made to the Smart Labor training ground: new stands for a wide range of laboratory tests were installed at the innovative educational site, which will make the learning process in the main and additional educational programs in the field of technosphere safety and environmental management even more practice-oriented. In addition, comfortable places for rest between classes or during excursions have been equipped.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

Plenary session of the conference

On September 4, SPbGASU hosted a regional conference as part of the first stage of the All-Russian Housing and Utilities Forum "Urban Economy: Current Trends and Challenges". Its theme was the interaction of society and government bodies in the housing and utilities sector.

“In conditions where major changes are constantly taking place in the housing and utilities sector, it is very important not only to find new solutions for the government, but also to strengthen trust between the government and society in order to make our city even more comfortable and attractive for living and working,” noted Irina Sokolova, Chairperson of the Public Chamber of St. Petersburg.

The conference included a plenary session attended by Vice-Governor of St. Petersburg Evgeny Razumishkin, Chairman of the Commission on Urban Economy and Creation of a Comfortable Urban Environment of the Legislative Assembly of St. Petersburg Alexander Khodosok, and Chairman of the Housing Committee of St. Petersburg Denis Udod.

"This platform will allow us to talk about what we are doing today, what goals we have, what difficulties we are facing. I hope that this regional conference will also give us some guidelines that we can pay more attention to and conduct a dialogue," added Evgeny Razumishkin.

The discussion was moderated by Irina Sokolova, Deputy Chairman of the Public Chamber of St. Petersburg Georgy Abelev, Chairman of the Commission on Improvement, Housing and Utilities and Ecology of the Public Chamber Valery Soldunov, Deputy Chairman of the Commission on Improvement, Housing and Utilities and Ecology of the Public Chamber, Vice President of the National Research University Higher School of Economics in St. Petersburg Alexander Khodachek.

The plenary session discussed current tasks and challenges facing the housing and utilities sector of the Northern capital. The participants paid special attention to the introduction of innovations, digital services and neural networks into the housing and utilities system.

On behalf of SPbGASU, Veronika Asaul, Head of the Department of Construction Economics and Housing and Utilities, delivered a welcoming speech and also took part in the work of the section "Staffing of the Housing and Utilities System", speaking in detail about the training of personnel for the housing and utilities sector and the need for a systematic approach to the development of human resources for high-quality service to city residents. "In our work, we are guided by the Concept for the Development of Construction and Housing and Utilities until 2035, paying special attention to the training of qualified personnel at SPbGASU. Our activities contribute to the achievement of the strategic goals of the concept, including the modernization of infrastructure, improving the quality of services and the introduction of innovative technologies. Thus, we support the sustainable development of construction and the housing and utilities sector and the implementation of the key objectives of the concept," she noted.

The Public Chamber of St. Petersburg expressed gratitude to the rector of our university Evgeny Rybnov for supporting the event, to the dean of the faculty of continuous education Sergey Shirshchikov for assistance in its organization and noted the organizing committee of the conference – on the part of SPbGASU it included employees of the Department of Economics of Construction and Housing and Public Utilities Yuri Tsvetkov, Isa Magerramov and Timur Ablyazov – for their efforts and professionalism, which ensured successful work.

According to those present, the event became an important platform for exchanging experiences and discussing strategies for developing the housing and utilities sector. All participants expressed a sincere desire for close cooperation and joint resolution of existing problems, noting the importance of dialogue between the government and society.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

At the award ceremony. With diplomas (from left to right) – SPbGASU students Alina Ziben, Bogdan Lobanov and Aurika Andreeva. In the center – Ilya Mochalov

Fourth-year student of the Faculty of Architecture, future landscape architect Bogdan Lobanov began his next academic year with a significant professional success: he became the winner of the All-Russian competition for the scholarship of Ilya Mochalov, the founder of the architectural and landscape company "Ilya Mochalov and Partners". This company, together with the company TM "ALTRAIN" and the Moscow Association of Landscape Architects (ROO MOLA), established scholarships for final-year bachelor's students. Scholarships are awarded based on the results of the competition for projects in the field of landscape architecture that reflect concern for nature, emphasize its natural beauty and are distinguished by an innovative creative approach.

"I submitted a project for the development of the territory in the cities of Murino and Bugry in the Leningrad Region to the competition. This is a significant, large area with a number of pressing issues. Working with real problems is always more interesting and useful. After studying many applied disciplines in the third year, solving design problems has become much easier. In addition, I am working on this topic as part of my final qualifying work," Bogdan said.

Ilya Mochalov noted that he was pleasantly surprised by the works of young architects, especially Bogdan's landscape study. "Bogdan Lobanov turned an abandoned field of 175 hectares into a huge park – a kind of green dystopia, reimagined as a future garden city. His other concept – a post-industrial park on the ruins of factories, where flowering herbs coexist with massive metal structures – is reminiscent of the best examples of the transformation of industrial areas in Germany. It is important that Bogdan thinks big: in his motivation letter, he said that in ten years he sees himself as a person who will influence the quality of the urban environment at the legislative level. This energy and desire to change people's lives for the better make his work especially valuable and inspiring," he believes.

Bogdan is gradually moving towards his large-scale goals and admits that his main task now is to finish this semester and prepare a “powerful diploma” by the summer. Then he plans to enroll in a master's program, most likely choosing “something at the intersection of landscape and urban planning.” The student is confident that everything will work out, since the Department of Landscape Architecture of SPbGASU is taught by both practicing architects and biologists, dendrologists, and specialists in urban landscaping. That is why the department trains specialists who will be well versed in natural and environmental processes and take them into account when designing an urban environment. Bogdan's words are confirmed by practice: students Alina Ziben and Aurika Andreeva became finalists in the competition and received the opportunity to do an internship at the company “Ilya Mochalov and Partners”.

"Last year, our students also won this competition, and this gave me confidence in my own abilities. The jury of the competition emphasized that our department of landscape architecture is the strongest in the country. This is very nice to hear, and I agree with this," noted Bogdan Lobanov.

The head of the educational program in landscape architecture, Nadezhda Kerimova, noted that a large volume of biological disciplines, such as botany, soil science, dendrology, and, at the same time, a practice-oriented approach allow us to train unique specialists who combine knowledge and skills in both architectural design and plant and environmental design.

"Thanks to our highly qualified teachers-architects, students gain experience in designing real urban objects and territories, thanks to knowledge of biological disciplines they understand how to organically "return nature to the city". I can confidently say that our university has formed a unique program for training specialists in the direction of 35.03.10 Landscape architecture, where in four years they train landscape architects who in the future will be able to make a great contribution not only to the aesthetics and comfort of the environment, but also to the health of our cities," noted Nadezhda Aliyevna.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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Translation. Region: Russian Federal

Source: Saint Petersburg State University of Architecture and Civil Engineering –

An important disclaimer is at the bottom of this article.

Alexander Rudenko

Some buildings and structures in our country are in a limited-operability and even emergency condition after an explosive impact, as well as due to their high physical wear. Professor of the Department of Construction Organization of SPbGASU Alexander Rudenko proposed a new comprehensive approach to their restoration, ensuring high efficiency, safety, information content, remote assessment of the results of work at all stages of production. We talk to him about the essence and novelty of the approach.

– What exactly do you research in your scientific work?

– The topic of my research is “Organization of repair and restoration works of buildings after explosive impact based on an integrated approach using laser scanning, neural network and 4D modeling”. It is carried out within the framework of the grant of SPbGASU 20-NPR-25. The work contains an analytical review of the fundamental theoretical provisions of the physical processes of explosive impact on barriers. The existing approaches to predicting the degree of damage to buildings with the clarification of the mathematical calculation model are studied. The factors influencing the duration and quality of work on the restoration and repair of construction projects, as well as the possible nature of damage and categories of the technical condition of buildings after explosive impact are studied. An organizational and technological mechanism for the restoration and repair of construction projects is proposed.

The relevance and scientific and practical significance of the study are determined by the fact that a significant number of buildings in the Bryansk, Belgorod, Kursk, Rostov, Volgograd, Saratov regions and in new regions of Russia have been damaged by external explosive impact. In addition, capital construction projects on the balance sheet have a high degree of physical depreciation. Thus, according to Rosstat data for 2023, the depreciation of at least 257.4 million square meters of administrative, industrial and residential buildings exceeded 66 percent.

The organization of restoration and repair of buildings in these conditions requires a different – comprehensive approach that ensures high efficiency, information content, safety, remote access to the assessment of results at all stages of work and multi-channel access to results. This can be implemented on the basis of the stages of both the "planning-control" complex and a set of tools – laser scanning, neural network and 3D modeling, which to date has not been sufficiently studied and developed.

The research work identifies, groups and ranks the most significant factors affecting the duration and quality of restoration and repair. A regression analysis was performed and a mathematical model of the impact of factors on the efficiency of construction and installation works (C&I) was developed. Using neural network modeling tools, an algorithm for planning the production of C&I using the methods of critical works (CW), continuous use of resources (CURS) and continuous development of work fronts (CDW). Based on the above, proposals were developed for planning and monitoring the implementation of C&I using a set of laser scanning tools, neural network and 4D modeling.

– Is this precisely what makes your research novel?

– Based on the results of the research work, provisions of scientific and practical significance have been developed: firstly, the design and mathematical model for predictive assessment of the degree of damage and technical condition of a building has been adjusted taking into account the parameters of explosive impact; secondly, a regression and analytical model has been developed for taking into account the impact of significant factors on the duration and quality of restoration and repair; thirdly, an organizational and technological model for restoration and repair of construction projects has been developed based on the following tools: laser scanning, 4D and neural network modeling; fourthly, an aggregated "object-node" method for restoration and repair of construction projects has been developed based on optimal design and organizational and technological solutions with the calculation for each proposed solution of such basic spatial-technological and resource parameters as the number of work fronts and sections, flow capacity, production rate, labor intensity, labor costs, consumption of building materials, estimated cost of work; fifthly, a software and information complex for calendar planning and dynamic adjustment of repairs to construction projects has been developed in the integrated PyCharm environment of the Python programming language, which makes it possible to determine the duration of work using the methods of R&D, MKR, NOFR, as well as their organizational and technological reliability.

Thus, a comprehensive approach is proposed that allows interactive implementation of planning and control processes as a single system with the ability to dynamically adjust construction and monitoring work during their implementation. All of the above is the essence of the novelty of the study.

– In what main directions can the expected results of your research be used?

– In science, the obtained dependencies allow predicting the consequences of explosive impact and possible categories of technical condition of buildings depending on the expected power and type of shock-explosive impact on the building. The proposed aggregated approach, information and organizational-technological models of restoration and repair will allow modeling all production parameters and the nature of their dependencies. In real construction, the application of the research results will significantly increase the efficiency of planning and monitoring of construction and installation works using the methods of R&D, MKR, NOFR taking into account the risks during their implementation. In the educational process, the obtained results are appropriate to use in the study of disciplines considering the technical inspection of capital construction projects, technical operation of buildings and structures, organization, planning and management in the process of repair and restoration works.

Please note: This information is raw content obtained directly from the source of the information. It is an accurate report of what the source claims and does not necessarily reflect the position of MIL-OSI or its clients.

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