Search results for: autodesk-revit-2017-r1-bim-management

Autodesk Revit 2017 BIM Management Template and Family Creation Imperial Units

Author : ASCENT - Center for Technical Knowledge
File Size : 82.67 MB
Format : PDF, Mobi
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Building Information Modeling (BIM) is an approach to the entire building life cycle. Autodesk(R) Revit(R) for Architecture, MEP, and Structure is a powerful BIM program that supports the ability to coordinate, update, and share design data with team members throughout the design construction and management phases of a building's life. A key component in managing the BIM process is to establish a company foundation for different types of projects by creating standard templates and custom family elements. Having this in place makes the process of any new project flow smoothly and efficiently. The objective of the Autodesk(R) Revit(R) 2017 (R1) BIM Management: Template and Family Creation student guide is to enable users who have worked with the software to expand their knowledge in setting up office standards with templates that include annotation styles, preset views, sheets, and schedules, as well as creating custom system, in-place, and component families. This student guide contains practices that are specific to each discipline. Topics Covered Create custom templates with annotation styles, title blocks, and custom element types. Create schedules, including material takeoff schedules with formula. Create custom wall, roof, and floor types as well as MEP system families. Set up a component family file with a parametric framework. Create family geometry. Create family types. Modify the visibility of components and incorporate additional family items such as controls, MEP connectors, and nested components. Create specific families, including in-place families, profiles, annotations, and parameters. The student guide also contains discipline-specific practices for families, including: doors, windows, railings, pipe fittings, light fixtures, gusset plates, and built-up columns. Prerequisites Students should be comfortable with the fundamentals of the Autodesk Revit software, as found in the Autodesk Revit 2017 (R1) Architecture Fundamentals, Autodesk Revit 2017 (R1) Structure Fundamentals, or Autodesk Revit 2017 (R1) MEP Fundamentals student guides. Knowledge of basic techniques is assumed, such as creating standard element, copying and moving elements, and creating and working with views, etc. Information on Collaboration Tools, Conceptual Design, and Site and Structural Design are covered in additional student guides.

Autodesk Revit 2017 Architecture Fundamentals Imperial Units

Author : ASCENT - Center for Technical Knowledge
File Size : 73.49 MB
Format : PDF, Kindle
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The Autodesk(r) Revit(r) software is a powerful Building Information Modeling (BIM) program that works the way architects think. The program streamlines the design process through the use of a central 3D model, where changes made in one view update across all views and on the printable sheets. This student guide is designed to teach you the Autodesk Revit functionality as you would work with it throughout the design process. You begin by learning about the user interface and basic drawing, editing, and viewing tools. Then you learn design development tools including how to model walls, doors, windows, floors, ceilings, stairs and more. Finally, you learn the processes that take the model to the construction documentation phase Since building projects are extremely complex, the Autodesk Revit software is also complex. The objective of the "Autodesk(r) Revit(r) 2017 (R1) Architecture Fundamentals" student guide is to enable students to create full 3D architectural project models and set them up in working drawings. This student guide focuses on basic tools that the majority of users need. Topics Covered Understanding the purpose of Building Information Management (BIM) and how it is applied in the Autodesk Revit software. Navigating the Autodesk Revit workspace and interface. Working with the basic drawing and editing tools. Creating Levels and Grids as datum elements for the model. Creating a 3D building model with walls, curtain walls, windows, and doors. Adding floors, ceilings, and roofs to the building model. Creating component-based and custom stairs. Adding component features, such as furniture and equipment. Setting up sheets for plotting with text, dimensions, details, tags, and schedules. Creating details. Prerequisites An understanding of architectural terminology is an asset.

Autodesk Revit 2017 R1 for Landscape Architecture

Author : ASCENT - Center for Technical Knowledge
File Size : 36.68 MB
Format : PDF, Docs
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The Autodesk(R) Revit(R) software is a powerful Building Information Modeling (BIM) program that has allowed countless firms to incorporate the BIM workflow into their designs. As a key component of this workflow, Autodesk Revit allows landscape architecture firms to produce powerfully intelligent designs. The Autodesk(R) Revit(R)) for Landscape Architecture student guide is designed to teach you the Autodesk Revit functionality focusing on creating and documenting full 3D project models for an urban environment. You begin by learning about the user interface and basic drawing, editing, and viewing tools. Then you learn how to create a basic building with walls, doors, windows, and roofs. From there you move into modelling hardscapes using walls, floors, and stairs, and adding components such as trees, site furniture and planting areas. An introduction to topography trains you in using the toposurface tools that come with Autodesk Revit. Finally, you learn the processes that take the model to the construction documentation phase. Topics Covered Understanding the purpose of Building Information Management (BIM) and how it is applied in the Autodesk Revit software. Navigating the Autodesk Revit workspace and interface. Working with the basic drawing and editing tools. Starting a project based on existing CAD drawings or Autodesk Revit models. Adding retaining walls, hardscape, stairs and other building elements. Placing components for plantings, furniture, and lighting. Creating and modifying basic topography. Setting up sheets for plotting with text, dimensions, details, tags, and schedules. Creating details. Prerequisites An understanding of landscape architecture terminology is an asset.

Autodesk Revit 2017 Structure Review for Certification

Author : ASCENT - Center for Technical Knowledge
File Size : 25.28 MB
Format : PDF, Docs
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The Autodesk(R) Revit(R) 2017 (R1) Structure: Review for Certification is a comprehensive review guide to assist in preparing for the Autodesk Revit Structure Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. New users of Autodesk(R) Revit(R) Structure 2017 (R1) software should refer to the following ASCENT student guides: Autodesk(R) Revit(R) 2017 (R1): Structure Fundamentals Autodesk(R) Revit(R) 2017 (R1): Architecture Fundamentals Autodesk(R) Revit(R) 2017 (R1): Collaboration Tools Autodesk(R) Revit(R) 2017 (R1): BIM Management: Template and Family Creation Prerequisites Autodesk(R) Revit(R) 2017 (R1) Structure: Review for Certification is intended for experienced users of the Autodesk Revit software. Autodesk recommends 400 hours of hands-on software experience prior to taking the Autodesk Revit Structure Certified Professional exam.

Autodesk Revit 2017 MEP Mechanical

Author : ASCENT - Center for Technical Knowledge
File Size : 90.84 MB
Format : PDF
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The Autodesk(R) Revit(R) 2017 (R1) MEP Mechanical: Review for Certification is a comprehensive review guide to assist in preparing for the Autodesk Revit MEP Mechanical Certified Professional exam. It enables experienced users to review learning content from ASCENT that is related to the exam objectives. The content and exercises have been added to this training guide in the same order that the objectives are listed for the Autodesk Revit MEP Mechanical Certificated Professional exam. This order does not necessarily match the workflow that should be used in the Autodesk(R) Revit(R) 2017 (R1) MEP software. New users of the Autodesk Revit 2017 (R1) MEP software should refer to the following ASCENT student guides: Autodesk(R) Revit(R) 2017 (R1): MEP Fundamentals Autodesk(R) Revit(R) 2017 (R1): BIM Management: Template and Family Creation Autodesk(R) Revit(R) 2017 (R1): Collaboration Tools Prerequisites Autodesk(R) Revit(R) 2017 (R1) MEP Mechanical: Review for Certification is intended for experienced users of the Autodesk Revit software. Autodesk recommends 400 hours of hands-on software experience prior to taking the Autodesk Revit MEP Mechanical Certified Professional exam.

EG ICE 2020 Workshop on Intelligent Computing in Engineering

Author : Ungureanu, Lucian Constantin
File Size : 88.85 MB
Format : PDF, ePub
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The 27th EG-ICE International Workshop 2020 brings together international experts working at the interface between advanced computing and modern engineering challenges. Many engineering tasks require open-world resolutions to support multi-actor collaboration, coping with approximate models, providing effective engineer-computer interaction, search in multi-dimensional solution spaces, accommodating uncertainty, including specialist domain knowledge, performing sensor-data interpretation and dealing with incomplete knowledge. While results from computer science provide much initial support for resolution, adaptation is unavoidable and most importantly, feedback from addressing engineering challenges drives fundamental computer-science research. Competence and knowledge transfer goes both ways. Der 27. Internationale EG-ICE Workshop 2020 bringt internationale Experten zusammen, die an der Schnittstelle zwischen fortgeschrittener Datenverarbeitung und modernen technischen Herausforderungen arbeiten. Viele ingenieurwissenschaftliche Aufgaben erfordern Open-World-Resolutionen, um die Zusammenarbeit mehrerer Akteure zu unterstützen, mit approximativen Modellen umzugehen, eine effektive Interaktion zwischen Ingenieur und Computer zu ermöglichen, in mehrdimensionalen Lösungsräumen zu suchen, Unsicherheiten zu berücksichtigen, einschließlich fachspezifischen Domänenwissens, Sensordateninterpretation durchzuführen und mit unvollständigem Wissen umzugehen. Während die Ergebnisse aus der Informatik anfänglich viel Unterstützung für die Lösung bieten, ist eine Anpassung unvermeidlich, und am wichtigsten ist, dass das Feedback aus der Bewältigung technischer Herausforderungen die computer-wissenschaftliche Grundlagenforschung vorantreibt. Kompetenz und Wissenstransfer gehen in beide Richtungen.