In this session, speakers will discuss the power of immersive visualization to promote innovative science, technology, engineering, and math (STEM) education initiatives. Using the Mars City Facility Ops Challenge case study, speakers will show how information within Building Information Modeling (BIM) can be integrated into virtual reality. They will share insights gained, while creating an immersive environment for a visionary organization, using Revit software, Autodesk LIVE, and Stingray game engine. Mars City (founded by the National Institute of Building Sciences to recruit a new generation of professionals to work with high-performance buildings) uses BIM and facility maintenance tools to manage a virtual base on Mars. KieranTimberlake enhanced the curriculum using an immersive environment to engage students with hands-on learning opportunities, playing out scenarios in virtual reality. Speakers will highlight challenges and opportunities captured in the case study, as well as broader applications of the workflow in architectural visualization, facilities management, and education. This session features Revit, Autodesk LIVE, and Autodesk Stingray. AIA Approved
Design professionals looking for a dynamic way to iterate designs and provide an interactive platform for clients to engage with.
STEM educators and facilities management professionals interested in a novel way of approaching education and building performance.
Fátima Olivieri, AIA, co-leads the BIM Practices Group at KieranTimberlake, an award-winning architecture firm.Olivieri has worked on a range of projects, including recent work for Harvard University and New York University. Olivieri received her Master of Architecture degree from the University of Virginia, where she won the Design Excellence Award. Articles written by Olivieri have been published in peer-reviewed journals and websites. She has taught at the University of Virginia and the University of Michigan, and has lectured at the American Institute of Architects Convention and Greenbuild International Conference and Expo. Together with Efrie Friedlander, she leads the Mars City project, a joint initiative of KieranTimberlake and the National Institute of Building Sciences.
Efrie Friedlander is a registered architect who explores topics related to materiality, Life Cycle Analysis, digital technologies, and environmental systems at KieranTimberlake. She works with design teams to translate data-driven research into architectural design. Efrie uses her experience with computer programming and digital analysis methods to provide leadership within the Building Information Modeling (BIM) Practices group, working to integrate novel digital and analog analysis practices with traditional BIM. She is a member of the award-winning development team for Tally, a BIM-integrated tool to measure environmental impacts.
Before joining KieranTimberlake, Efrie studied architecture and theoretical physics at Yale College prior to receiving a Master of Architecture from the Taubman College of Architecture and Urban Planning at University of Michigan. While at Michigan, her team’s Research Through Making project in plaster won the R+D First Place Award from ARCHITECT Magazine in 2013, and her Dow Fellowship project establishing an Energy Efficiency Revolving Loan Fund for Ann Arbor was recognized for Distinguished Interdisciplinary Work in Sustainability. She also received a Master of Environmental Management from Yale University, where she conducted research in the fields of Industrial Ecology and Land Use Planning.
Rolando is a socially conscious, technology forward Architectural Designer and Graphics Enthusiast. He is passionate about Architecture’s ability to solve problems, and specializes in communicating ideas effectively (and clearly) through design. Rolando is currently an Intern Architect at KieranTimberlake Architects in Philadelphia.
Rolando holds a Master of Architecture from Washington University in Saint Louis, and a Bachelor of Design from the University of Florida. He has experience in architectural, web, graphic, and print design; serving as the Editor in Chief for Architrave Magazine, freelance graphic designer at Elliptical Studios, and Webmaster for the University of Florida School of Architecture.
Dynamic shifts have emerged in the digital realm of building design and physical methods of off-site fabrication. Buildings are increasingly manufactured/assembled rather than constructed/crafted. This class will present these digital procedures for modelling buildings in Revit whilst simultaneously assembling and managing your building components through Dynamo and into Inventor for fabrication. This entails navigating a hierarchy of linked/nested Revit models, families, and formulas; aligning the design BIM with detailed fabrication models in Inventor. Dynamo will be applied as a tool to automate, annotate, and design the building layout with assembled components. Orchestrate the building model, drawing sets, and work instructions in Revit alongside Dynamo to lay out building components, visualise building data, component relationships, and simultaneously assemble Revit components for building site context, component assembly in factory layout, and final modules in transportation.
Do you need to share IFC files on your project? If so, this is an essential session for you. We will explore the importance of interoperability from Revit using IFC. Using the IFC Exporter Plugin, we will explore all the hidden settings, controls, and tricks to give you the confidence, and control as to what information appears in the IFC. You will control Rooms, Space, IFC Classes, and Zone. Not all IFC exports are equal.
This class will discuss the details on how to select the right CPU, GPU, Memory and storage for optimal performance. We will review the latest technology available in workstation hardware as well as benchmarks and specific recommendations for Autodesk products. How to justify the right workstation for your engineering team including ROI will be discussed.<br/>The Dell Precision Optimizer, a tool that helps user maintain, analyze and optimize Dell workstations, will be introduced.
The cloud is already helping thousands of architects, engineers, and contractors with improving communication and quality of designs for taking to site. This session will discuss the BIM 360 portfolio and how it can support you in design through to construction. You will get hands-on with Revit and Collaboration for Revit using BIM 360 Team to communicate with other team members to resolve design issues faster. Use BIM 360 Glue to spell-check your models against other disciplines. You will then investigate how your design can be taken out to site to help with commissioning and progress tracking.
Advances in technology are ushering in a new era where connectivity for builders, designers, and engineers is key. Technology is changing rapidly. Find out in this class how to better embrace these changes to create more value and competitive differentiation by using an evolutionary and remarkable pioneering BIM Cloud Workspace with Autodesk’s BIM 360, Stingray, Revit, Navisworks, Microsoft Azure N-Series, NVIDIA Grid, and RES ONE Workspace. Learn in this class how TBI is featuring a unique, innovative, niche cloud workspace to design, build, make, and create the future of the Netherlands in the belief that it can always be better: more attractive, smarter, more efficient, and more sustainable.
Have you ever received a model and wondered what’s inside? Or questioned how the model was put together? Do you have issues with your model performance and don’t know where to start looking? We are not just talking about the geometry but the metadata and how the model has been put together. This session will look under the bonnet of the Revit model and assess the quality and suitability of the data so that a valid assessment can be made of what the model can be used for and if it is safe for you to integrate into your own data set. The session will discuss Quality Assurance and introduce a process/tool that utilizes Revit capabilities for management along with applications such as Autodesk Model Checker and Dynamo, accumulating into a report that details how compliant and suitable the model is.
We all hear it... Revit doesn't do beautiful drawings. We hear it enough to sometimes believe it but we know the reality. With a little extra care and some playful control of tools such as Filters and Depth Cueing, we can make a tired flat 2D drawing spring off the page. designtech and BPTW Partnership have worked closely on these workflows, tested over the past year on delivered projects. Together we will show attendees how to use every available tool for 2D graphic representation within Revit. At no point will we take information away from Revit, enabling the BIM process to remain robust while giving designers the ability to turn complex data into beautiful drawings.
This session examines 2 recent advances in BIM in the field of geotechnics. The first case study relates to the sharing of site-generated data, that is gathered electronically on-site, processed, and then uploaded to the BIM model, all automatically. In this way the stakeholders are seeing the object attributes updated in the integrated model in real time as the work is done. The advantages of this process include the obvious savings in time and effort, avoiding mistakes, self-certification, and the manifest openness that supports collaboration.
The concepts of BIM strive to the ideology of design teams working together collaboratively within 1 model across all disciplines. As fantastic as Revit has been to support architectural design delivery, the realities of this are not quite there yet when projects reach a certain scale or teams are to be spread across geographical locations. This class isn’t looking to solve all these challenges, but will highlight the different approaches that CallisonRTKL has learnt from experience having worked with Revit technologies since as early as 2003 globally and in the UK since 2006. We will also highlight other applications that we are using to address some of these challenges such as Windows Remote Desktop, Cisco Xen App, and Collaboration for Revit with A360.
This class will present how project teams can collaborate to develop information on a BIM project. We will initially look at setting up a plan of work to give clarity on which team members are delivering what information and when. Following this we will look at how designers can develop their designs using standardised BIM objects in Revit. Practical examples will then be given on how to link these objects digitally to the associated specification to better coordinate this information and reduce risk. We will finish by exploring the role of the cloud and big data in future workflows and show practical examples of how the Forge platform can accelerate this. Stephen was part of the team that developed the UK government’s BIM Level 2 standards and tools. As director of research and innovation at NBS, he has been fundamental in developing the products that led to NBS being the first UK Autodesk Solution Associate in 2016.
This class will present the first SNCF rail project that implemented a BIM approach. The project consists of transforming the existing Saint-Cloud Station in order to interconnect to the future metro station and fit the increase of passenger traveler flow. As part of this presentation, we'll address the following topics: BIM for rail issues and expectations; SNCF challenges and expected BIM outcomes; overview of the Saint-Cloud project; reasons for using BIM on this project and expected outcomes; approach taken in partnership with Autodesk Consulting; outlook.
Concluding the class presented at Autodesk University 2015, Elliott Crossley returns to discuss the construction phase of a £330 million project in the UK. This class reveals the strategy and workflows involved in integrating fabrication information back into the Building Information Model, divulging the toolbox of a multidisciplinary design team at BDP from inception to completion, challenging current technology throughout, to deliver an Asset Information Model suitable for use in building operation.