mastering the art of bimplementation -...
TRANSCRIPT
Mastering the art of BIMplementation
Guy WallisNational Accounts Manager
Redstack
Agenda Overview
• Introductions
• Redstack Overview
• What is BIM – Quick 101 overview
• A Framework for implementing a BIM project
• Autodesk BIM Deployment workbook
• The Step by Step Guide
• Understanding the Technology
• Data management and Multi-site collaboration
• Bringing it all together
• Q & A
Who we are
• A leading provider of Autodesk design technology and services
• 20 years of local experience
• Partner with Autodesk, IMAGINiT Technologies and RAND Worldwide
• A wide range of professional services including:
BIM Implementation
Data Management
Process Automation
Software implementation and setup
Customised software development
Systems Integration
What is Building Information
Modelling?
BUILDING
INFORMATION
MODELING
ARCHITECTS
STRUCTURAL
ENGINEERS
MEP SYSTEMS
ENGINEERS
BUILDERS
OWNERS
CIVIL
ENGINEERS
BIM Definition:
• The creation and use of
coordinated, internally
consistent, computable
information about a
building project in design
and construction
Does your workflow look like this?
A framework for implementing BIM
• A BIM implementation must be supported by
the business as a whole. It cannot be an IT
initiative, or an R&D one, or done solely at a
project or disciplinary level.
• The framework is based on three essential
strategies, each integral to the performance of
the others:
A framework for implementing BIM
BIM Vision
• Essential to the success of implementing BIM is
a vision from executive leadership of what the
BIM process adoption will achieve for the
organization, what the principle elements of the
transformation are, and what this evolution will
look like at various stages.
• To be successful at implementing BIM,
organizations need a strategy that addresses
their specific needs and business values.
• A relationship with a trusted advisor who can
provide guidance on how to best to define and
execute on the vision can be integral to the
success of a BIM pilot.
A framework for implementing BIM
Driven BIM Leadership
The BIM leadership team must ensure that the BIM
vision is translated into actionable tactics to produce
the desired outcomes and performance in line with
an organization’s strategic objectives.
Here are some tactics for managing change
associated with BIM implementation initiatives:
1. Bridging the gap
2. High-profile communication
3. Training and Education
4. Contracts and legal considerations
5. Compliance, auditing, and quality control
6. Measuring BIM maturity
A framework for implementing BIM
Getting Started with your BIM pilot project
• With the groundwork done, it‘s time to pick a
pilot project. BIM pilots can take a number of
approaches that include completing a fictitious
project, re-doing a recent project as a
comparison, or starting a new live project for a
client. All are valid and will depend on the
acceptable level of risk and manpower available
to undertake your current work.
The Autodesk BIM Deployment
Workbook
• Partner with a consulting organisation that can assist
you to review your BIM project requirements.
• Allow you business partner to conduct a business
process assessment that can help you to plan a
successful BIM pilot.
• The Autodesk BIM Pilot Deployment Workbook is a free
tool that will help you to assess your firm’s current
status, needs, and goals, resulting in a comprehensive
profile of your firm’s situation and needs.
The Autodesk BIM Deployment
Workbook
The BIM Pilot Deployment Workbook is divided into two sections:
Organizational BIM Plan
helps companies implement BIM
methodology at the organizational level
Project BIM Plan
helps project teams implement BIM on
a pilot project
For stakeholders in building, infrastructure and construction projects, the potential
benefits of applying the framework and suggestions include:
• Improved communication and collaboration among all project team members
• Fewer problems related to overruns in cost, schedule, and scope, or quality
concerns
• The ability to more reliably deliver projects faster, more economically, and with
less environmental impact
Email “BIM Deployment Workbook request” to : [email protected]
The Step by Step Guide
Building Information Modelling
• Building – The design project, as
you envision for the client
• Information – The drawings,
views, renders, sections,
schedules, specifications, fully
coordinated
• Modelling – The digital
description that can be explored
and evaluated before you build
BUILDING
INFORMATION
MODELING
ARCHITECTS
STRUCTURAL
ENGINEERS
MEP SYSTEMS
ENGINEERS
BUILDERS
OWNERS
CIVIL
ENGINEERS
****REMEMBER****
Step 1 - Program
• Develop the functional and procedural requirements and goals of the
implementation.
• What types of projects does the office do?
• What information is needed in which phase of the project?
• What is the flow of information over the life of a project?
• Review the software’s potential impact on those processes.
• CAD LEAD Core team selection and training
• Use the BIM Deployment Workbook to create the master plan
Step 2 - Design
• CAD LEADS selection and Training (standards training as opposed to
production training)
• Office standards, templates and Library development
• Select test project (Different from pilot project)(5%-10% Test)
• Select pilot project, along with pilot alternate scope and schedule
• Limited Product setup and configuration
Train the CAD leads first. BIM is unlike CAD. Much of the success of a BIM
implementation depends on having some office standards and library in place.
Depending on the software a good template(s) can make or break an
implementation.
Step 3 - Model
• Create a Test Project - Take 1 set of your typical drawings. Recreate a small portion
(5-10%) of the building. Include an area that has both interior and exterior walls,
stairs, restrooms and roof area. Recreate in the software each sheet that at appears
in the final set of drawings. This will be unbillable time but pay for itself many times
over. This process will get the majority of the bugs out of the template and standard
library parts before they are put into production.
• Pilot Project - Establish a backup project as an alternate. Too often I have seen pilot
projects go back on the shelf and take the implementation with it. Again choose a
team for the pilot project. This may be a combination of the CAD LEADS group with
additional members. Train the team. This training is a basic training on your office
template with your office parts and pieces.
• Establish time line goals. Debrief the team often. Allot a certain amount of time to
learn from the experience gained by the pilot project team. Incorporate them into
office box lunches, what is working / not working with the office templates and
libraries.
Step 4 - Build
• Install all users
• Tech training for all users
• Follow up and in house training, mentoring
• Office library continued development
Step 5 - Deploy• Train the rest of the staff
• Treat each project for each team as a pilot projects for their first time
Email “BIM 5 Step plan request” to : [email protected]
What about the Technology?
Technology Categories for BIM
• Design
– Using 3D design technology to create the desired project
• Visualization
– Using technology to understand and represent the 3D characteristics of the
project (in whole or part)
• Production
– Creating construction documents and / or shop drawings and fabrication
drawings from the BIM data
• Coordination across disciplines
– Using BIM to evaluate the relationship of component building parts for
interferences and connections, and to produce coordinated orthographic
drawings of the project
• Analysis
– Using the BIM representation to evaluate the performance of the building
• Supply Chain Integration
– Using the model to connect design, fabrication and construction activities
Autodesk Design Suites & BIM
Building Design Suite
Premium
• AutoCAD
• AutoCAD Architecture
• AutoCAD MEP
• AutoCAD Structural Detailing
• Showcase
• AutoCAD Raster Design
• Navisworks Simulate
• ReCap
• Revit
• 3ds Max Design
• Cloud Rendering
• **Cloud Green Building Studio
• **Cloud Energy Analysis for Revit
• **Cloud Structural Analysis for Revit
Infrastructure Design Suite Premium
• AutoCAD
• AutoCAD Map 3D
• AutoCAD Raster Design
• Navisworks Simulate
• ReCap
• Storm and Sanitary Analysis
• AutoCAD Civil 3D
• Infraworks
• AutoCAD Utility Design
• Revit
• 3ds Max Design
• Geotechnical Module
• Rail Layout Module
• Bridge Module
• **Cloud Rendering
• **Cloud Green /Building Studio
• **Cloud Structural Analysis for Revit
** Cloud Services
Building Design Suite in the building industry
Architecture MEP engineering
Structural engineering Construction
AutoCAD Architecture
Showcase
Revit
3ds Max Design
Navisworks
ReCap
AutoCAD MEP
Revit
Navisworks
AutoCAD Structural
Detailing
Revit
Navisworks
Robot Structural
Analysis professional
AutoCAD
Revit
Navisworks Manage
Infraworks
Inventor
Autodesk Building Design SuiteDesign tools for a range of design needs
Design and share drawings
in the DWGTM file formatVersions of AutoCAD for
building professionals
Intelligent 3D model−based
design
AutoCAD AutoCAD Architecture
AutoCAD MEP
AutoCAD Structural Detailing
Revit*
Autodesk Building Design SuiteReality capture
Autodesk ReCap AutoCAD Raster Design
Add powerful raster editing and
raster-to-vector conversion tools to
your design workflow
Powerful reality capture workflow
for 3D laser scanning
Autodesk Building Design SuiteVisualization tools for differing needs
Revit* Showcase 3ds Max® Design*
In-process visualization Interactive presentations Cinematic animation and
near-photorealism
*Available in Building Design Suite Premium and Ultimate only.
Autodesk Building Design SuiteSimulation tools for differing needs
Revit* Navisworks
Simulate*Robot Structural
Analysis Professional*
Building performance
analysisConstruction simulation Advanced structural
analysis
Autodesk Building Design SuiteTools for differing project documentation needs
AutoCAD AutoCAD Architecture
AutoCAD MEP
AutoCAD Structural Detailing
Revit*
Documenting design with
greater accuracyBuilding-specific tools for
greater drafting productivity
Coordinated, consistent
documentation
Autodesk Building Design SuiteTools to help you build more efficiently
Revit* Navisworks Simulate*
Navisworks Manage**Inventor**
Modeling for
constructability
Construction simulation,
coordination, analysis, &
quantification
Digital Prototyping for
building fabrication
Workflow Summary
Revit
AutoCAD
AutoCAD MEP
RecapRobot
Navisworks
Revit Render
Showcase
3DS Max
Navisworks
Revit
AutoCAD
AutoCAD Structural Detailer
Autodesk Advanced Steel
AutoCAD
Revit
Navisworks
Multi-user Collaboration
Revit Server
• The foundation for server-based worksharing for Revit projects.
• A workshared project is a Revit building model that multiple team members can access and modify at the same time.
• With server-based worksharing, multiple instances of Revit Server are installed at different sites and configured to perform specific roles to support optimal project collaboration across a wide area network (WAN).
Buzzsaw & Buzzsaw 360 App
Document and data management software as a service
• Buzzsaw® is data management software as a service
(SaaS) that enables you to view Revit and Navisworks
software models on the web or from mobile devices,
automatically synchronize files, and access project files
from almost anywhere.
• Buzzsaw is BIM project management and collaboration
software as a service (SaaS). Apps are available for your
Apple iPhone, Apple iPad, or Android mobile digital
devices.
BIM 360 Field & BIM 360 Glue
Software for construction collaboration and management
• Autodesk BIM 360 transforms the way construction data is collected,
connected, visualized, and managed. This cloud-based software combines
cloud and mobile technologies to manage your data from preconstruction to the
field. Improve construction collaboration to prevent issues and drive higher
quality and profitability.
BIM 360 Field
Construction field data management
Combine mobile technologies and cloud-
based field data collaboration, reporting
BIM 360 Glue
BIM coordination and management
Get BIM coordination and management,
and virtually anywhere access to project
information.
Complete Data Management
Benefits
• Multi User Collaboration
• Multi Site Collaboration
• Multi Discipline integration
• Product Data Management (PDM)
• Version Control
• Revision Control
• Engineering change management workflows
• ISO 9001 Compliance
• And many more….
2D
Two-
dimensional
3D
Modelling;
3D Rendering;
Clash Detections
4D
Time to a
project;
Time lining
5D
Cost Estimating;
Quantity Take-off
6D
Sustainability
optimisation;
Energy
performance
analysis
7D
Life Cycle Management
Facilities Management (FM)
Bringing it all together
© 2014 Autodesk
Act now but realize the entire company will not have
to change overnight
Takeaway points
Start small in a controlled environment, and focus on
a specific, discrete objective
Measure and analyze results rigorously to drive
desired business outcomes
Focus on projects then learn how to expand
implementation at the enterprise level
Choose the right Technology then work with
business partners to assist with recommending,
learning and deploying the require software to
achieve your BIM objectives
Questions?
Digitally changing the way we shape the world!!!