Understand the timing and approach to implement BIM requirements on a large scale project, allowing the creation of a useful virtual environment.
Resolution of interoperability issues between differing software, including coordinates and data transfer
The benefits and use of reality capture and virtual reality to manage project stakeholders.
Client mandate and implementation strategy of BIM360 for contractors.
A case study on the adoption of BIM on the new Queens Wharf, $3B Integrated Resort Development in the CBD of Brisbane, Australia. An initiative from the developer and operator. The project extends over 10% of the Brisbane CBD footprint. The timing and approach to create the projects virtual environment, coordination of the new and existing built form with laser scanning, review of the public realm stakeholder requirements, including the intensive public services utilities of a CBD site, through the management of an expected 600 + models in Navisworks, originating from multiple software platforms will be presented. The adoption of virtual reality and the benefits achieved for the client and design teams will be explored. While the preparation of as-built information for facility management integration with BIM360, as the first of multiple project stages step into construction will be demonstrated. A presentation on truly integrated BIM implementation for all project participants.
A presentation on truly integrated BIM implementation for all project participants.
Alastair started life as an architectural modeler creating large Revit retail & commercial projects, before furthering his studies completing a Construction Management & Economics degree with Honours, focusing on main contractor’s views and perceptions of BIM; benefits, barriers & implementation strategies. He completed this degree while working as a strategic estimator on bids, valued up to $230M. His studies and experience have prepared him for his current position as the Project BIM Manager on the $3B Queens Wharf Project, Brisbane. Previously working on the $1B Perth Stadium & $1.2B Perth Children’s Hospital, where his roles vary from the day to day management of BIM, through to the development and implementation of BIM plans and strategies, liaising with a variety of project stakeholders. His background of design and cost management allow him to specialize in utilising BIM, to add value and increase efficiencies for the pre-contract, design and construction management teams.
This class is for anyone who is currently using Building Information Modeling (BIM) or intends to utilize it on large-scale projects in the future. This will be immensely helpful, inspirational, and thought provoking for owners and all stakeholders to make the best utilization of BIM on large-scale projects.
This class will showcase the Piedmont Atlanta Hospital Marcus Tower expansion and the all-in virtual design involvement on this project. We'll explain how to utilize models and BIM Team/C4R for Revit's cloud-based products and services for multiple aspects of the project, including the involvement in preconstruction for marketing, estimating, and self-perform opportunities; the integration of drone flights and parametric, in-house crane models for site logistics and safety planning; virtual reality for headwall mock-ups; and structural review. We'll complete the discussion with lessons learned for workflow, full-team integration, and training for the all-in approach.
With the goal of providing the best patient care at lowest cost, Mercy (one of the top five U.S. health systems) selected our Team for Project Delivery. Coupled with traditional A/E Design, we are also in charge of developing and managing VDC workflows aimed at shortening the Schedule, reducing Cost, and optimizing Turn-over. We developed Enhanced Integration (EI), aiming to connect the entire Lifecycle.<br/><br/>In addition to managing VDC workflows, EI also includes Asset Data Management, targeting an IWMS (Integrated Workplace Management System) implementation. With more than 2,000 employees across all Mercy support departments using the unified platform, the projected operational savings are staggering.<br/><br/>EI has evolved over 3 years and 8 projects totaling more than $500 Million in Construction. This class will focus on best practices for delivering complex healthcare projects and showcase BIM360 Team and Collaboration for Revit as the main tools for connecting the entire Project Team.
Black & Veatch are teamed up with HDR on the design of a large wastewater treatment facility project in the Kansas City area. Combining the right processes with Autodesk technology is delivering unprecedented collaboration, despite each of the design teams having resources scattered around the world. This session will showcase how the project team has used Collaboration for Revit cloud service and BIM 360 Team and Fusion Team (formerly A360 Team), as well as highlight some of the workflows used to promote efficiency in production.
As Building Information Modeling (BIM) uptake continues to grow across all disciplines, MEP (mechanical, electrical, and plumbing) design and MEP spatial coordination is at a particularly interesting stage. The need for both design information inputs and the sharing of design updates from architects, structural engineers, and various specialist MEP designers places pressure on, and increases risk for, MEP coordination teams. While many collaboration tools have been used for file sharing, the advent of Collaboration for Revit cloud service has provided a platform for a new level of buy-in and adoption. The range of benefits that Collaboration for Revit provides-including the ability to house central files-is seeing an increased level of engagement and improved output on time in the industry. We'll demonstrate, through our established workflow and numerous worldwide projects, just how to manage MEP BIM projects using tools such as Revit MEP software and Navisworks software, and we'll show participants the benefits of Collaboration for Revit for effective MEP coordination management.
In this class, Kevin O'Connor from Parsons Corporation and Rick Larson from Autodesk will define augmented reality (AR) and how it differs from mixed reality and virtual reality; review current state of AR; identify use cases for AR in infrastructure; review best practices to prepare an InfraWorks model and scenario for use in the InfraWorks iPad application; demonstrate AR using the InfraWorks iPad application; and discuss use of AR to display proposed models for a rail project.
Identify and outline strategies for creating and executing a prefabrication plan for a construction project. Topics covered will include plan creation, execution across multiple stakeholders, and ways to respond to change, as well as using QR for tracking materials and prefab assemblies, and bringing it all together for just-in-time delivery to the job site.
In this presentation, Skanska USA Building and the University of Washington will describe results from a joint applied research study on collaborative preconstruction and planning workflows focused on model-based estimating. We'll present the workflows and toolsets for using design models in conceptual and detailed estimating for consistent use throughout the construction process. We'll also present on the value and benefits of using model-based estimation for collaboration between design and construction, and share best practices for setting up teams and processes for success. Additionally, we'll present proven practices from Skanska that include common workflow standards, and we'll show examples of how to use Revit software, Navisworks software, and Assemble to vet models for appropriateness of use, extract quantities from models, validate quantity and assembly assumptions, and then incorporate these into construction estimates.
This class will provide an overview of BIM implementation on one of the world's largest projects, the Panama Canal Third Set of Locks project which includes two massive lock facilities - one on the Atlantic side and another on the Pacific - each with three chambers and complex mechanical and electrical systems for locking Neo-Panamax vessels.BIM technology was used to manage the design and construction of this complex project.What if we started the Panama Canal Expansion today, with the dramatic advances in BIM that have occurred in only the last few years? With InfraWorks - which was not available during the planning phase - we can propose site design and road layout with GIS information. With Revit Parts - which was not available during the design phase - we can slice a model easily with sketch lines to produce the lift models for the concrete pouring sequence.With BIM 360 cloud services - also newly available - we can work better across regions and continents for design collaboration.Integrating these BIM tools with Augmented Reality and Virtual Reality technologies, we can now better visualize our design during the construction process. This presentation will present a "what if" scenario, to study how the design of this mega-project would proceed today, and to propose a new design template for the future.
Architects, designers, engineers, and contractors speak regularly of the importance of collaboration-but do we really know what collaboration is and which software we can use to collaborate? In the world of distributed workplaces and distributed software programs, and with personnel spread across the country and sometimes further, how can you keep the process intact? How can you keep people regularly accountable and informed when work is being performed around the clock on multiple platforms and in multiple languages? File sharing options such as BIM 360 software and Collaboration for Revit cloud service are exceedingly valuable tools, but it's more critical to identify who is doing what, and who shares with you-and when. The days of the "file-sharing funnel" are behind us. This class will cover design and management evolution, parametric exploration of multiple scenarios, and optimal engineering solutions to fabricate and construct a very complicated facility in a year's time-all with a radio frequency interference (RFI) count of less than 250!
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.