Template class to teach clash detection

Autores/as

DOI:

https://doi.org/10.46421/enebim.v3i00.315

Palabras clave:

BIM, Plano de disciplina, Disciplina modelo, Clash Detection, Detecção de Interferência

Resumen

BIM uses are complex specific processes in architecture, engineering, construction, and operation mediated by Building Information Modeling technologies. Several initiatives are dedicated to detailing these uses in a standardized way, enumerating and describing them in terms of scope, benefits, process maps, required competencies, associated technology, and theoretical framework. Examples of these efforts are Penn State's Computer Integrated Construction Research Program (MESSNER et al., 2019), buildingSMART (2021), and BIM Excellence Organization (SUCCAR; SALEEB; SHER, 2016). This study presents the approach to educate, evaluate and assist Model Uses using templates (Model Use Templates - MUT) of the BIM Excellence Initiative (BIMe). The BIM use is called Model Use in BIMe terminology. In three years, starting in 2021, the initiative intends to detail all the domain model uses listed by the organization (BIMe, 2020). The domain model uses are organized in the series of capture and representation, planning and design, simulation and quantification, operation and maintenance, monitoring and control of buildings and infrastructures. In terms of domain model uses, there is the linking and extending series of BIM integrated to Facility Management, interfaced with the Internet of Things, linked to Enterprise Resource Planning, etc. The initiative developed a Construction Domain Model Use Template (MUT) and applied it as a demonstration for Clash Detection or MUT 4040. This summary will describe the template, its application to Clash Detection, and guidance on how to transform it into a template class to teach Clash Detection with BIM.

The MUT consists of an extended description, software list, activity flow, and bibliography. This content is available in the BIM Dictionary associated with the equivalent term (https://bimdictionary.com/en/clash-detection/1). The extended description includes the corresponding term's definition, the detailed description, purpose, and an available online media-list. The detailed description presents the different types of use (e.g., hard, soft, time-based) and benefits. The software list lists platforms and environments used in the model use development. For each platform or environment, there is a list of the vendor or developer, the corresponding technical functionality, the applicable discipline, the software description, the availability of the software in the cloud or location, differentiation of versions, the link to the official website, the model use code that the software can support, specific functionalities associated with the use and availability of a plugin or extension. The activity flow is described using a process map and details in up to 3 hierarchical levels for each macro activity. All the terminology adopted in the MUT is semantically aligned to the various projects and initiatives of BIM Excellence, bringing consistency to the meaning.

In the case of MUT 4040, that is, the application of the template for the model use of Clash Detection, the short description is a “Use of the Model representing the use of 3D Models to coordinate different disciplines (e.g., structures and air-conditioning) and to identify/resolve possible conflicts between virtual elements prior to actual construction or fabrication”. The extended description presents the Clash Detection as automated or semi-automated procedures to identify design errors in 3D models, where objects occupy the same space or are too close to violating spatial restrictions. Time-based interferences are conflicts involving temporary objects that compete for the same space at the same time. The benefits are listed, for example, like better project coordination and quality; conflict reduction in the workplace; acceleration of design and delivery processes; and cost reduction through productivity increase. The available online media does not represent the entire process involved in Clash Detection and are generally restricted to confronting models on specific platforms.

We advocate that the activity flow should structure the class of model uses in BIM education. In this way, there is a holistic and representative approach to practice. Thus, we advise escaping this model's understanding in a restricted and instrumental way, as it already occurs in most of the online media found. We propose to organize the class program by the macro stages of the activity flow, covering: (i) creation of the strategy for the clash detection in the project in question; (ii) preparation of specific models for federation; (iii) identification of federation environments or model integration; (iv) federation or integration of models; (v) checks for interference in the federated or integrated model; (vi) analysis of the conflicts identified; and (vii) referral to conflict resolution. The details of each of these activities in the template can guide the teacher on how to proceed or prepare educational content. The bibliography listed in the template covers the theoretical framework to support the class in terms of books, scientific articles, and BIM guides. One can develop the class at the level of graduation, extension, or continuing education. Being an undergraduate class, it can be mandatory or elective.

Items (i) to (iii) make up the theoretical part of the class, and the rest are essentially practical content. Thus, two types of competency assessment are possible: knowledge and skills. Knowledge can be developed through discussions and seminars. Skills covered are associated with execution or domain skills, according to Succar, Scher, and Willams (2013). Execution skills are associated with learning model verification platforms and collaboration environments. The execution competence generates an instrumental skill that can be provided through individual online training with tutorials. Domain skills are essentially technical (analysis and simulation) and functional (collaboration). These skills must be instigated in a participatory and collaborative way in practical exercises involving cycles of verification of the federated model and adjustments of complementary projects' models.

As a suggestion for support material, the teacher should prepare a dataset including models with errors in file naming disobeying conventions, errors in the control elements impacting the overlapping of models, errors of omission or duplication of elements in the models, and errors of data schema in terms of categorization of elements and classification of content. The models must also include issues of all types (hard, soft, and temporal interferences). Errors must be plausible to be identified by different types of verification: visual or script.

YouTube presentation: https://youtu.be/cMPaw_kOZtQ

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Biografía del autor/a

Fernanda Almeida Machado, Autodesk Brasil

Mestra em Arquitetura, Tecnologia e Cidade pela UNICAMP e Especialista em Gerenciamento BIM pelo SENAI CIMATEC, com Bacharelado em Arquitetura e Urbanismo pela UFBA. Atualmente, integra a equipe brasileira de Technical Sales Specialists da Autodesk para Arquitetura, Engenharia e Construção. É pesquisadora voluntária na BIMe Initiative, na qual é co-editora de traduções do BIM Dictionary para Português e desenvolve projetos de inovação.

Paula Pontes Mota, SIPPRO

Mestra em Arquitetura, Tecnologia e Cidade pela Universidade Estadual de Campinas, UNICAMP (2017). Professora do curso de especialização Master BIM Modelador - ISITEC. Possui certificação Autodesk Revit Associate. Diretora BIM da SIPPRO Engenharia e Soluções de Planejamento da Produção.

Lorena Claudia de Souza Moreira , Universidade Federal da Bahia

Doutora em Arquitetura, Tecnologia e Cidade pela Universidade Estadual de Campinas - UNICAMP (2018) em cotutela com a Missouri State University - MSU. Professora das disciplinas de Expressão gráfica, projeto e simulação e coordenadora acadêmica da Faculdade de Arquitetura da Universidade Federal da Bahia. P

Regina Coeli Ruschel, Universidade Estadual de Campinas

Doutora em Engenharia Elétrica e Automação pela Universidade Estadual de Campinas. Professora e pesquisadora colaboradora do Programa de Pós-Graduação em Arquitetura, Tecnologia e Cidade da Universidade Estadual de Campinas.

Citas

BIMe INITIATIVE. S211in Model Uses List (v1.26). March 1, 2020. Disponível em: https://bimexcellence.org/resources/200series/211in/. Acesso em: 1 mar. 2021

buildingSMART International. Use Case Management. Disponível em: https://ucm.buildingsmart.org/. Acesso em: 01 mar. 2021.

MESSNER J. et al.. BIM Project Execution Planning Guide, Version 2.2. State College: Computer Integrated Construction Research Program, The Pennsylvania State University, 2019, Disponível em: http://bim.psu.edu. Acesso em: 20 dez 2020.

SUCCAR, B., SALEEB, N., SHER, W. Model Uses: Foundations for a Modular Requirements Clarification Language. In: AUSTRALASIAN UNIVERSITIES BUILDING EDUCATION ASSOCIATION CONFERENCE. 40., Cairns, 2016. Proceedings [...]. North Rockhampton: Central Queensland University, 2016. p. 45-57.

SUCCAR, B.; SHER, W.; WILLIAMS, A. An integrated approach to BIM competency assessment, acquisition and application. Automation in Construction, v. 25, 2013. p. 174-189. DOI: https://doi.org/10.1016/j.autcon.2013.05.016

Publicado

2021-05-21

Cómo citar

MACHADO, Fernanda Almeida; MOTA, Paula Pontes; MOREIRA , Lorena Claudia de Souza; RUSCHEL, Regina Coeli. Template class to teach clash detection. In: ENCONTRO NACIONAL SOBRE O ENSINO DE BIM, 3., 2021. Anais [...]. Porto Alegre: ANTAC, 2021. p. 1. DOI: 10.46421/enebim.v3i00.315. Disponível em: https://eventos.antac.org.br/index.php/enebim/article/view/315. Acesso em: 3 nov. 2024.

Número

Sección

Planejamento de inserção de BIM na educação

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