This class gives firsthand insights into the application and documented quantified benefits of bringing Building Information Modeling (BIM) technologies to the field at Max Bögl Group, Germany’s largest privately owned construction company. We will discuss how we were able to deliver construction management workflows with higher quality and in significantly less time than before, and we’ll share best practice workflows for Navisworks software, BIM 360 Glue software, and BIM 360 Field software. As a highlight we will share how we enriched the regular BIM 360 software platform by creating a custom document-management system integration, linking 3D elements to detailed 2D CAD documents. The result is an automated, rule-based integration of 2D plans for 3D models with web and mobile access. A 3D object is then linked to its CAD metadata, checklists, issues, tasks, and respective (plan) documents, and it can be tracked with a QR code.
BIM managers, coordinators, consultants, construction managers, contractors
Maximilian Schütz is an IT and process consultant for Building Information Modeling (BIM) in the corporate development of the Max Bögl Group (MB). He is leading the company’s strategic implementation of BIM2Field and mobile BIM solutions. Furthermore he is in charge of corporate BIM standards and research collaborations. Prior to his appointment at MB, Maximilian worked as a visiting researcher at the Center for Integrated Facility Engineering (CIFE) at Stanford University. During his graduate studies he led his own research project on multimodel-based change order management. His bachelor’s thesis on the implementation of 5D technologies received multiple national awards. For his undergraduate studies he underwent a dual-studies program at MB, including an integrated apprenticeship as a concrete worker and assistance in project management of numerous construction projects in Germany. He holds a master of engineering in international construction management from the Technical University of Nürnberg, Germany.
Karina Borges Pagan (co-speaker): Working for Autodesk EMEA as Technical Consultant for over 10 years. BSc in Computer Science (University of Sao Paulo, Brazil, 1996). Started my career as software engineering at the Brazilian Telecom (Telebras) research centre in 1996. Software engineering experience in geographical information system, data management and BIM workflows.
As campus managers and cities look to embrace the Internet of Things, many are finding that while they have lots of data, managing this data so it can be used in a meaningful way is proving more difficult. Our session will explore how BIM can be used as a vehicle by campus managers and cities to capture, store, and disseminate multiple levels of data (e.g., building, social, environmental, government, economic) as well as generate additional benefits. We will look at how a 3D model can be created in Revit / InfraWorks and populated with data from many sources (e.g., sensors, real-time traffic information, social forums etc.) which can then be accessed by managers, governments, and citizens using tablets, apps, dashboards, and software such as BIM 360 Field. We will also discuss the benefits that can be generated including better decision making, easier benchmarking, improved performance, greater connectivity, and enhanced community engagement.
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.
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.
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.
The field of construction is well placed to benefit from the advent of machine learning and artificial intelligence. As part of the BIM 360 Project IQ Team at Autodesk, I've had the privilege of being a part of Autodesk's foray into machine learning for construction. This talk will focus on summarizing the developments in this space, and we'll cover some ways in which one can prepare to maximize value from this technology. The class has 2 sections. The first part provides a broad survey of some of the applications of AI and machine learning in construction, and the potential impact. These processes are making changes across various areas, including risk management, schedule management, subcontractor management, construction site environment monitoring, and safety, to name a few. In the second part, the focus will be on construction industry leaders who will talk about their experiences with smarter tools in their daily jobs, and their views of the impact that these tools might have in the short and long terms.
MWH are a global engineering and construction management company who build some of the world’s largest wastewater treatment plants. MWH in conjunction with Autodesk Consulting have implemented an innovative method to embed the construction Inspection Test Plan (ITP) inside BIM 360 Field. This method makes ITP completion intuitive for the site manager and enables the off-site quality management team and project manager to monitor its progress. Zoe Robertson from MWH and Anthony Neal from Autodesk Consulting will demonstrate how an ITP that has been documented in MS Excel can be generated into Autodesk BIM 360 Field clearly showing the building elements that require inspection and what quality inspections need to be conducted. We will also demonstrate how the ITP process can be further streamlined by embedding it in the BIM model during design. We will also discuss the people aspects that need to be understood and considered when driving QA/QC completion on-site.
Data sources in construction are exploding. Mobile devices and apps like BIM 360 Field are capturing and storing thousands of photos on typical projects. Drones, scanners, wearables and other construction management apps are adding to the mountain of data collected as a by-product of their use. To bring structure to our interpretations of these growing data streams, machine learning solutions are being applied to sort, filter, and surface insights so that projects can find the information they're looking for and make better decisions. This class will look at some early practical examples such as photo and video recognition for management and sorting of construction images, and predictive analytics in terms of highlighting high risk quality and safety issues. We'll also consider where the industry is going, as disparate data sources and applications become more integrated.
This class will be delivered by Kier Construction, a UK-based, industry-leading construction company, supported by Topcon and Autodesk. Kier will describe how they have applied Autodesk BIM 360 tools in collaboration with 3D laser scanners and total stations into their workflows on a complex construction project undertaken in the UK. Kier will demonstrate the key benefits of collaborative working, effective supply chain engagement, and adoption of technology on construction sites to realise and exceed client expectations. Using office-based software such as Navisworks, Revit, and ReCap, we will cover how using a variety of mass data capture techniques to gather as-built documentation combined with integrated on-site verification and management has improved efficiencies and reduced errors on construction sites. Kier will appraise the impact of using innovative new workflows to overcome interoperability challenges between several types of BIM authoring software.
Production planning. Last Planner System. Lean construction. These are all popular buzzwords in the architecture, engineering, and construction industry today. If you are not familiar with these and implementing them right now on your projects, this class is a must! This interactive workshop will address the problem of waste in planning and how the Last Planner System improves productivity and schedule reliability. We’ll introduce pull planning: a collaborative scheduling technique that enables teams to develop workflow working backward, thus enabling successor activities to determine what needs to be completed for them to start their work. We’ll put theory into practice in a hands-on, team-based, real-life construction and design simulation to emphasize the importance of pull versus push, reliable flow, and clear subcontractor commitments in the pull-planning process. The class will finish by showing how BIM 360 Plan web service helps the last planner by enabling teams to track task commitments and completion. This session features BIM 360 Plan and BIM 360 Field. AIA Approved
This class will be delivered by Hill Construction, a U.K.-based housebuilder, supported by Topcon Corporation and Autodesk, Inc. Hill Construction will describe its Building Information Modeling (BIM) journey so far, and how the firm has applied BIM 360 tools into its workflows on a complex construction project undertaken by Hill Bespoke in Cambridge, England. The class will cover how using a variety of mass-data capture techniques to gather as-built documentation combined with integrated on-site verification and management has improved efficiencies and reduced errors using innovative new workflows. Hill will describe the impact of these new workflows incorporating software (including BIM 360 Field cloud service, BIM 360 Layout cloud service, BIM 360 Glue cloud service, and BIM 360 Docs cloud service) integrated with Topcon mass-data capture and layout solutions, and the efficiencies gained over traditional methods. We will show content and examples from the historically important housebuilding project combining both complex renovation with new-build processes. This session features BIM 360 Layout, BIM 360 Field, and BIM 360 Glue. AIA Approved
Building Information Modeling (BIM) delivers value by providing an underpinning for the creation, aggregation, and exchange of models and corresponding intelligent structured data. The availability of powerful solutions in the BIM standard, both on-premise and in the cloud, creates a challenge and, hence, opportunity to implement a scalable integration architecture in the enterprise. While BIM Tools has largely focused on design and construction phases of assets, it also has important applications across entire lifecycles of assets, and is therefore a key enabler of improving asset management. This class will attempt to showcase technology best practices in TOGAF Enterprise architecture to help customers realize the vision of the business stakeholders to connect BIM data with other asset information and also make it available to the entire enterprise and beyond, including their suppliers and end customers. This session features AutoCAD Electrical and BIM 360 Field. AIA Approved
Projects are generating ever-increasing amounts of photo and video documentation. From mobile phones to wearable cameras to drones, the number of devices that can generate visual information is skyrocketing. Unfortunately, storing and organizing this content is not a simple task, nor is linking it to the actual assets. The files are numerous, large, and often do not have the required information associated to help categorize them. This case study of a live project will present a new approach that complements the visual organization capabilities of Revit software (and beyond) with a new product—Smartvid.io—to help store, organize, and tag the video and photo content captured on-site. We will discuss the concept of video-based reality capture within the context of construction, handover, and operations deliverables. This session features Revit, BIM 360 Field, and Building Ops. AIA Approved