Relevant bibliographies by topics / Autodesk Revit

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Autodesk Revit'

Author: Grafiati
Published: 4 June 2021
Last updated: 14 June 2025

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Journal articles on the topic "Autodesk Revit"

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Wibowo, Ari, and Michella Beatrix. "EVALUASI QUANTITY TAKE OFF MENGGUNAKAN AUTODESK REVIT PADA PEKERJAAN STRUKTUR BAJA PROYEK PEMBANGUNAN GEDUNG KANTOR PT. TRI KANIGARA GROUP." Racic : Rab Construction Research 9, no. 1 (2024): 104–11. http://dx.doi.org/10.36341/racic.v9i1.4142.

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With the development of technology, the use of BIM (Building Information Modeling) software such as Autodesk Revit is becoming increasingly common in the construction industry. Quantity Take Off (QTO) in Autodesk Revit is the process of calculating and identifying the amount of construction materials needed for a project based on a 3D model created using the Autodesk Revit software. This study aims to evaluate the use of steel structural materials and the estimated price generated through Autodesk Revit. In the QTO calculation using Autodesk Revit, the results are the volume of WF column work of 18,117.54 kg, the volume of WF beam work of 16,084.15 kg, and the volume of nut bolt work reaching 1,894 pieces. Furthermore, the estimated cost of work is also generated by Autodesk Revit, with the cost of WF column work of Rp. 389,527,110,-, the cost of WF beam work of Rp. 345,809,225,-, and the cost of nut bolt work of Rp. 52,085,000,-. This evaluation aims to identify the accuracy and efficiency of QTO calculations using Autodesk Revit.
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Muhamad Alimin, Imron Imron, and Muhammad Taulani. "Penerapan Bulding Information Modelling (BIM) Autodesk Revit dalam Pembuatan Bar Bending Schedule (BBS) Pondasi Pile Cap Proyek Apartemen Jkt Living Star - Jakarta Timur." JURAL RISET RUMPUN ILMU TEKNIK 2, no. 2 (2023): 21–32. http://dx.doi.org/10.55606/jurritek.v2i2.1599.

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Bar bending schedule is a systeem of bending patterns of reinforcement that includes data on diameter, shape, length and number of reinforcement. The purpose of this study is to obtain images of bar bending schedule documents, pile cap foundation iron volumes and find out whether Autodesk Revit software is more efficient and effective than conventional methods. This research uses quantitative methods and the manufacturing process uses the concept of Building Information Modeling (BIM) with autodesk revit software. The results showed that the use of Autodesk Revit software makes it more effective, especially in making bar bending schedule documents, because everything is made automatically. The volume of pile cap iron produced by Autodesk Revit software is 46,878 kg has a difference with the existing (conventional) volume. The volume result of autodesk revit software is less with a difference of 1.29%. This shows that Autodesk Revit software is more efficient in terms of calculating the volume of concrete iron.
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Laorent, Danny, Paulus Nugraha, and Januar Budiman. "ANALISA QUANTITY TAKE-OFF DENGAN MENGGUNAKAN AUTODESK REVIT." Dimensi Utama Teknik Sipil 6, no. 1 (2019): 1–8. http://dx.doi.org/10.9744/duts.6.1.1-8.

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Quantity Take-Off merupakan salah satu upaya dari kontraktor dengan melakukan perhitungan volume, yang nantinya akan digunakan sebagai bahan untuk menyusun BQ dalam tender dan nantinya juga dijadikan bahan untuk melakukan procurement. Oleh sebab kontraktor yang dapat melakukan quantity take-off dengan akurat akan mendapatkan beberapa keuntungan seperti pengefisiensian material yang datang karena sesuai dengan aktual. Autodesk Revit merupakan sebuah tools atau aplikasi yang berbasis Building Information Modeling (BIM) yang mampu melakukan quantity take-off. Dalam penelitian ini akan dibahas bagaimana kelebihan dan kelemahan dari Autodek Revit dalam melakukan quantity take-off pada volume beton, bila dibandingkan dengan metode yang selama ini dipakai, yaitu menghitung volume dengan menggunakan gambar dari Autocad dan dengan bantuan Microsoft Excel. Hasil dari penelitian ini menunjukkan bahwa Autodesk Revit dapat melakukan quantity take-off dengan baik dan memiliki beberapa kelebihan seperti, memiliki efisiensi terhadap waktu karena dapat menghitung volume dengan lebih cepat dibandingkan dengan metode sebelumnya, apalagi bila terdapat perubahan desain. Akan tetapi dalam membuat permodelan pada Revit membutuhkan waktu yang cukup lama dan harus teliti agar memperoleh hasil yang akurat. 
 
 Quantity Take-Off is one of the efforts of contractors to make calculations volume, which will be used as the object for making Bill of Quantity in the tender and will also be made to make procurement. Therefore contractors who can do quantity take-off accurately will get some advantages such as efficiency material that came as it was in accordance with the actual. Autodesk Revit is a tools or application based on Building Information Modeling (BIM) which is capable of performing quantity take-off. In this research will be discussed how advantages and deficiency of Autodek Revit in quantity take-off to calculate concrete volume, when compared with the method that have been used, it is calculating volume using image from Autocad and help with Microsoft Excel. Result of this research showed that Autodesk Revit can do quantity take-off with good and has a number of advantages such as, have efficiency to the time because they can calculate volume with more rapidly than method before, especially if there is a redesign. But in making modeling in Revit takes a lot of time for a long time to have a careful and is to be accurate results.
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Yuvita, Rizky Lucky, and Agung Budiwirawan. "Analysis of the Advantages and Disadvantages of Using Autodesk Revit for the Dean Building of the Faculty of Education, Universitas Negeri Semarang." Jurnal Teknik Sipil dan Perencanaan 24, no. 2 (2022): 91–98. http://dx.doi.org/10.15294/jtsp.v24i2.36613.

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Abstract. Building Information Modeling (BIM) as a supporting software of the fourth phase of the industrial revolution in Indonesia in the construction sector is a digital technology mode to increase the efficiency and accuracy of construction work to avoid mistakes during the planning to the implementation period. This study uses the Autodesk Revit application to provide the output of working drawings, 3D modeling, and calculate the volume and cost of work carried out in the Dean building of the Faculty of Education, Universitas Negeri Semarang. The purpose of this study is to determine the advantages and disadvantages of using Autodesk Revit for planning the Dean building of the Faculty of Education, Universitas Negeri Semarang. The results of this study are the advantages of using Autodesk Revit for building modeling, including providing convenience with design integration in one application, and avoiding crashes between designs. Autodesk Revit also has weaknesses, such as the need for high hardware specifications on the device, high license prices, the application it is necessary to create a new material family according to the design and size required, Autodesk Revit cannot calculate the preparatory work because the calculation of the volume and cost of Autodesk Revit work is limited to data input.
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Zolotova, Julia, Nikolai Vatin, Eugenia Tuchkevich, and Alexandr Rechinsky. "Autodesk Revit - Key to Successful Training of Highly Qualified Civil Engineers." Applied Mechanics and Materials 725-726 (January 2015): 1617–25. http://dx.doi.org/10.4028/www.scientific.net/amm.725-726.1617.

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Nowdays step by step all companies are moving to BIM technology. It forms one of the main demands of the labour market, influencing the principles of specialist`s preparation in the construction industry higher education institutions. Knowledge of the latest BIM systems is the main. The leader among programs in field of industrial and civil construction is Autodesk Revit. The aim of this work is an overview of Autodesk Revit and evidence of the importance of Autodesk Revit in the training of professionals in the building industry on the example of students` works.
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Khasanah, Lusivatul, and Ibnusina Wirakusuma. "Design of Beam Based On BIM Method Using Autodesk Revit and Autodesk RSAP." EXTRAPOLASI 19, no. 02 (2022): 134–48. http://dx.doi.org/10.30996/ep.v19i02.7884.

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Dengan berkembangnya industri Architecture, Engineering and Construction (AEC) banyak sofware yang dikembangkan untuk memenuhi kebutuhan industri konstruksi dengan tujuan untuk meminimalisir human eror dikarenakan pengolahan data secara konvensional. Revit dan Robot Structural Analysis Profesional adalah sebuah software penunjang metode BIM yang diterbitkan oleh Autodesk dan saling terintegrasi satu sama lain. Autodesk Revit merupakan software yang digunakan untuk desain 3D, perencanaan scheduling dan perencanaan anggaran biaya, sedangkan Robot Structural Analysis Profesional merupakan software yang digunakan untuk analisis struktur. Tujuan dari penelitian ini adalah untuk mengetahui bagaimana penerapan metode BIM dalam perencanaan sebuah gedung dan menggali keuntungan apa saja yang dapat diperoleh dalam penerapan BIM. Metode dalam penelitian ini dilakukan dengan merencanakan ulang salah satu gedung fasilitas pendidikan yang ada di Kota Surabaya menggunakan Autodesk Revit dan Autodesk Robot Structural Analysys Profesional. Penelitian ini menghasilkan desain optimum elemen balok serta perbandingan terhadap metode BIM dan metode konvensional. Dari hasil analisis dan pembahasan dapat disimpulkan bahwa penggunaan software penunjang metode BIM lebih efisien daripada konvensional, BIM memfasilitasi proses desain dan konstruksi terintegrasi untuk mencapai hasil yang lebih baik. Namun, penggunaan metode BIM perlu dilakukan pengecekan ulang terhadap SNI dalam mendesain sebuah bangunan.
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Herzanita, Ayu, and Refina Putri Anggraini. "PERBANDINGAN ESTIMASI BIAYA STRUKTUR BANGUNAN ANTARA SOFTWARE AUTODESK REVIT DENGAN CUBICOST." Construction and Material Journal 5, no. 1 (2023): 1–11. http://dx.doi.org/10.32722/cmj.v5i1.4620.

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Building Information Modeling (BIM) software commonly used in Indonesia to calculate cost estimates includes Autodesk Revit and Cubicost. Previous studies have shown significant differences comparing the estimated cost of structural work in Autodesk Revit with conventional methods. Further study is needed to compare Autodesk Revit with Cubicost in the same project, with the purpose of knowing the difference in the estimated cost of structural work. The object of this study was the Urban Homes Residential Apartment construction project by reviewing the upper structure. The chosen research strategy was in accordance with the case study objectives. The process begins with the preparating of the WBS (Work Breakdown Structure), designing the BIM 3D, calculating the estimated structural work cost resulting from quantity takeoff using work unit price analysis, and analyzing the estimated cost comparison between Cubicost and Revit BIM software. Based on the analysis results, the estimated cost of building structures using Cubicost is Rp 80,485,995,692, - and has differences of ±13.1% compared to using Revit.
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Soetjipto, Jojok Widodo, Ilham Kahfi Zarkasi, and Anita Trisiana. "Model of Building Maintenance Planning Using The Building Information Modeling (BIM)." Jurnal Permukiman 18, no. 1 (2023): 1–15. http://dx.doi.org/10.31815/jp.2023.18.1-15.

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Building maintenance is essential for the operation of the building to maintain the reliability and performance of the building to match its economic age. There are many buildings whose maintenance is inferior from a technical, administrative, and budgetary perspective, so an appropriate maintenance design model is needed according to the operational needs of the building. On the other hand, the development of digital information technology is getting faster and more widely used. One is Building Information Modeling (BIM), where the entire activity process works in collaboration and integration. Therefore, this study aims to develop a proper building maintenance design model using BIM. The method used is to apply building maintenance standards in Indonesia (Public Works Ministrial Regulation No 24/PRT/M/2008) in BIM supporting applications, namely Autodesk Revit (for visualizing 3D buildings) and Autodesk BIM 360 Ops (for maintenance management), as a case study using the Maintenance Management Design of Walini Station which is one of the Jakarta-Bandung fast train stations with very modern, complex and complicated building components. The maintenance design model is carried out through the following stages: (i) building modeling using Autodesk Revit based on shop drawings in 3D and can be applied to 4D and 5D needs; (ii) export Autodesk Revit results to the Autodesk BIM 360 Ops application because this application can store a database of all building operations; and (iii) conducting a maintenance design simulation using the Autodesk BIM 360 Ops application. The study results show that BIM technology can be used as a detailed, accurate, effective, efficient, and integrated maintenance design model. Keywords: Building Maintenance, Building Information Modeling (BIM), Autodesk Revit, Autodesk BIM 360 Ops, building maintenance model
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Solicha, Amelia Ayu, Dyah Lidyaningtias, and Wahiddin Wahiddin. "APLIKASI BIM PADA PEMBANGUNAN PROYEK JEMBATAN UMBUL KAJI KABUPATEN MALANG." Jurnal JOS-MRK 2, no. 3 (2021): 304–9. http://dx.doi.org/10.55404/jos-mrk.2021.02.03.304-309.

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Technological progress is one of the challenges in the field of civil engineering. BIM (Building Information Modeling) is one example of technological advances that can be used for the implementation of construction projects. The BIM applications used are Infraworks Autodesk, Naviswork Autodesk and Revit Autodesk applications. The application of BIM is centered on the construction of the Umbul Kaji bridge project, Malang Regency. The use of the Infraworks Autodesk application is intended to facilitate the placement of facility buildings by directly placing buildings according to topographic conditions. Furthermore, the Naviswork Autodesk application is used to visualize the scheduling progress according to the plan. Then the Revit Autodesk application is used for 3D modeling to get the construction volume, reinforcement volume and construction project implementation price. Based on the results of planning and calculations, the organizational structure used is a functional organizational structure. Site layout is based on Travelling Distance (TD) and Safety Index (SI), so an alternative 3 placement is chosen with a TD value of 100131 and an SI of 730. The bridge implementation method for erection girder uses the launching gantry method. In the preparation of the schedule with the help of Microsoft Project and Naviswork Autodesk, the project implementation time was 230 days. And with the help of Revit Autodesk, the cost of implementing the Umbul Kaji Bridge project is Rp. 46.591.603.677,-.
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Bolotin, S. A., Kh V. ,. Biche-ool, and A.-K. Kh Dadar. "Scheduling Visualization Methodology in Autodesk Revit 2018." Вестник гражданских инженеров 16, no. 6 (2019): 179–85. http://dx.doi.org/10.23968/1999-5571-2019-16-6-179-185.

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Dissertations / Theses on the topic "Autodesk Revit"

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Nordström, Mikael. "Undersökning av samarbetsverktyget Copy/Monitor och koordinater i Autodesk Revit." Thesis, Umeå universitet, Institutionen för tillämpad fysik och elektronik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-137551.

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Building information modeling (BIM) is widely used in the construction industry today, and is fast becoming the standard for developers planning building projects. Industry leaders in the engineering and architecture business usually have well thought out and efficient ways of working within this field, but with ever increasing competition these companies are forced to continually find ways of streamlining their practices to stay ahead of the competition. There are often several different companies involved across multiple disciplines when it comes to the modeling of a building, and the different BIM tools available offer many ways for them to coordinate.   The purpose of this study is to examine whether one of the collaboration tools available in Autodesk Revit called Copy/Monitor could help to streamline the modeling process. The tests done of the collaboration tool were applied to a three-dimensional model of a building. Through practical use of the different functions, and compiled theoretical knowledge, the study shows that there are advantages of using this tool when planning multi-disciplined projects in Revit. The possibility of monitoring changes of elements when linking models is a powerful function and could prevent time consuming reworking later on in the project. It is of great importance however to note how the models are constructed, what type of project it is, as well as personal preferences when it comes to how the workflow should operate and what elements should be monitored.   Another purpose of the study was to give an explanation of coordinates in the software. Through theoretical compilation and practical tests the study shows that handling of coordinates when linking models works as the theory suggests. It is worth noting however that problems may arise in later stages of the project if the users that originally created the models are unaware of what the software’s different settings mean. There must be strict guidelines for how the coordinates should be handled from the start of the project, to avoid errors down the line that may be hard to identify and correct.<br>BIM-projektering är i dagsläget inget främmande inom byggbranschen utan används i de flesta byggnadsprojekt och är ofta ett krav från beställare. De främsta aktörerna inom teknik och arkitektur har vanligen inarbetade och väl beprövade arbetssätt inom detta område. Men eftersom konkurrensen i branschen ökar, och dessa företag har för intention att fortsatt ligga i framkant söker de alltid efter sätt att effektivisera deras arbete. Vid projektering av byggnader är det vanligt att flera olika aktörer är inblandade i multidisciplinära projekt. Det finns många BIM-verktyg på marknaden idag, och funktionerna för samverkan och koordination inom dessa är många. Denna studie ämnar utreda huruvida ett av de samarbetsverktygen som finns i Autodesk Revit kallat Copy/Monitor skulle kunna effektivisera arbetet med projekteringen. De tester som har gjorts av samarbetsverktygets funktioner tillämpades på en tredimensionell modell av en byggnad. Genom praktiska försök av funktionerna och sammanställd teoretisk kunskap visar studien att det finns fördelar med att använda detta verktyg i multidisciplinära projekt i Revit. Möjligheten att övervaka ändringar av element vid länkning av modeller är en kraftfull funktion som kan förhindra tidskrävande omarbetningar längre fram i projekt. Det har emellertid stor betydelse hur modellerna är uppbyggda, vilken typ av projekt det är, samt personliga preferenser när det kommer till hur arbetsgången ska se ut och vilka element som bör övervakas. Studiens syfte var även att ge en beskrivning av koordinater i programvaran. Genom litteraturstudier och egna praktiska försök visar studien att koordinathantering vid länkning av modeller fungerar som teorin beskriver. Det kan däremot uppstå problem längre fram i projekt om de användare som ursprungligen skapar modeller inte vet vad programvarans olika inställningar innebär. Det måste finnas tydliga riktlinjer för hur koordinater ska hanteras redan i början av projekt för att fungera felfritt i ett senare skede, annars kan dessa problem vara svåra att spåra.
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Johansson, Michael. "Hantering av IFC-exporter från Revit till IDA." Thesis, Högskolan i Borås, Akademin för textil, teknik och ekonomi, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-12815.

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Att kunna exportera färdiga modeller direkt från Revit till IDA är av stor betydelse för att kunna jobba effektivt med energisimuleringar. Denna rapport ger en bakgrundsbeskrivning till hur IFC har uppkommit och är uppbyggt. Dock ligger huvudfokus på hur Revit kan implementeras i arbetsflödet, där både hur IFC-filer överförs mellan programmen och felsökning av problem med befintliga Revitmodeller beskrivs. IFC-filer är dagens standard för att överföra data mellan olika instanser under byggprocessen, det är ett programoberoende format som möjliggör samarbete mellan olika programvaror. Dagens standard är IFC4, men det vanligaste formatet idag är IFC2x3 då det nya formatet ännu inte har implementerats i alla programvaror. Vilken geometri och information som ska exporteras från Revit till IDA är ett omfattande arbete att ta reda på och ställa in. Därför innehåller denna rapport både en lathund för exportering, men även flera filer för automatisk inladdning av korrekta exporteringsinställningar i Revit. För att kunna genomföra en energisimulering krävs det att rummen är förslutna för att undvika extrema köldbryggor som kan uppstå om väggarna inte är ordentligt anslutna med taket och golvet. Därför finns flera åtgärder beskrivna för att undvika fel i simuleringen, bland annat kring problem med fönster, dörrar och problem med lagerhantering. Beskrivningen utgår ifrån att användaren inte har tidigare erfarenhet av Revit. Guiderna har testats på en gymnasieklass i ämnet CAD där resultatet visade att en stor del av lathunden kan användas av en nybörjare. Dessutom studeras skillnader i Revits verktyg för simulering mot IDA. Där samma modell simulerades på åtta olika platser och standardavvikelsen mellan resultatet beräknades, detta gav ett koefficientintervall på ± 4 %, dvs. att en simulering i IDA inte bör avvika med mer än ± 4 % i jämförelse med den som gjordes i Revit. Liknande resultat uppmättes när simuleringsskillnader i dörrar och fönster simulerades. Där en stor glasyta på en vägg kommer generera ett koefficientintervall på 3 %. Om fönstren ersätts av dörrar kommer avvikelsen att minska något till strax under 2 % sett till alla väderstreck.<br>It is extremely important to be able to export models directly from Revit to IDA for the energy simulations to be efficient. This report has a background description about how the IFC-format has been developed and how it is structured. However, the focus in the report is on how Revit can be implanted in the workflow, where both export and troubleshooting from Revit are described. IFC is the standard today to export data between various parts during the construction process and it is a format that is program independent, which means that it works across different applications. The current version of IFC is IFC4, but IFC2x3 is still the most used version since not every program has support for the new IFC4 format. It is extensive to figure out which data IDA requires for energy simulations, therefore this report contains both a tutorial for export settings and a file for automatic set correct export settings in Revit. To succeed with the energy simulations a requirement is that the space in the building is enclosed with walls, floor and roof, otherwise extreme thermal bridges will cause incorrect simulations. Therefore, there are several workarounds described in this report to correct these problems, including problems with windows, doors and problems with storage facilities . The description in this report is written with the assumption that the user do not have any experience with Revit. The guides were tested on a class of high school students that are studying the course CADCAD02. The result showed that when a problem occurs with a model it can easily be solved with the support from this report. Further differences between simulations in Revit and IDA were tested. The same model was simulated in eight different places and the standard deviation was calculated, this gave the coefficient range ±4 %, i.e. a simulation in IDA should not differ more than 4 % from the simulation in Revit. Similar results were found with the simulations of windows and doors, even though the difference was slightly lower.
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Eskelius, Linda, and Malin Hedén. "BIM Workflow Methods : Interaction issues between Autodesk Revit and Tekla Structures." Thesis, KTH, Byggteknik och design, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-191348.

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Persäter, Jens, and Amanda Vinka. "Anpassning av BIM-metodik för bättre mängdavtagning." Thesis, Uppsala universitet, Byggteknik, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-228114.

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Byggnadsinformationsmodellering (BIM) är det informationshanteringssystem som de flesta konsultföretag och beställare strävar att implementera. Många har redan tillämpat BIM-metodiken som en del av byggprocessen. Eftersom tekniken går framåt tvingar detta också individen att utvecklas. Svårigheter uppstår när tekniken går framåt utan att den implementeras på rätt sätt av branschen. Problem finns i överföringen av information mellan olika parter. Ett av dessa problem är vid mängdavtagningar och kalkyler. Ett företag som ligger i framkant i utvecklingen och gärna vill effektivisera processen är Sweco Architects i Uppsala. De vill med hjälp av detta examensarbete undersöka beställarens krav och önskemål gällande kalkylering och mängdavtagning. Examensarbetets syfte är att med hjälp av en intervjustudie visa vad beställaren tycker behöver förändras och förbättras inom kalkylering och mängavtagningar från projektören. Målet med arbetet blir att med hjälp av intervjustudien ta fram en metodik till projektören som följer beställarens kravställning. Metodiken riktas in mot programvaran Autodesk Revit. Slutsatsen av arbetet är att en tydligare dialog mellan beställare och projektör behövs för att kunna förbättra mängdavtagningarna, men även en bättre arbetsmetodik för litterering. För att säkerställa detta bör en branschstandard upprättas men tills dess måste kravställningen bli tydligare.
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Ferraresi, Nicola. "L'utilizzo del BIM nel recupero delle costruzioni esistenti. Una sperimentazione con Robot® nell'ambito di interventi di miglioramento delle prestazioni strutturali." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018. http://amslaurea.unibo.it/17214/.

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L’elaborato di tesi verte nello studio dell’applicazione della modellazione BIM in costruzioni esistenti. Sono stati presi in considerazione diversi casi di studio: dallo lo studentato di Atene, sviluppato nell’ambito del progetto H2020 Pro-GET-onE, agli edifici posti al “Villaggio Costanzo Ciano” ed al quartiere “Pilastro” di Bologna. Attraverso i software BIM di Autodesk, Revit e Robot Structural Analysis è stato creato dapprima un modello “prototipo” aventi caratteristiche comuni con gli edifici popolari nati nel secondo dopoguerra e successivamente adattato ai casi di studio. Si andrà quindi a valutare come, grazie al vantaggio dell’utilizzo del processo BIM, si sia in grado di effettuare valutazioni di prestazioni e miglioramenti sismici in breve tempo. Il fine lo possiamo quindi ricondurre nel riconoscere le criticità dell’applicazione della modellazione BIM su costruzioni esistenti.
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Issa, Mona, and Taha Rawand Nabaz. "Effektivisering av förvaltningsskedet med hjälp av flerdimensionella BIM-modeller : En studie om BIM 360 Ops." Thesis, KTH, Byggteknik och design, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-259980.

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Den tekniska utvecklingen går fort fram. Tillämpandet av BIM (Byggnadsinformationsmodellering) blir allt vanligare inom byggsektorn. Dock halkar förvaltningen efter i utvecklingen, i jämförelse med byggprocessens tidiga skeden, projektering- och produktionsskedet. BIM i förvaltningen är väldigt omtalad men ännu har det inte implementerats i stor utsträckning. Detta arbete handlar om att undersöka huruvida digitaliserat förvaltningen är idag samt om mjukvaran BIM 360 Ops kan vara ett effektivare alternativ. BIM 360 Ops är en mjukvara skapad av Autodesk som riktar sig in på förvaltning. Genom intervjuer med Diagona AB, Fabege, HSB, Uppsala Kommuns fastighetsaktiebolag (UKFAB), Akademiska Hus, Locum, Stockholmshem samt FastPartner, får man en inblick i hur dessa företag går tillväga i dagsläget, vilka kunskaper det finns kring BIM hos förvaltare samt vad som saknas i förvaltningen. Här analyseras programvaror som respondenterna använder sig av, för att få en större uppfattning kring arbetsgången i förvaltningen. Ett detaljerat tillvägagångssätt av mjukvaran BIM 360 Ops demonstreras för att visa hur programvaran fungerar och för att upptäcka eventuella svårigheter, fördelar samt nackdelar med programmet. Resultatet visar att ingen av de intervjuade utnyttjar BIM i förvaltningen. Företagen strävar efter att digitalisera förvaltningen, men ännu inte åstadkommit det fullständigt. Intresset för BIM i förvaltningen finns, dock har många förvaltare brist på kunskap om byggnadsinformationsmodellering. Denna studie uppmärksammar digitalisering av förvaltningsskedet och genomgår undersökning kring programvaran BIM 360 Ops som frambringar BIM i förvaltningen.<br>The technological development is progressing rapidly. The application of BIM (Building Information Modeling) is becoming increasingly common in the construction sector. However, the property management slips behind in the development, in comparison with the early stages of the construction process, the design and production phase. BIM in the property management stage is frequently spoken about but BIM has not yet been implemented to a greater extent. This study aims to examine how digitalized property management is at present times and if the software BIM 360 Ops can be a more efficient alternative. BIM 360 Ops is a software created by Autodesk that targets the property management stage. Through interviews with Diagona AB, Fabege, HSB, Uppsala Kommuns fastighetsaktiebolag (UKFAB), Akademiska Hus, Locum, Stockholmshem and FastPartner, an insight on how these companies are proceeding at present times, which knowledge managers have about BIM and what is lacking in the management stage is brought forward. The software which the respondents use is analyzed in order to gain a greater understanding of different workflow used in the management stage. A detailed approach of the BIM 360 Ops software is demonstrated to show how the software works and to detect any difficulties, advantages and disadvantages of the software. The result shows that none of the interviewees use BIM in the management stage. The companies strive to digitalize the management stage, but has not yet fully accomplished it. There is interest in BIM in the management stage, however, many managers lack knowledge of Building Information Modeling. This study draws attention to the digitalization of the property management stage and presents a thorough study on the BIM 360 Ops software which brings forth BIM in the management stage.
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Гримак, Роман Русланович. "Метод пониження розмірностей векторного простору для принйняття контрольованих критични-безпекових рішень". Магістерська робота, Хмельницький національний університет, 2021. http://elar.khnu.km.ua/jspui/handle/123456789/10869.

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Розробка методу пониження розмірностей векторного простору для системи автоматизованого проектування Autodesk Revit, яка дозволить користувачам платформи архітектурної візуалізації використовувати функції перегляду, опрацювання, математичного перетворення та серіалізації над елементами будівельних 3D моделей
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Olsson, Johan. "Utvärdering av energiberäkningsprogram : Att användas i tidigt planeringsstadium för byggnader." Thesis, Uppsala universitet, Byggteknik, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-213967.

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The regulations for energy consumption are consistently getting more and morestrict. This leads to a higher customer demand for energy analysis early in the buildingdesign process. Many building planners and architects use powerful modeling softwareto visualize their projects. These digital models contain sufficient information aboutthe building’s physical characteristics for reliable energy analysis. This report evaluatesthree different energy analysis software tools and their compatibility with themodeling software Autodesk Revit Architecture. The results in the report are basedon simulations made with a fictional model in the different tools. Some of the resultsobtained from the different programs are not consistent and because of the difficultiesin evaluating these differences the usefulness is limited. Based on several criteria thesoftware have been evaluated and a recommendation for the company Tema has beenproduced. Due to the complexity of energy analysis, the software requires certainpre-knowledge of the subject by the user to perform an accurate analysis. Inconclusion, the software which is best suited for preliminary energy analysis is,according to the author, VIP-Energy because of its efficiency and credibility.
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Queiróz, Gabriel Ramos de. "ANÁLISE DA INTEROPERABILIDADE ENTRE OS PROGRAMAS COMPUTACIONAIS AUTODESK REVIT E ENERGYPLUS PARA A SIMULAÇÃO TÉRMICA DE EDIFICAÇÕES." Universidade Federal de Santa Maria, 2016. http://repositorio.ufsm.br/handle/1/7939.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior<br>The Autodesk Revit software has been increasingly used in architecture due to the advantages brought about by the incorporation of BIM technology, which combines all the information representing a real building into a single virtual model. However, its capabilities have not yet been fully explored, such as in building simulations, for which Revit lacks detailed thermal analytical features. Thus, this study aims to examine the reliability of the interoperability between Autodesk Revit 2016 and EnergyPlus 8.4.0 by using Revit models for thermal simulations in EnergyPlus, one of the most commonly used tools for this purpose. The methodology consists of case studies targeting building models based on Case 600, from ASHRAE Standard 140, and Casa Eficiente Project, located in the city of Florianópolis, Brazil. The digital models of both buildings were produced in Revit with different modelling processes (conceptual mass or building elements with rooms or spaces) and software settings. All of these BIM models were exported in IFC, gbXML and IDF file formats and later converted through the use of additional tools in order to be opened in EnergyPlus. Such files were compared with the reference model of each building produced directly in EnergyPlus, using SketchUp containing the plug-in Legacy OpenStudio, in order to check for any distortions occurring in the process of data transfer when performing model exports and conversions. This comparison was based on parameters defined for geometry, simulation settings (materials thermal properties, building use and occupation etc.) and simulation results containing outputs of monthly internal temperatures for the thermal zones of each model. The results showed variations and similarities among the different types of modelling, export processes, and file formats used, revealing that distortions in data transfer become larger the more complex the building model is. This study points out conceptual mass models from gbXML files regardless of the export mode out of Revit as a viable alternative to be used in conjunction with EnergyPlus, as they preserve the geometrical accuracy of the building, even as some Revit default settings may be transferred over, thus failing to reflect some of the aspects of the real built environment. However, it was found that Revit models in general are not recommended for these types of exports due to the resulting rework needed for correcting files. It was concluded that the interoperability between Autodesk Revit and EnergyPlus is not perfect, as their combined use allows for data transfers that make possible the thermal simulation of buildings, however, in this exchange there are distortions in the exported geometries and lack of the necessary data for correct simulation in all exported models.<br>O programa computacional Autodesk Revit tem seu uso crescente na prática de projetos de arquitetura devido às vantagens pela incorporação da tecnologia BIM, a qual reúne todas as informações que representam uma edificação real em um único modelo virtual. Contudo suas capacidades ainda não são totalmente exploradas, inclusive no âmbito de simulação computacional de edificações no qual o programa carece de ferramentas para análises térmicas detalhadas do ambiente construído. Portanto, este estudo objetivou analisar o grau de confiabilidade da interoperabilidade entre os programas Autodesk Revit 2016 e EnergyPlus 8.4.0, para verificar o uso de modelos digitais de edificações criados no Revit em simulações térmicas realizadas na ferramenta EnergyPlus, uma das mais difundidas para este fim. A metodologia consistiu em estudos de caso com modelos de edificações baseados no Case 600, da norma ASHRAE Standard 140, e no Projeto Casa Eficiente, localizado em Florianópolis. Os modelos digitais de ambas as edificações foram produzidos no Revit com diferentes processos de modelagem (massas conceituais ou elementos de construção com ambientes ou espaços inseridos) e configurações do programa. Todos estes modelos BIM foram exportados nos formatos de arquivo IFC, gbXML e IDF e posteriormente convertidos para a extensão suportada pelo EnergyPlus, com o auxílio de ferramentas adicionais, para serem abertos no programa. Tais arquivos foram comparados com o modelo de referência de cada edificação produzido diretamente no EnergyPlus, por meio do programa SketchUp com o plug-in Legacy OpenStudio, para verificar as distorções na transferência das informações quando foi realizada a exportação e conversão dos modelos. Esta comparação foi feita com base em parâmetros definidos para as geometrias, configurações de simulação (propriedades térmicas dos materiais, padrões de uso e ocupação, entre outros) e resultados das simulações com valores de saída para as temperaturas internas mensais das zonas térmicas de cada modelo. Os resultados demonstraram variações e similaridades entre os tipos de modelagem, de processo de exportação e de formato de arquivo utilizado, cujas distorções na transferência dos dados são maiores quanto mais complexo for o modelo da edificação. A pesquisa apontou que os modelos de massas conceituais provenientes de arquivos gbXML, independentemente do modo de exportação a partir do Revit, configuraram-se como alternativa mais viável para utilização no EnergyPlus, por se manterem mais próximos à geometria da edificação, ainda que sejam transferidas configurações padrão do Revit que podem não retratar a realidade do ambiente construído. Porém, foi verificado que, de maneira geral, os modelos digitais do Autodesk Revit não são recomendados para esse tipo de exportação devido ao retrabalho diante da necessidade de correções nos arquivos. Concluiu-se que não é perfeita a interoperabilidade entre os programas computacionais Autodesk Revit e EnergyPlus, pois existe a possibilidade de transferência de informações para simulações térmicas de edificações, entretanto nesta troca há distorções nas geometrias e falta de dados necessários para a correta execução da simulação em todos os modelos exportados.
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Soukup, Štěpán. "Model rodinného domu v programu Revit." Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2020. http://www.nusl.cz/ntk/nusl-414317.

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This diploma thesis focuses on processing and data collecting for the use of creating functional 3D informating model that we call BIM (Building Information Modelling) which is getting more and more attention throughout building industry and it is used by all of the participants in the industry from designers and architects to those who are dealing with building installations. This process is slowly getting into legislations of many countries including Czechia. The thesis is divided into two parts where one of them is describing the Building Information Modeling in general and the other part is describing the work which is behind the colleting good data which is needed when making the 3D documentation in Revit software which is wildly used for designing building constructions. Practical part of the land surveyor´s work is devided here into two parts where one of them is dedicated to collecting data by laser scanning process, GNSS and measuring by total station and levelling machine. Second part focuses on the description of the data processing in order to make 3D model. The example of the output production data is the BIM 3D model of the family house in selected level of detail and besides that we also have the visualization of both interior and exterior and 2D simplified building documentations.
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Books on the topic "Autodesk Revit"

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1972-, Krygiel Eddy, and Vandezande James 1972-, eds. Autodesk Revit architecture essentials. Wiley Technology Pub., 2011.

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1975-, Londenberg Joel, and Whitbread Simon 1962-, eds. Mastering Autodesk Revit MEP 2012. Sybex, 2011.

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Bokmiller, Don. Mastering Autodesk Revit MEP 2012. Sybex, 2011.

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Aubin, Paul F. Mastering Autodesk Revit Building (Autodesk Revit). Autodesk Press, 2006.

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Fox, Lay Christopher, and James J. Balding. Introducing and Implementing Autodesk Revit (Autodesk Revit). Autodesk Press, 2004.

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Krygiel, Eddy, Lance Kirby, and Marcus Kim. Mastering Autodesk Revit 2018. Wiley & Sons, Limited, John, 2017.

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Kirby, Lance, Marcus Kim, and Robert Yori. Mastering Autodesk Revit 2020. Wiley & Sons, Incorporated, John, 2019.

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Kirby, Lance, Marcus Kim, and Robert Yori. Mastering Autodesk Revit 2020. Wiley & Sons, Incorporated, John, 2019.

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Mastering Autodesk Revit 2020. Wiley & Sons, Incorporated, John, 2019.

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Mastering Autodesk Revit 2018. Wiley-Interscience, 2017.

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Book chapters on the topic "Autodesk Revit"

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"Autodesk Revit Certification." In Mastering Autodesk® Revit® for Architecture. John Wiley & Sons, Inc., 2017. http://dx.doi.org/10.1002/9781119414315.app3.

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"Autodesk Revit Architecture Certification." In Mastering Autodesk® Revit® 2017 for Architecture. Wiley Publishing, Inc., 2017. http://dx.doi.org/10.1002/9781119415565.app3.

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"The Autodesk Revit World." In Autodesk® Revit® 2017 for Architecture. Wiley Publishing, Inc., 2017. http://dx.doi.org/10.1002/9781119415589.ch1.

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"Chapter 16: Toposolids in Revit." In Autodesk Revit 2024 Architecture. De Gruyter, 2023. http://dx.doi.org/10.1515/9781683929246-019.

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"CHAPTER 16. TOPOSURFACES IN REVIT." In Autodesk Revit 2019 Architecture. De Gruyter, 2018. http://dx.doi.org/10.1515/9781683923121-019.

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"Chapter 16 Toposurfaces in Revit." In Autodesk Revit 2020 Architecture. De Gruyter, 2019. http://dx.doi.org/10.1515/9781683923961-019.

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"CHAPTER 16. TOPOSURFACES IN REVIT." In AutoDesk Revit 2021 Architecture. De Gruyter, 2020. http://dx.doi.org/10.1515/9781683925170-019.

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"Managing Revit Projects." In Mastering Autodesk® Revit® for Architecture. John Wiley & Sons, Inc., 2017. http://dx.doi.org/10.1002/9781119414315.ch8.

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"Chapter 1: Introduction to Revit 2024." In Autodesk Revit 2024 Architecture. De Gruyter, 2023. http://dx.doi.org/10.1515/9781683929246-004.

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"Chapter 21: Creating Masses in Revit." In Autodesk Revit 2024 Architecture. De Gruyter, 2023. http://dx.doi.org/10.1515/9781683929246-024.

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Conference papers on the topic "Autodesk Revit"

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Голдобина, Любовь Александровна. "Моделирование пространственных конструкций в Autodesk Revit". У IV Международная научно-практическая конференция «BIM-моделирование в задачах строительства и архитектуры». СПбГАСУ, 2021. http://dx.doi.org/10.23968/bimac.2021.015.

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В статье поднимается вопрос об актуальности возведения в настоящее время строительных объектов со сложными пространственными формами и особенностями их моделирования и проектирования с использованием BIM-технологий. В частности, приводятся примеры построения сложных пространственных стержневых конструкций, на примерах создания длинной цилиндрической оболочки и оболочки типа «гипар», в известном продукте информационного моделирования зданий Autodesk Revit с использованием адаптивных компонентов, позволяющих воплощать самые дерзкие замыслы архитекторов в части создания как самих сложных форм строительных объектов, так и геометрии профилей их стержневых элементов.
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Ведерникова, Алёна Андреевна, та Руслан Андреевич Шишмарев. "Автоматизация инженерных расчетов в программе Autodesk Revit". У III International Conference “BIM in Construction & Architecture”. Saint Petersburg State University of Architecture and Civil Engineering, 2020. http://dx.doi.org/10.23968/bimac.2020.025.

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Galanina, M. N., and T. N. Tomchinskaya. "MODEL COORDINATION. SHARED COORDINATES IN AUTODESK REVIT." In КОГРАФ-2022. Нижегородский государственный технический университет им. Р.Е. Алексеева, 2022. http://dx.doi.org/10.46960/kograph_2022_102.

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Galanina, M. N., and T. N. Tomchinskaya. "MODEL COORDINATION. SHARED COORDINATES IN AUTODESK REVIT." In КОГРАФ-2022. Нижегородский государственный технический университет им. Р.Е. Алексеева, 2022. http://dx.doi.org/10.46960/kographt_2022_40.

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Епишкин, Александр Евгеньевич, Даниил Алексеевич Курмелев та Александр Дмитриевич Иванов. "Моделирование кабеленесущих систем в Revit". У VI Международная научно-практическая конференция «BIM-моделирование в задачах строительства и архитектуры». СПбГАСУ, 2023. http://dx.doi.org/10.23968/bimac.2023.021.

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C 1 января 2022 года ведение и формирование информационной модели объекта капитального строительства становится обязательным в соответствии с постановлением правительства Российского Федерации № 331, следовательно проектная документация на объект капитального строительства должна быть реализована в специальном программном комплексе. В данной статье рассматривается возможность применения BIM-технологий для моделирования кабеленесущих систем в Autodesk Revit, на примере подготовленных решений от производителя электротехнической продукции DKC. Авторы статьи на основе опыта использования плагина провели анализ результатов моделирования, и сравнили данный способ с другим методом построения систем в Autodesk Revit, описанным ранее. В результате анализа выявлены и описаны преимущества и недостатки использования плагина.
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Martins, Gisele, Giovana Ferreira, Gabriel Pazeti, and Simone Helena Tanoue Vizioli. "Interoperability Between Agisoft Metashape and Autodesk Revit Software." In XXV International Conference of the Iberoamerican Society of Digital Graphics. Editora Blucher, 2021. http://dx.doi.org/10.5151/sigradi2021-145.

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Sirimaha, Jaturawit, and Panyakit Kaewlex. "Instructional Media for Construction Drawing by Autodesk Revit Structure." In 6th UPI International Conference on TVET 2020 (TVET 2020). Atlantis Press, 2021. http://dx.doi.org/10.2991/assehr.k.210203.152.

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Хусаинова, Галина Владимировна, та Анна Анатольевна Мухаркина. "Разработка задания для графической работы с использованием формообразующих Autodesk Revit". У IV Международная научно-практическая конференция «BIM-моделирование в задачах строительства и архитектуры». СПбГАСУ, 2021. http://dx.doi.org/10.23968/bimac.2021.060.

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Графическая подготовка бакалавров архитектуры с использованием BIM-технологий происходит в процессе выполнения графических работ различных видов. Для обучения будущих бакалавров архитектуры необходимо разрабатывать задания для графических работ, чтобы преподаватели могли использовать качественные примеры для демонстрации цифрового инструментария студентам. В статье рассматривается концепция постановки графической задачи на построение цифровой модели здания с помощью кривых второго порядка. Приводится пример формулировки задания и продемонстрирован пример выполнения графической работы с использованием формообразующих элементов Autodesk Revit.
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Салимгареева, Эльза Назимовна, та Сергей Анатольевич Синенко. "Особенности использования Autodesk Revit для проектирования систем навесных вентилируемых фасадов". У V Международная научно-практическая конференция «BIM-моделирование в задачах строительства и архитектуры». СПбГАСУ, 2022. http://dx.doi.org/10.23968/bimac.2022.033.

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Необходимость перехода проектирования на применение BIM-инструментов объясняется современными тенденциями и подходами к проектированию. Сегодня оказываются важны как скорость выполнения проектных работ, так и их качество, возможность использования проектной документации в эксплуатационном периоде, доступность информации участникам строительства, возможность консолидации всей информации в рамках одной модели. В статье рассмотрен положительный опыт перехода к проектированию при помощи Autodesk Revit. Работая с моделью здания в 3D-представлении, повышается качество проектной документации. В данной статье рассматриваются особенности использования Autodesk Revit для проектирования систем навесных фасадных систем, оценена эффективность использования в проектировании навесных вентилируемых фасадов. Исследование проводилось на предмет снижения трудозатрат при проектировании и путей автоматизации повторяющихся процессов проектирования навесного вентилируемого фасада (НВФ) для создания информационной модели.
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Treushnikov, M. V., V. A. Tarakanov, and T. N. Tomchinskaya. "EXTRACTION OF DATA FROM AUTODESK REVIT TO OBJECT RELATIONAL DATABASE." In КОГРАФ-2022. Нижегородский государственный технический университет им. Р.Е. Алексеева, 2022. http://dx.doi.org/10.46960/kographt_2022_49.

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