DOCSLIB.ORG

International Standards Summit 30 October to 2 November 2017, London, IET Overview

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

International Standards Summit 30 October to 2 November 2017, London, IET Overview Monday 30 October International Plenary Sessions Dinner & openBIM awards Standards Summit Tuesday 31 October Workshops London 2017 Wednesday 1 November Workshops Thursday 2 November Plenary Sessions 2017 buildingSMART International Standards Summit IET London, UK Welcome Contents We know people come to our events to collaborate, and because we are a Monday Plenary AM 4 neutral, not for profit company we have a non commercial policy within all of our programs. Monday Plenary PM 5 In this booklet you will find the agenda for the event, names of the plenary speakers and some other useful information about the social aspects. Tuesday Workshops AM 6 All the documents from the event will be available to you using a facility called Sharefile. The link for this will be emailed to you. All the details contained in this booklet and more besides are available on our website Tuesday Workshops PM 7 events page: www.buildingsmart.org/event/ Wednesday Workshops AM 8 international-summit-london-uk-2017 The bottom of the webpages contains links to Wednesday Workshops PM 9 our digital media platforms (Linked In, Twitter, Facebook, Youtube). Thursday Plenary AM 10 website On Twitter use #bSILON2017 We also have a WhatsApp group for you to join. Thursday Plenary PM 11 If you have any questions then please ask us or one of our volunteers from Middlesex University. Meeting descriptions 12-14 You can email us at [email protected] Speakers 15-16 WhatsApp We hope you have a very productive time and we look forward to seeing Useful information 17-18 you again at our next Summit in Paris. Richard Kelly Sheila Kerai-Lum Operations Director Business Adminstrator 3 2017 buildingSMART International Standards Summit IET London, UK Monday 30 October: Plenary AM Venue: Kelvin Lecture Theatre 10.30 - 10.40 Introduction Richard Kelly buildingSMART International 10.40 - 11.00 Chief Executive welcome Richard Petrie buildingSMART International 11.00 - 11.30 The application of openBIM in China’s railway programme Liming Sheng Engineering Management Centre, China Railway 11.30 - 12.00 Digital Built Britain Mark Bew HM UK Government 12.00 - 12.30 Delivering digitally unified terminology through data dictionary developments Lars Fredenlund & Siggi Wernik CoBuilder / buildingSMART Norway & buildingSMART Germany / DhochN Digital Engineering GmbH 12.30 - 13.00 Status of openBIM in the United Kingdom Anne Kemp buildingSMART United Kingdom & Ireland / UK BIM Alliance / Atkins 13.00 - 14.00 Lunch 4 2017 buildingSMART International Standards Summit IET London, UK Monday 30 October: Plenary PM 14.00 - 15.15 Delivering Industry solutions. Presentation & panel discussion Standards Programme – Richard Kelly buildingSmart International Airport Room - Alex Worp Schiphol Airport Infra Room – Christophe Castaing Egis Building Room – Ricardo Bittini Ferrovial Agroman Construction Room – Ken Endo Kajima Corporation Product Room – Roger Grant NIBS Regulatory Room – Øivind Rooth Norway Building Authority DiBK Facilitator – Mark Baldwin Room leaders for buildingSmart International 15.15 - 15.45 Break - Group photo on the stage 15.45- 16.05 Software Certification IFC4 Launch Rasso Steinmann buildingSMART International / iabi 16.05 - 16.25 Professional Certification Individual Qualification Launch Mark Baldwin buildingSMART International / Mensch und Maschine 16.25 - 17.00 openBIM Case Studies from Norway BIM and IFC Case Studies Dag Runar Båtvik Norgeshus Bjørnar Markussen & Ole Kristian Kvarsvik Oslo Airport T2 17.00 Close Riverside Room 3rd Floor 19.00 - 22.00 Welcome dinner including openBIM Awards 5 2017 buildingSMART International Standards Summit IET London, UK Tuesday 31 October: Workshops AM Technical Focus Rooms User Focus Rooms Infrastructure Regulatory Construction Building Room Product Room Airport Room bSI General Room Room Room Room Riverside 1 Mountbatten Riverside 2 Wedmore Riverside 4 Riverside 5 Siemens 08:30 - 9.00 Registration: Riverside Room Foyer, 3rd Floor IR1 BR1 PR1 InfraRoom RR1 CR1 AR1 Introduction Product Room 09:00 - 10.30 Opening Planning & Opening Opening to open Opening (User & coordination Plenary Plenary Session 1 Session audience Plenary Technical) 10.30 - 11.00 Break BR2 IR2 PR2 CR2 Introduction Infra Asset AR2 Product Room Common Data bG1 11:00 - 13.00 to open Management The Airport Projects and Environment IFC Strategy standards, (User) & IDBE Document Session 2 Session Standards (CDE) UK perspective (User) 13:00 - 14.00 Lunch: Riverside Room Foyer, 3rd Floor 6 2017 buildingSMART International Standards Summit IET London, UK Tuesday 31 October: Workshops PM Technical Focus Rooms User Focus Rooms Infrastructure Regulatory Construction Building Room Product Room Airport Room bSI General Room Room Room Room Riverside 1 Mountbatten Riverside 2 Wedmore Riverside 4 Riverside 5 Siemens * Session 4 for BR, IR, PR & AR in Riverside 1,2 & 3 (partitions removed) IR3 RR2 BR3 AR3 bG2 Common PR3 Regulatory CR3 IFC Rebar The Airport International 14.00- 15.30 Schema Terminology Room BIM IoT with BIM & Precast Document User Group Requirement Tools & ePermit (Platform) Session 3 Session Working Group - Annexes Meeting (User) seminar 15.30 - 16.15 Break RR3 CR4 BR4 IR4 PR4 AR4 bG3 Regulatory IoT with BIM Use Cases IFC Use Cases IFC Use Cases IFC Use Cases IFC openBIM 16:15 - 18.00 Room BIM (Use of IoTBIM & Linked data & Linked data & Linked data & Linked data enabling & ePermit in Construction Session 4 Session * * * * DfMA Lean seminar Site) 18.00 Close 7 2017 buildingSMART International Standards Summit IET London, UK Wednesday 1 November: Workshops AM Technical Focus Rooms User Focus Rooms Infrastructure Regulatory Construction Building Room Product Room Airport Room bSI General Room Room Room Room Riverside 1 Mountbatten Riverside 2 Wedmore Riverside 4 Riverside 5 Siemens PR5 IR5 RR4 bG4 BR5 Content AR5 IFC Bridge Automated CR5 System 09:00 - 10.30 MVD Model & Quality Kick-off work Expert Panel Code Checking 4D-BIM Architecture Set Up Management sessions Session 1 Session (Technical) WG & IFC toolkit Procedures 10.30 - 11.00 Break BR6 IR6 RR5 AR6 bG5 Case studies IFC Rail PR6 CR6 Automated Data & Professional 11:00 - 13.00 and project use, Product Data AR & MR Code Checking Moments Certification: and technical IFC Road (User Template with BIM Session 2 Session WG Interfaces LoF workshop guidance & Technical) 13:00 - 14.00 Lunch: Riverside Room Foyer, 3rd Floor 8 2017 buildingSMART International Standards Summit IET London, UK Wednesday 1 November: Workshops PM Technical Focus Rooms User Focus Rooms Infrastructure Regulatory Construction Building Room Product Room Airport Room bSI General Room Room Room Room Riverside 1 Mountbatten Riverside 2 Wedmore Riverside 4 Riverside 5 Siemens BR7 IR7 AR7 bG6 MVD Update Kick-off: PR7 CR7 RR6 Collaboration Professional 14:00 - 15.15 (QTO, Energy IFC Ports & Classification User Session e-submission Usage during Certification: Simulation & Harbours workshop (Case Study) Session 3 Session Operation LoF workshop Scheduling) IFC Tunnel 15.15 - 15.30 Break IR8 BR8 Closing session RR7 AR8 LOX Level of Meeting PR8 CR8 15:30 - 17.00 Room Closing session Development/ outcome Closing session Closing session summary & resolutions Session 4 Session Definition etc overview & resolutions 17.00 Close 9 2017 buildingSMART International Standards Summit IET London, UK Thursday 2 November: Plenary Schedule AM Venue: Turing Lecture Theatre 09.30 - 09.40 Introduction Richard Petrie buildingSmart International 09.40 - 10.00 Standards Programme overview Richard Kelly buildingSmart International 10.00 - 11.00 IFC in the UK: Hinckley Point C Nuclear Power Station Terry Parkinson & Paul Walker Laing O’Rourke Christophe Castaing Egis IFC / COBie workflows Adam Ward BIM Technologies IFC Applications Rob Jackson Bond Bryan 11.00 - 11.20 EU BIM Handbook Adam Matthews EU BIM Task Group 11.20 - 11.50 Break 11.50 - 12.10 Data Requirements for the construction and management of buildings: a guide for clients Sarah Davidson UK BIM Alliance / Gleeds Corporate Services Ltd 12.10 - 13.10 IFC Family Deployment initiatives Implementors Support Group (ISG) Jeffrey Ouellette buildingSMART International & USA / Vectorworks IFC Strategy development Thomas Liebich buildingSMART International & Germany / AEC3 Open Toolkit Greg Schleusner buildingSMART International & USA / HOK 13.10 - 14.00 Lunch 10 2017 buildingSMART International Standards Summit IET London, UK Thursday 2 November: Plenary Schedule PM 14.00 - 14.50 Partner updates OGC - Carsten Roensdorf & Phil Jackson Ordnance Survey & buildingSMART UK & Ireland ETIM - Halvard Gavelstad Norsk Byggtjeneste AS CEN - Paul Surin Wienerberger AG ISO - Kjell Ivar Bakkmoen buildingSMART International & Norway / Sykehusbygg HF / ISO 14.50-15.20 Rooms Summary Actions arising and resolutions, future workplans Room leaders 15.20 - 15.45 Break 15.45-16.25 Rooms Summary Actions arising and resolutions, future workplans Room leaders 16.25 - 16.55 bSI Awards presentations Susan Keenliside buildingSMART Canada / House of Commons Canada, Real Property Directorate 16.55 - 17.00 Thanks & close 11 2017 buildingSMART International Standards Summit IET London, UK Meeting descriptions This list gives a brief description of the content of each working session to Attendees may wish to contact the people listed below to ascertain help you make your attendance selection. If you require more information whether a particular meeting is relevant for Technical
Recommended publications
  • (BIM) in the Custom Home Building Industry William Noble Smith Brigham Young University

    (BIM) in the Custom Home Building Industry William Noble Smith Brigham Young University

    Brigham Young University BYU ScholarsArchive All Theses and Dissertations 2017-12-01 Current State of Practice Associated with the Use of Building Information Modeling (BIM) in the Custom Home Building Industry William Noble Smith Brigham Young University Follow this and additional works at: https://scholarsarchive.byu.edu/etd Part of the Construction Engineering and Management Commons BYU ScholarsArchive Citation Smith, William Noble, "Current State of Practice Associated with the Use of Building Information Modeling (BIM) in the Custom Home Building Industry" (2017). All Theses and Dissertations. 6632. https://scholarsarchive.byu.edu/etd/6632 This Thesis is brought to you for free and open access by BYU ScholarsArchive. It has been accepted for inclusion in All Theses and Dissertations by an authorized administrator of BYU ScholarsArchive. For more information, please contact [email protected], [email protected]. Current State of Practice Associated with the Use of Building Information Modeling (BIM) in the Custom Home Building Industry William Noble Smith A thesis submitted to the faculty of Brigham Young University in partial fulfillment of the requirements for the degree of Master of Science James P. Smith, Chair Kevin R. Miller Evan D. Bingham School of Technology Brigham Young University Copyright © 2017 William Noble Smith All Rights Reserved ABSTRACT Current State of Practice Associated with the Use of Building Information Modeling (BIM) in the Custom Home Building Industry William Noble Smith School of Technology, BYU Master of Science Building Information Modeling (BIM) has entered the construction industry and has permeated the commercial sector. Research is continually performed to expand the capabilities and applications within the industry.
  • Building Information Modelling (BIM) Standardization

    Building Information Modelling (BIM) Standardization

    Building Information Modelling (BIM) standardization Martin Poljanšek 2017 This publication is a Technical report by the Joint Research Centre (JRC), the European Commission’s science and knowledge service. It aims to provide evidence-based scientific support to the European policymaking process. The scientific output expressed does not imply a policy position of the European Commission. Neither the European Commission nor any person acting on behalf of the Commission is responsible for the use that might be made of this publication. Contact information Name: Martin Poljanšek Address: Via E. Fermi 2749, Ispra (VA) 21027, Italy Email: [email protected] Tel.: +32 39 0332 78 9021 JRC Science Hub https://ec.europa.eu/jrc JRC109656 EUR 28977 EN PDF ISBN 978-92-79-77206-1 ISSN 1831-9424 doi:10.2760/36471 Ispra: European Commission, 2017 © European Union, 2017 Reuse is authorised provided the source is acknowledged. The reuse policy of European Commission documents is regulated by Decision 2011/833/EU (OJ L 330, 14.12.2011, p. 39). For any use or reproduction of photos or other material that is not under the EU copyright, permission must be sought directly from the copyright holders. How to cite this report: Author(s), Title, EUR (where available), Publisher, Publisher City, Year of Publication, ISBN (where available), doi (where available), PUBSY No. Contents 1 Introduction ...................................................................................................... 2 2 Building Information Modelling (BIM) ..................................................................
  • Belgisch BIM-Protocol Nationaal Referentieprotocol Voor Gebouwen Versie 2, Oktober 2018

    Belgisch BIM-Protocol Nationaal Referentieprotocol Voor Gebouwen Versie 2, Oktober 2018

    Belgisch BIM-protocol Nationaal referentieprotocol voor gebouwen Versie 2, oktober 2018 Belgisch BIM-protocol Nationaal referentieprotocol voor gebouwen Versie 2, oktober 2018 Dit document werd opgesteld in opdracht van het Technisch Comité BIM & ICT, in samenwerking met de Cluster BIM (met de steun van VLAIO) en in het kader van het prenormatieve onderzoek Codec (met de steun van de FOD economie). Auteurs: C. Euben (WTCB) en S. Boeykens (D-studio en KU Leuven) Met de medewerking van Confederatie Bouw, Netwerk Architecten Vlaanderen (NAV), Organisatie van Raadgevende Ingenieurs, Engineering- en Consultancybureaus (ORI), Bouwunie en de leden van Cluster BIM. Een werkgroep onder leiding van J. Ceyssens (Kumpen) en animator E. Van Overwaele (NCB) heeft specifiek bijgedragen aan de juridische aspecten in het BIM-protocol. Samenstelling van de werkgroep Voorzitter: R. Collard (BAM) Leden: M. Achten (AT Osborne), M. Baetens (BPC), K. Baggen (Hooyberghs) , S. Binnemans (SCIA), J. Bisschot (CFE), A. Boutemadja (Atelier AKB), M. Brochier (Tase), R. Collard (BAM), C. Dalhuizen (KUBUS), W. Dehuysser (Monument Vandekerckhove), C. Dequidt (NAV), A. Dubuisson (Assar Architects), R. Filomeno Coelho (Kabandy), D. Froyen (Kumpen), T. Gautot (Neanex), G. Girotto (CB/CC), B. Ingelaere (WTCB), R. Klein (KU Leuven), J. Kuppens (iNFRANEA), S. Leenknegt (Ney & Partners), P. Lenaerts (gemeente Anderlecht), M. Léonard (CCW), E. Maggio (Tractebel), V. Marbach (Derbigum), V. Martin (BSolutions), B. Marynissen (SECO), R. Meuleman (Wienerberger), R. Meurisse (NKKCLE/CFCRGE), K. Nys (D-studio), P. Orban (CERAU), J. Poncelet (Valens), A. Sagne (Association of Architects G30), S. Santosa (Willemen), E. Schaerlaecken (Stiersco), D. Schmitz (Knauf), S. Soupart (Art & Build Architect), B. Timmerman (AREMIS), A.
  • Download Summary Report

    Download Summary Report

    TRANSFORMING HOW WE BUILD HOMES Work package 5: Guide to Creating a BIM Housing Manual February 2021 www.aimch.co.uk Work package 5: Guide to Creating a BIM Housing Manual / February 2021 EXECUTIVE SUMMARY A Guide to Creating a BIM Housing Manual Building Information Modelling (BIM) is a process which can bring benefits to any construction project, but it brings new challenges to the way we work. In housebuilding it will require developers to adopt new design standards and processes, which have been historically developed with bespoke commercial projects in mind. This requires an understanding of those standards and processes, and how they can be applied in a practical way within the house building community. BIM brings many new terms and vocabulary into The UK and Scottish governments have mandated the working environment and navigating through within public procurement the adoption of BIM them can be daunting. There are many forums industry standards, to help cross sector and and guides to help industry transition over from international collaboration while driving efficiency 2D to BIM enabled 3D design processes and into the construction industry, which has been collaborative working practises. However, these lagging in adopting digital practices. tend to reflect bespoke one-off commercial For the housebuilding community to navigate the projects, where uptake has been greatest. They transition from 2D paper based design into BIM do not fully reflect the house building industries enabled 3D digital design, AIMCH has created processes,
  • This Item Was Submitted to Loughborough University As a Phd Thesis by the Author and Is Made Available in the Institutional Repo

    This Item Was Submitted to Loughborough University As a Phd Thesis by the Author and Is Made Available in the Institutional Repo

    This item was submitted to Loughborough University as a PhD thesis by the author and is made available in the Institutional Repository (https://dspace.lboro.ac.uk/) under the following Creative Commons Licence conditions. For the full text of this licence, please go to: http://creativecommons.org/licenses/by-nc-nd/2.5/ A Sociotechnical Systems Analysis of Building Information Modelling (STSaBIM) Implementation in Construction Organisations By Enoch Sackey A Doctoral Thesis Submitted in partial fulfilment of the requirements for the award of Doctor of Philosophy of Loughborough University June 2014 © Enoch Sackey (2014) i Abstract The concept of BIM is nascent but evolving rapidly, thus, its deployment has become the latest shibboleth amongst both academics and practitioners in the construction sector in the recent couple of years. Due to construction clients’ ‘buy-in’ of the BIM concept, the entire industry is encouraged to pursue a vision of changing work practices in line with the BIM ideas. Also, existing research recognises that the implementation of BIM affects all areas of the construction process from design of the building, through the organisation of projects, to the way in which the construction process is executed and how the finished product is maintained. The problem however is that, existing research in technology utilisation in general, and BIM literature in particular, has offered limited help to practitioners trying to implement BIM, for focusing predominantly, on ‘technology-centric’ views. Not surprisingly therefore, the current BIM literature emphasises on topics such as capability maturity models and anticipated outcomes of BIM rollouts. Rarely does the extant literature offer practitioners a cohesive approach to BIM implementation.
  • D2.1-BIM-Models V2.Pdf

    D2.1-BIM-Models V2.Pdf

    03-2019 BIMy D2.1 v1.01 BIMy Project: D2.1 BIM Model Document metadata Date 2021-03-23 Status Draft Version 2.01 Authors Hashmat Wahid – Willemen Dieter Froyen – Willemen Lise Bibert - Willemen Stijn Goedertier – GIM Steven Smolders - GIM Stijn Van Thienen – GeoIT Elena Pajares – Assar Architects Thomas Goossens – Assar Architects Niki Cauberg – BBRI François Robberts – BBRI Jens Lathouwers – Geo-IT Erick Vasquez - LetsBuild Coordinator Franky Declercq – GeoIT Reviewed by Thomas Goossens – Assar Architects Jens Lathouwers – Geo-IT Version history Version Date Author Change 0.01 2019-04-09 SGO Introduction and scope 0.02 2019-05-03 EPA Overview of model data used 0.03 2019-05-14 SGO/SS Stability of object identifiers through time and scale 0.04 2019-06-04 HWA Modelling conventions to filter by time & IFC use 0.05 2019-06-05 SVT Scope: Parameters within Revit, Methodology: fire parameters 0.06 2019-06-06 HWA 0.07 2019-06-07 SGO Modelling time and scale: notes from the workshop 0.08 2019-06-19 SVT, TGO Modelling fire 0.09 2019-06-20 HWA Modelling time and scale 0.10 2019-09-23 HWA,LBI Document structure, modelling geometry, information, time & scale, export & filtering 0.11 2019-11-27 HWA,LBI How to model Circular Economy data 1.01 2019-12-19 TGO Reviewed – Submitted to ITEA 1 | P a g e 03-2019 BIMy D2.1 v1.01 1.02 2020-09-21 JLA Checking in native software, Path of travel functionality (Revit) 2.0 2021-03-22 All Final review 2.01 2021-03-23 JLA Reviewed – Submitted to ITEA 2 | P a g e 03-2019 BIMy D2.1 v1.01 Table of Contents Table of Contents ....................................................................................................................................
  • Asset Management in a BIM Environment

    Asset Management in a BIM Environment

    Asset Management in a BIM Environment Fulvio Re Cecconi1, Mario Claudio Dejaco2, Daniela Pasini3, Sebastiano Maltese4 1) Ph.D., Associate Professor, Department of Architecture, Built Environment and Construction Engineering, Politecnico di Milano, Milano, Italy. Email: [email protected] 2) Ph.D., Assistant Professor, Department of Architecture, Built Environment and Construction Engineering, Politecnico di Milano, Milano, Italy. Email: [email protected] 3) Ph.D. candidate, Department of Architecture, Built Environment and Construction Engineering, Politecnico di Milano, Milano, Italy. Email: [email protected] 4) Ph.D., Research fellow, Department of Architecture, Built Environment and Construction Engineering, Politecnico di Milano, Milano, Italy. Email: [email protected] Abstract: Nowadays construction projects are more and more delivered by Building Information Models instead of traditional 2D drawings. This allows for information rich projects but this information is, in many cases, accessible only for those who are able to use a BIM authoring software. In the current market, both the top levels (CEO and executives) and the low levels (on site and off site operators) of an asset or a facility management company are not able to use a BIM authoring tool, thus to use the valuable information stored in the model. Moreover, BIM models that work fine for the design stage will be of no use during the operational stage if not correctly created. A research has been carried on to cope with these problems and the preliminary results are shown in this paper. Asset managers’ work procedures and needs have been analyzed to identify what information is needed and when in the operational stage and then an IFC compliant standard has been adopted to store data.
  • Use of Building Information Modeling Technology in the Integration of the Handover Process and Facilities Management

    Use of Building Information Modeling Technology in the Integration of the Handover Process and Facilities Management

    USE OF BUILDING INFORMATION MODELING TECHNOLOGY IN THE INTEGRATION OF THE HANDOVER PROCESS AND FACILITIES MANAGEMENT by Sergio O. Alvarez-Romero A Dissertation Submitted to the Faculty of the WORCESTER POLYTECHNIC INSTITUTE in partial fulfillment of the requirements for the Degree of Doctor of Philosophy in Civil Engineering August, 2014 APPROVED: Guillermo Salazar, PhD, Major Advisor Leonard Albano, PhD, Committee Member Alfredo Di Mauro, AIA, Committee Member Laura Handler, LEED AP, Tocci Building Companies, Committee Member Fredrick Hart, PhD, Committee Member William Spratt, MSc FM, Committee Member John Tocci, CEO Tocci Building Companies, Tahar El-Korchi, PhD, Department Head Committee Member Abstract The operation and maintenance of a constructed facility takes place after the construction is finished. It is usually the longest phase in the lifecycle of the facility and the one that substantially contributes to its lifecycle cost. To efficiently manage the operation and maintenance of a facility, the staff in charge needs reliable and timely information to support decision making throughout the facility’s lifecycle. The use of Building Information Modeling (BIM) is gradually but steadily changing the way constructed facilities are designed and built. As a result of its use a significant amount of coordinated information is generated during this process and stored in the digital model. However, once the project is completed the owner does not necessarily receive full benefits from the model for future operation and maintenance of the facility. This research explores the information that in the context of educational facilities has value to the owner/operator and that can be delivered at the end of the construction stage through a BIM-enabled digital handover process.
  • Sharing Your Model with Ifc an Introduction

    Sharing Your Model with Ifc an Introduction

    SHARING YOUR MODEL WITH IFC AN INTRODUCTION VECTORWORKS ARCHITECT Written for Vectorworks 2016 2 www.vectorworks.net 1 VECTORWORKS ARCHITECT Sharing Your Model with IFC TABLE OF CONTENTS Introduction and Overview 4 What is IFC? Why IFC is Important What does IFC mean for Vectorworks users? Using IFC in Vectorworks 5 IFC Objects and Property Sets in Vectorworks Default Vectorworks Objects Tagged as IFC Objects Assigning Data to Customized Objects IFC Zones Viewing and Editing Data Custom Property Sets Proxy Elements and Other Special Cases How to Share and Use Your IFC Model 18 Exporting Importing Reference Model Workflow Other Resources and Information 21 Terminology 22 3 423 INTRODUCTION AND OVERVIEW BIM authoring software such as Vectorworks has technology. No single vendor controls this format permits information to be shared and allowed architects and others within the AEC or makes money from licensing this technology. maintained throughout the life cycle of a industry to create complex, data-rich 3D models The most important thing to remember is that IFC construction project: design, analysis, to explore and document design. This new encodes both geometry and data. Additionally, specification, fabrication, construction, and technology also means new ways to share there are certain aspects of IFC that make it ideal occupancy. information among all consultants on a project. for an open BIM exchange. These include: The capabilities and usage for IFC standards are It becomes essential to establish an agreed upon Geometry – IFC geometry is robust and includes evolving. Some examples of the use of IFC method and file format for exchange between include: the different disciplines on a team.
  • Einblicke in Die Digitalisierung Der Bau Und Immobilien Wirtschaft

    Einblicke in Die Digitalisierung Der Bau Und Immobilien Wirtschaft

    EINBLICKE IN DIE DIGITALISIERUNG DER BAU­ UND IMMOBILIEN­ WIRTSCHAFT BIM WORLD PRAXIS­ NEXT MUNICH BERICHTE LEVEL BIM 28 – 29 aus dem was uns in Zukunft November 2017 Lebenszyklus erwartet 3 CONTRIBUTORS BIM WORLD 2017 GERMAN SPEAKING CHAPTER agit2018 SYMPOSIUM und EXPO Wochenzeitung für das gesamte Bauwesen Angewandte Geoinformatik AEC3 Salzburg, 4. – 6. Juli 2018 Mai 2016 Bauingenieur Die richtungweisende Zeitschrift im Bauingenieurwesen Bauingenieur · Mai 2016 BETTER COORDINATION BETTER BUILDINGS www.bauingenieur.de Sonderteil Mechanik Sportstätten / Multifunktionsgebäude / · Brandsimulationen Ausstellungshallen / Hotels · Geschichtete Platten · Integritätsbewertung beim Rückbau Holzbau · Systembauweisen für Parkhäuser Geotechnik · Abrasivuntersuchung von Boden und Fels Organ des VDI für Bautechnik BIMalijansa BIMalijansa FINLAND bimdata.io BIMalijansa BIMalijansa EDITORIAL LABS Liebe Leser, die Digitalisierung der Bau- und Immobilienwirtschaft stellt die Beteiligten am Le- benszyklus von Immobilien und technischen Anlagen vor enorme Herausforderungen: Neue Technologien, neue Methoden - wie Building Information Management - eine weiter zunehmende Komplexität bei gleichzeitig steigenden Kostendruck und zudem mangeln- den Fachkräften zwingen zu Veränderungen. Neue – auch disruptive - Geschäftsmodelle drängen auf den Markt, neue Produkte entstehen, und eine neue, vernetzte Kultur setzt sich nun auch in dieser eher tradierten und durchregulierten Branche durch. Wer jetzt nicht bereit ist, Teil dieses Paradigmenwechsels zu werden, kann schnell den Anschluss verlieren. Network für Brandschutz Impressum Groß sind daher Interesse und Orientierungsbedürfnis über die aktuellen Marktgescheh- nisse. Nicht eben einfach stellt sich die realistische Einschätzung der neuen Entwicklungen immobilien BIM MAGAZIN in ihrer Bedeutung für die eigene weitere Positionierung im Wettbewerb dar. Vielfältig und entscheidend für entscheider Redaktion unübersichtlich sind die neuen Chancen aber auch die Risiken für die eigene Unterneh- Ralf-Stefan Golinski, M.A.
  • Early Implementation of Building Information Modeling Into a Cold-Formed Steel Company: Providing Novel Project Management Techniques and Solutions to Industry

    Early Implementation of Building Information Modeling Into a Cold-Formed Steel Company: Providing Novel Project Management Techniques and Solutions to Industry

    American Journal of Civil Engineering and Architecture, 2013, Vol. 1, No. 6, 164-173 Available online at http://pubs.sciepub.com/ajcea/1/6/6 © Science and Education Publishing DOI:10.12691/ajcea-1-6-6 Early Implementation of Building Information Modeling into a Cold-Formed Steel Company: Providing Novel Project Management Techniques and Solutions to Industry Samuel A. Barrett1, John P. Spillane1,*, James B. P. Lim2 1School of Planning, Architecture & Civil Engineering, Queen’s University Belfast, Belfast, United Kingdom 2Department of Civil and Environmental Engineering, University of Auckland, Auckland, New Zealand *Corresponding author: [email protected] Received October 12, 2013; Revised November 04, 2013; Accepted November 13, 2013 Abstract The ability of building information modeling (BIM) to positively impact projects in the AEC through greater collaboration and integration is widely acknowledged. This paper aims to examine the development of BIM and how it can contribute to the cold-formed steel (CFS) building industry. This is achieved through the adoption of a qualitative methodology encompassing a literature review, exploratory interviews with industry experts, culminating in the development of e-learning material for the sector. In doing so, the research team have collaborated with one of the United Kingdom’s largest cold-formed steel designer/fabricators. By demonstrating the capabilities of BIM software and providing technical and informative videos in its creation, this project has found two key outcomes. Firstly, to provide invaluable assistance in the transition from traditional processes to a fully collaborative 3D BIM as required by the UK Government under the “Government Construction Strategy” by 2016 in all public sector projects.
  • Bricscad BIM Table of Contents

    Bricscad BIM Table of Contents

    The Value Proposition BricsCAD BIM Table of contents 01 - BricsCAD BIM: Lifting Design Creativity in DWG 02 - Designing your (virtual) building with BIM 03 - Five key differences in a 3D BIM workflow a. Automated management of project documentation b. Design capture via 3D massing & study models c. Smooth movement from concept to detailed design d. Automated updates of construction drawings e. Minimized potential for human error 04 - BricsCAD’s Powerful 3D BIM Workflow 05 - Start with real conceptual design freedom 06 - Transition smoothly to detailed design 07 - Creating your design documentation 08 - We invite you to try BricsCAD BIM Building Information Modeling with BricsCAD - The Value Proposition 01 BricsCAD BIM: Lifting Design Creativity in DWG Building Information Modeling with BricsCAD - The Value Proposition The business case for making the move to Building Information Modeling continues to grow. The potential for a better end-to-end design workflow is driven by the concept of a BIM as a ‘single source of truth’ in building design. Principals love the marketing power of BIM, citing the strong competitive advantage they get from it. This is especially true when firms solicit business from new clients. Business Value of BIM 2017 these reasons without our help. These benefits are outlined in the We’d like to make a proposal to you, and “Business Value of BIM 2017” report from we’ve created this document to support it. McGraw-Hill. They report that building Bricsys declares: don’t fight the BIM wave owners also see the long-term value - transition to riding it. You can dive into a of BIM - especially around reduced flexible transition workflow that supports documentation errors and less rework.