Learn the efficiency issues and limitations of current existing tools to detail rebars of structural elements in Revit
Learn development examples that use Dynamo to solve most of the particular cases described
Learn the workflow used to interchange data from the third-party analysis software to the Revit model
Learn how to improve productivity for rebar detailing in medium-size and large Revit models using Dynamo
Currently there are many engineering software systems designed to efficiently evaluate different structural solutions and/or strategies for reinforced concrete buildings. However, turning the adopted solution into a full Revit model (including rebars in RC elements) is still a very time-consuming task that diminishes the efficiency obtained in the previous analysis/design phase. Native Revit tools for rebar detailing are helpful if structural elements are limited in number, but they lack the required efficiency when working in middle- to large-size projects. In this class, you'll see the challenges faced, and the workflow and solutions used to develop a Dynamo tool that communicates via API with the finite element analysis software CSI ETABS 2016. This tool automatically puts the reinforcement of different structural elements (such as regular and irregular walls, columns, and beams) into the Revit model.
Structural engineers, Architects, BIM managers, Building Designers
Im a structural engineer from Rene Lagos Engineers, a chilean structural engineering firm. During my time working in RLE I have participated in more than 1.000.000 m2 of different projects (residential, offices, retail, etc.). The most remarkable projects in which I have participated are Al Raha Beach complex in United Arab Emirates, Performance Based Design of 250m tall building in Bulgaria (Skyfort Tower), different buildings with seismic protection systems in Chile and Peru (Nunoa Capital, Plaza del Sol Buildings, etc.).I have participated as speaker in differents conferences such as CTBUH Conference (Shanghai, 2014), 10th National Conference on Earthquake Engineering (Anchorage, 2014), 16th World Conference on Earthquake Engineering (Chile, 2017). Currently I am a lecturer of Seismic Engineering in Adolfo Ibanez University.My current position in RLE is Director of New Technologies, in which I have the goal to fully incorporate BIM technologies into our daily process.
Structural Engineer graduated from the Universidad de Chile in Santiago de Chile. I've been working in Rene Lagos Engineers since 2013. In 2017, I became part of the New Technologies team heading Revit app developments through the Revit API and mainly though Dynamo for Revit. Actually, I m developing enhancements for rebar detailing for RC buildings according the Chilean standard.
Collaboration in construction is challenging. How can you organize the quality in data and geometry with all these different parties and models? Which software do you use to check your model: Navisworks or Solibri. An IFC workflow with Solibri provides you insights in the different clashes and the possibility to check in a rule based manner. But how do you create reports and collaborate with team members? Does Navisworks manage a more better workflow with more possibilities for everybody? With Navisworks you are free of file format. It is easy to append and update Revit, IFC, rcp or dwg files to a federated model in one single file. Checking model geometry, duplicates and data in a standardized way with Collaborea. It is the rulebased modelchecker for Naviswork. A report is no longer necessary because all the issues are visible and editable on a Cloud platform using Autodesk Forge. Checking and collaborating becomes easy and editing the models in an Autodesk workflow is simple.
When a progressive health-care client challenged an integrated project delivery team to look for opportunities to enhance collaboration and meet stringent deadlines on a new hospital project in California, the team started investigating several options to enhance coordination among the different teams' model files. After reviewing the available alternatives, and after careful consideration, the team finally selected Collaboration for Revit cloud service. Collaboration for Revit exceeded the expectations of the team members who were not only co-located at a trailer, but were also dispersed in several offices-including overseas. The team was able to work efficiently without restrictions on firewalls, which also enabled for unique workflows between the design and construction teams. In this class, we'll go over this success story while reviewing the key features of Collaboration for Revit, the selection process, setup, tips/tricks, and known limitations. Additionally, we'll look at how BIM 360 software and Collaboration for Revit were used to enhance change management.
As a group, we'll share ideas, workflows, and techniques to help make for a smoother and less painful transition from AutoCAD software to Revit software so that others may benefit from our successes and failures. You may have heard that the only way to switch to using Revit is to just take the plunge. Well, maybe there are options to this "sink or swim" approach. Can you afford to retrain your entire staff? Do you know who should learn (or, more important, who should not learn) Revit software? Maybe this discussion will help answer some of your questions and address some of your fears. We'll share how switching to Revit has affected our offices, workflows, staffing, and efficiency. We'll discuss our biggest successes and failures. We want to hear any unique idea or workflow that you've discovered to help make for a successful transition to Revit.
How can Building Information Modeling (BIM) workflows reduce the disconnect between document production and design intent visualization? This discussion will focus on taking a Revit BIM model into visualization and the production effort required. We'll cover a variety of visual communication platforms, from still images to panoramic images to interactive, dynamic virtual reality (VR). This roundtable will cover methods of accurate BIM visualization as well as isolated visual efforts with respect to production time and quality.
Learn advanced skills that capitalize on the new Fabrication functionality in Revit 2018 software. Using Revit schedules, assemblies, tags, views, interference checking, and new features in Revit 2018, we can produce fabrication documentation inside the Revit software interface, which lets us fully coordinate with design consultants. We'll cover how to model using Fabrication Parts; how to convert a design model into Fabrication Parts; how to use assembly views to create spools sheets and details; how to annotate Fabrication Parts in plan view and 3D; how to coordinate with other consultants in Revit software; how new Revit 2018 features relate to Fabrication Parts; and how to import existing as-built conditions from Fabrication CADmep software into a new renovation project. This session will feature Revit and Fabrication CADmep.
In this class, we will share our experience with the rollout and increased adoption of BIM 360 Docs software within Arcadis globally. The Pilot to Enterprise program is a successful approach to developing a well-structured, flexible project foundation for all project type rollouts within BIM 360 Docs. These are Arcadis's "lighthouse" projects, and Autodesk will support Arcadis on project execution. The intention is to glean the lessons learned for a global implementation across Arcadis, and drive toward a common data environment. The Autodesk Train the Trainer program is aimed at identifying and training regional BIM 360 Docs Implementation Champions and other key users based on the guidance of the Arcadis program managers. Together with the strategy "From 12 to Many," it will touch virtually every component of our collaborative process with input and support from Autodesk Implementation Consultants in The Americas, Europe, Middle East, Africa, and Asia Pacific.
Your firm signed up for the 2030 Challenge...Now what? In this presentation, BIM and Energy Specialists from Dekker/Perich/Sabatini will outline how they have implemented the AIA 2030 Challenge. In this 90-minute session we will discuss key considerations from becoming a 2030 signatory through the software and best practices implemented during reporting. We will then dive into how to investigate model analysis and provide valuable feedback to clients and design teams, including how to lower the predicted EUI while targeting the reduction goals set by the 2030 Challenge. We'll also cover the deliverables provided to project teams to ensure confidence in proposed energy saving tactics. This presentation will provide attendees the tools needed to not only implement 2030 at their firms, but to also make a difference by reducing their carbon footprint!
Advances in technology are ushering in a new era where connectivity for builders, designers and engineers are 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 a common data environment to herald a new connectivity-era with data at the center of every BIM project. We will look at how TBI has progressed from an age of 2D flatland, to the more advanced age of optimization of 3D digital data, to the present-day era of interoperability and collaboration in a new age of connection Learn how TBI is featuring a unique, innovative, niche cloud workspace by using cutting edge technologies like BIM 360, C4R, Revit, Microsoft Azure N-Series, NVIDIA Grid and RES ONE Workspace to design, build, make and create the future 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.
Transitioning to Building Information Modeling (BIM) and Revit software can be a complex process. Studies show that BIM workflows save time and money, but the initial training and implementation process poses a considerable cost to the firm, and office owners are concerned with the effect on project deadlines. This class will present a flexible and integral implementation process, built on adapting firm standards and workflows, and practicing from Day One on real-life design projects. As an architect, Revit teacher, and BIM implementation consultant, Yael has insights from multiple design firms, which vary in terms of project scopes, management, human resources, and prior knowledge. The class will contain examples from various case studies, pros and cons for different strategies, and aspects to consider while deciding on the path to a successful and smooth implementation process. If you're interested in convincing your firm to make the inevitable transition, come hear from experience how to create the process that is right for you.
This roundtable discussion will focus on how Collaboration for Revit cloud service changes the way we collaborate on delivering a building design. We'll discuss the benefits and pitfalls with this platform. In addition, we'll compare Collaboration for Revit with other platforms to learn why it stands out. We'll learn whether Collaboration for Revit defines a new standard of how we work as a team.
Today's 3D Building Information Modeling (BIM) and visualization software makes specifying a workstation a critical process. As you wrestle with the increasing demands of the Revit design platform and BIM-related applications such as 3ds Max software, Navisworks software, Rhino software, Lumion, Stingray gaming engine, and so on, you need to understand the art to make sound investments in computing hardware. This class will take a deep dive into today's advanced PC hardware so you can understand the important variables to consider when purchasing new workstations. 2017 was a watershed year for almost every aspect of computing hardware. Today's CPUs are more powerful and diverse than ever before. Advances in graphics must keep pace with the highly competitive PC gaming market, and are directly used by the Autodesk AEC portfolio. Properly optimizing your RAM subsystem is critical, and even mass storage has evolved past simply a fast solid state drive. We cover the latest hot peripherals to round out your system and review the latest buying guide.