presentation august 03 2011
TRANSCRIPT
Presentation to the OPW
August 3rd 2011
17-19 Lower Hatch Street Dublin 2
Laser Scanning & BIM for Conservation & Restoration Works
About Us COASTWAY was founded in 1999, and is the country’s largest Geospatial Engineering Survey
Company.
• Laser Scan to BIM
• High Definition Laser Scanning
• Environmental & Structural Monitoring
• Topographical Surveying
• Construction Setting Out & Survey Training
• Geospatial Engineering Survey Services
• Ground Penetrating Radar
• Photography
• Recruitment
• Resin Scale Modelling for Construction,
Engineering & Architectural Markets
Services offered by COASTWAY:
• This presentation is focussed on highlighting the benefits of using the latest Laser Scan
Technology in conjunction with Building Information Modelling for making accurate records of
Historical, Heritage, Archaeological & Conservation Buildings & Monuments.
• To understand the full advantages of applying Building Information Modelling to existing buildings,
this presentation will use the example of Royal Hospital Kilmainham.
• The Following presentation will demonstrate what information can be attained from Laser Scan
Data, and what this Data can be used to achieve.
Presentation Discussing Laser Scanning & BIM for Conservation & Restoration
Overview of Site, Royal Hospital Kilmainham
Case Study - Royal Hospital Kilmainham
Vector Drawings produced from Site Survey
Case Study - Royal Hospital Kilmainham
South Elevation to Royal Hospital Kilmainham
Case Study - Royal Hospital Kilmainham
West Elevation to Royal Hospital Kilmainham
Case Study - Royal Hospital Kilmainham
Section Through Royal Hospital Kilmainham
Case Study - Royal Hospital Kilmainham
Micro scanning of Statue, Royal Hospital Kilmainham
Case Study - Royal Hospital Kilmainham
Case Study - Royal Hospital Kilmainham
Laser Scanning of Internal Courtyard with Leica Scan Station 2
Case Study - Royal Hospital Kilmainham
Load Pointools Overview
RHK - Exterior Elevation Overview
Case Study - Royal Hospital Kilmainham
Laser Scanning of Drawing Room
Case Study – House of St. Barnabas, Soho, London
Laser Scanning of Attic
Case Study - Royal Hospital Kilmainham
Load Pointools RHK Attic Overview
RHK – Interior Attic Overview
Load RHK FLIR / Asset Management Virtual Tour
RHK – Interior Attic Virtual Tour
Point Cloud of Attic Space
Case Study - Royal Hospital Kilmainham
BIM of Attic Space - MEP Extraction
Case Study - Royal Hospital Kilmainham
Aerial Photographic View of Fota House and Gardens
Case Study – Fota House Survey, Fota Island, Cork
External Details to Be Surveyed Internal Details to Be Surveyed
Case Study – Fota House Survey, Fota Island, Cork
Laser Scanning of the External and Internal Elevations
Case Study – Fota House Survey, Fota Island, Cork
High Resolution Scan Data Entrance Hall Ceiling
Case Study – Fota House Survey, Fota Island, Cork
Vector Drawing Produced From Scanned Data
Case Study – Fota House Survey, Fota Island, Cork
• Much analysis of existing and proposed facilities is based on estimated and guessed
figures for building and material performance.
• Whether or not strategies implemented will be effective at improving the energy
performance of a proposed building can be calculated by testing a detailed Building
Information Model
• Accurate analysis, evaluation and refinement of the proposed building’s performance
is an integral part of the design process. This concept can be applied to any aspect of
a building’s performance, once there is a detailed BIM to work from.
About Laser Scanning
Examples of High Definition Laser Scanners Implemented by COASTWAY
HDS Scan Station 2 Time of Flight Scanner
HDS 6000 Phase Based Scanner
Faro Focus 3D
Scanner Specifications
• Suitable for Shorter Range & for High Detail • Ultra Fast Data Capture • Quick set-up to scan ability • Scan Range: 1 to 79 metres • Scan Rate: Max. 500,000 points per second • Accuracy
• Position = 6mm, • Distance = 4mm • Modelled Surface = 2mm
• Suitable for Long Range & for Large Areas • Built in Camera for Image Overlay • Scan Range: 1 to 200 metres • Scan Rate: Max. 5,000 points per second • Accuracy
• Position = 6mm • Distance = 4mm • Modelled Surface = 2mm
The HDS6000 has a rotating mirror system that covers a 360 x 310 degree field of view
How Does Laser Scanning Work?
• The Laser Scan Data is accurate to within 2.0mm, and therefore can be used to generate an
accurate record of any building or structure
• A BIM generated from a Laser Scan Survey will reduce risk of errors that would otherwise be
caused by a lack of information from a traditional survey
• Additional information that may be requested from the survey will already be in the scan, and can
be extracted to the BIM, e.g. the position of sprinklers, pipe and duct works, etc.
• Existing problems can be identified and solutions can be proposed, using true values
• Accurate records of a structure can be used to benchmark the performance of the structure over
time
Advantages of Using Laser Scan Technology to Record Information
Advantages of Using Laser Scan Technology to Record Information
• Complex geometry/surfaces
• Where a High Level of Detail needs to be recorded
• Congested, tight fits
• Far away or difficult to access • Non-intrusiveness has benefit (e.g. avoid lane closures)
• Delicate surfaces
• Short windows to collect data
• Unsafe to occupy
Laser Scan Technology To Building Information Modelling Workflow.
How to Produce a Building Information Model from a High Definition Laser Scan?
File Formats Available from Laser Scanning Process
• ASCII Text File of X,Y and Z Points
• TruView Viewing Software and Files
• Point Cloud Data with Cyclone Viewer
• 2D CAD Drawings & Building Information Models
• Modelled Surfaces
• 360° Spherical Panoramic Photography
Building Information Modelling, Drawing is Dead – Long Live Modelling Keith Snook, RIBA Director of Research & Technical, http://www.cpic.org.uk/en/current-projects/bim/building-information-modelling.cfm
“Building Information Modelling is digital representation of physical and functional
characteristics of a facility creating a shared knowledge resource for information about it
forming a reliable basis for decisions during its life cycle, from earliest conception to
demolition.”
• BIM can be implemented to accurately estimate the cost of producing, running, and the lifespan of a facility
• 2-D 2D line work
• 3-D Length, Width, Height
• 4-D Time Scheduling & Sequencing
• 5-D Cost Estimating
• 6-D Life Cycle Management
• 7-D Operations/Maintenance – Lifespan of the building
• An accurate Building Information Model can be used for analysis of the structure, and these results can be used to improve efficiency of the structure
Benefits of BIM
With an accurate BIM of the facility, values for existing passive gains and losses can be calculated. Much analysis of existing and proposed facilities is based on estimated and guessed figures for building and material performance. Results from a thermal imaging camera applied to an accurate BIM can determine the following: • Whether or not strategies implemented will be effective at improving the energy performance of a
proposed building can be calculated by testing a detailed Building Information Model
• Identify existing problems/conflicts and identify solutions – for the present time and the future
• Energy Performance/Audit can be carried out
• Product & Manufacturer’s Information (PMI) can be incorporated, improving efficiency of management of the facility
Scan to BIM to Improve Energy Performance of Existing Buildings
Applications For Laser Scan to BIM
• Heritage and Archaeology
• Architecture and Building
• Asset Management & Mapping
• Site Topographical Recording & Analysis
• Recording Civil Structures, e.g. Rail & Bridge Data
• Performance Analysis via Building Information Scan
• Energy Analysis of Existing Buildings via gbXML
Applications & Benefits of Laser Scan to BIM in Heritage and Archaeology
Applications
• Detailed recording and preserving of ancient monuments, archaeological sites and items of
cultural heritage
• Production of drawings to aid restoration and reproduction work
• 3D data collection for movies, walkthroughs & for virtual tours applications for websites, etc.
Benefits
• Faster, safer, less costly, more accurate, and more complete surveys of complex heritage sites
• Non-contact, remote survey reduces potential damage to sites and improves survey safety
• Reduces site visits needed for data capture
• Full-colour camera options add extra level of information to point clouds for richer analysis
Laser Scan Survey: Famine Memorial, Custom House Quay, Dublin 1
Applications For Laser Scan to BIM in Heritage and Archaeology
Applications
• Producing 2D drawings or 3D CAD models containing the required information
• Internal & External building surveys
• 3D urban modelling & Topographical Records
• Detailed architectural scanning for conservation
• Building Performance & Energy Analysis – Existing & Predictive
Benefits
• Faster, safer, less costly, more accurate, and more complete building surveys
• Minimizes impact on use and operation of the building during survey
• Point clouds combined with full-colour imagery provide powerful, accurate visualization
• Better 3D city visualisation, planning and analysis
• Leverage on Autodesk AutoCAD & Revit, Bentley MicroStation, Rhino & CAD tools
Applications & Benefits of Laser Scan to BIM in Architecture & Building
Laser Scan Survey of Pearse Station, Dublin 2, & CAD Drawing extracted from Scan
Applications For Laser Scan to BIM in Architecture & Building
Thank you for listening!
We welcome your Questions!
For more information log on to
www.coastway.net