Upload
others
View
1
Download
0
Embed Size (px)
Citation preview
W E L C O M E T O 2019 r5pp
BIM
Arthur Best Consulting Engineers has been at the forefront of providing comprehensive solution for Building Information Modelling services for Architectural, Structural & MEP. Our experienced team includes BIM Coordinators, Architects, Structural Engineers, HVAC Engineers, Plumbing Engineers, Electrical Engineers and BIM Modelers. We provide professional, personalized and quality services. At the heart of our success lies on the inspiring effort put in by our team from various disciplines, who come together to deliver work that is simply remarkable.
Building Information Modelling or BIM is a digital representation of physical and functional characteristics of a facility. As such, it serves as a shored knowledge resource for information about a facility, forming a reliable basis for decisions during its life-cycle defined as existing from inception onward. The future of the construction industry is digital, and BIM is the future of design and long-term facility management.
ABOUT US
BIM
Quantifying BIM Benefit
We provide building information modelling services using Autodesk Revit platform. We have expertise in software's like Revit Architecture, Revit Structure & Revit MEP. We are able to create pre-construction planning design data for diverse projects with the same family of software. This level of interoperability provides obvious time and cost benefits it also al lows the entire project team to view the impact of their individual designs on those of others and to resolve the conflicts based on this knowledge. In addition to 3D parametric modeling, we provide 4D (time schedule) and SD (cost) BIM services to our clients
BIM Modelling
With our expertise people and most advanced tools, we coordinate all the MEP Services among each other and also with the building model, which is widely used among contractors, engineers and architects.
With our experienced BIM Coordinators we can provide the best MEP BIM Coordina-tion services considering material sav-ings and other stand-alone factors which makes the coordination a difficult task.
Our mission is the Cost and time in-occurred during the Construction Phase. With our advanced coordination techniques we make your construction process easy.
MEP Coordination
Apart from 3D modelling services, we also provide construction management services like 4D Construction Sequencing, 5D Simulation and quantity estimation services
We use Autodesk Navisworks platform to create 4D/ 5D simulations based on the planned construction process.
With the generated sequence the construction planner can simulate the planned process, identifies any potential clashes,
effective material planning & management, improved site utilization planning & coordination with ongoing operations, supply chain management, inventory management etc.
Construction Management
Level Of Development
LOD 100 LOD 200 LOD 300 LOD 400 LOD 500
Concept (presentation) Design Development Documentation Construction Facilities Management
Description: Office chair Width: Depth: Height: Manufacturer: Model:
Description: Office chair Width: 700 Depth: 450 Height: 1100 Manufacturer: Model:
Description: Office chair Arms, Wheels Width: 700 Depth: 450 Height: 1100 Manufacturer: Model:
Description: Office chair Arms, Wheels Width: 685 Depth: 430 Height: 1085 Manufacturer: Miller Sa Model: Solt
Description: Office chair Arms, Wheels Width: 685 Depth: 430 Height: 1085 Manufacturer: Miller Sa Model: Solt Purchase: 18/09/2017
( Only data in RED is useable )
"The Model Element may be graphically represented in the Model with a symbol or other generic representation,but does not satisfy the requirements for LOD 200. Information related to the Model Element ( i.e. cost per square foot, tonnage of HVAC, etc.) can be derived from other Model Elements."
LOD 100 - Conceptual
Users Owner | Architect
Deliverables
• Model
• Generic volume details
• Basic sections and elevations
LOD 100 Conceptual Predesign
"The Model Element is graphically represented within the Model as a generic system, object, or assembly with approximate quantities, size, shape, location, and orientation. Nongraphic information may also be attached to the Model Element."
LOD 200 – Generic Placeholders
Users Owner | Architect | Engineers
Deliverables
• Model
• Generic volume details
• Basic sections and elevations
• Approximate floor plans
• Approximate schedules of doors, windows, walls etc.
LOD 200 Schematic, Generic Placeholders
LOD 300 "The Model Element is graphically represented within the Model as a specific system, object or assembly in terms of quantity, size, shape, location, and orientation. Nongraphic information may also be attached to the Model element."
LOD 300 – Specific Assemblies
Users Owner | Architect | Engineers | Contractors | Subcontractors
Deliverables • Model
• Sections and elevations
• Accurate floor plans
• Accurate schedules of doors, windows, walls etc.
• Ceiling plans
• Accurate Struct. Floor plans sections, elevations etc.
• Accurate MEPF floor plans, sections, elevations etc.
• Coordinated model & drawings issued for construction.
LOD 300 Specific Assemblies Design development
LOD 350 model = LOD300 + interfaces. The global model is particularly suited for the use of the model to support the constructive process. It has the advantage of being easier to develop than the LOD400 but providing more useful information than LOD300
LOD 350 – Hybrid of Specific & Detailed Assemblies
Deliverables • Model
• Sections and elevations
• Accurate floor plans
• Accurate schedules of doors, windows, walls etc.
• Ceiling plans
• Accurate Struct. Floor plans sections, elevations etc.
• Accurate MEPF floor plans, sections, elevations etc.
• Coordinated model & drawings issued for construction.
• Interfaces
Users Owner | Architect | Engineers | Contractors | Subcontractors
LOD 350 Specific & Detailed Assemblies
"The Model Element is graphically represented within the Model as a specific system, object or assembly in terms of size, shape, location, quantity, and orientation with detailing, fabrication assembly, and installation information. Nongraphic information may also be attached to the Model Element."
LOD 400 – Detailed Assemblies
Users Owner | Architect | Engineers | Contractors | Subcontractors | Fabricators
Deliverables • Fabrication Model
• Sections and elevations
• Accurate floor plans
• Accurate schedules of doors, windows, walls etc.
• Ceiling plans
• Fabrication drawings
• Accurate Struct. Floor plans sections, elevations etc.
• Accurate MEPF floor plans, sections, elevations etc.
• Coordinated model & drawings issued for construction.
• Interfaces
LOD 400 Detailed Assemblies Construction stage
"The Model Element is a fieldverified representation in terms of size, shape, location, quantity, and orientation. Nongraphic information may also be attached to the Model Elements. The model is suitable for maintenance and operations of the facility ‘’
LOD 500 – As Built
Users Owner | Architect | Engineers | Contractors | Subcontractors | Fabricators | Facility Management | Maintenance operations
Deliverables • Fabrication Model
• Sections and elevations
• Accurate floor plans
• Accurate schedules of doors, windows, walls etc.
• Ceiling plans
• Fabrication drawings
• Accurate Struct. Floor plans sections, elevations etc.
• Accurate MEPF floor plans, sections, elevations etc.
• Coordinated model & drawings issued for construction.
• Interfaces
LOD 500 As Built
Levels of BIM maturity A building information model is intended to be an interactive single source of information for designers and constructors of buildings, and the facilities managers who will maintain them throughout their lives.
It will centralize many disparate sources of information, with sections, elevations, plans, renders, 3D walkthroughs, specifications, details and technical information and materials embedded in the model.
The levels of development are defined as: Level 0 Unmanaged cad, probably 2D, with paper (or electronic paper) as the most likely data exchange mechanism. Level 1 Managed cad in 2D or 3D format using BS1192: 2007, the British standard concerning the management of construction Information, with a collaboration tool providing a common data environment, possibly some standard data structures And formats. Commercial data managed by standalone finance and cost management packages with no integration. Level 2 Managed 3D environment held in separate discipline BIM tools with attached data. Commercial data managed by an Enterprise resource planning ( ERP ) system. Integration on the basis of proprietary interfaces or bespoke middleware could be regarded as ‘’ pbim ‘’ ( with the p standing for proprietary ). The approach may use 4D program data and 5D cost elements as well as feeding operational systems. Level 3 Fully open process and data integration enabled by web services compliant with emerging IFC/IFD standards, managed by a collaborative model server. Could be regarded as ‘’ bim’’ or integrated bim, potentially employing concurrent engineering process.
3D SCANNING / BIM As built model through laser scan
As built model through laser scan & Asset Management through COBie
THE WORK FLOW
LOD 400 / 500 BIM MODEL AND AS BUILT MODELLING
3D scanning / BIM As built model through laser scan
AS BUILT MODEL
CONSULTANT LOD 300 BIM MODEL
LOD 300 TO LOD 400 UPGRADE
CLASH DETECTION & COORDINATION
DESIGN REVIEW / VISUALIZATION
DRAWING GENERATION
AS BUILT MODEL
6D O & M
Addition of operation and Maintenance information. Incorporating of On-Site Changes during execution. Addition of sub contractor Information
LOD 400 / 500 Model
LOD 300 Model
3D scanning / BIM
'' Laser scanning is a non contact, non destructive technology that digitally
captures the shape of physical object usin a line of laser light '' Converting laser scans to 3D Revit models is an efficient process. The model can be further used for a variety of purposes of drawings, extracting quantities and much more.
Cubes Tower. 3D Scan for Facade
Poin
t clo
ud
4D Demolition sequence Digital preservation model Animations Gaming simulations Design & analysis
3D BIM model 3D model walk through As built drawings, Quantity takeoffs
Examples
Possible use cases ( LASER SCAN TO BIM )
• A renovation project can generate an architectural and structural model using laser scan point cloud model from our scanning team.
BIM FOR FACILITY MANAGEMENT Post construction, the as built BIM data can be used for security, maintenance and renovation purposes. We will populate the assets by feeding in information to all the modelled components about their specifications, locations, manufacturer etc. Relevant information about the components can be added to form a virtual database of development.
Historical modelling
• Existing projects • On Going projects • Demolition projects
Design Phase, Pre Tender LOD 300 Typically not manufacturer specs. Architect / Consultant
Construction Phase LOD 400 Addition of non non graphical data COBie Upgrade subcontract drawings. Ongoing support through execution.
Client handover LOD 500 Field verified LOD 400, BIM Model Hosting O & M Client FM
ADDITION OF INFORMATION
MEP COMPONENTS
3D scanning / BIM
COBie UK 2012
COBie ( Construction Operation Building Information Exchange ) is a data schema for holding and transmitting information around handover to support the client's ownership and operation of a facility.
SEGREGATION OF INFORMATION COBie divides components in two ways:
1. Spatially : Divides the components into spaces by grouping them in zones, floors and areas.
2. Physically : Divides the components according to the product, type and systems.
Facility includes Project, Site and Building Floors are the mandatory spatial structure. Zones are additional functional groupings of spaces. Spaces are the functional locations where maintenance and operation occur. Components are the physical occurrences. Type are mandatory products / types used to organise tasks. Systems are additional functional groupings of components. Spares are the physical and Jobs are the processes used to maintain and operate the asset.
Resources support the processes.
3D scanning / BIM
P01 Registration Registration of assets is required to support accurate audit and reporting. This includes spaces and user zoning. Includes definition of floors, areas, zones for identification of location of components. Similarly all other uses have their intrinsic parameters.
PURPOSE DEFINITIONS
There are various stages which the COBie information can be extracted. For this project, according to the stage of the project, we would be providing the extraction of data at the handover stage. The required information would be collected through approved material submittals and blank asset registers provided to the contractor throughout execution, added in BIM and provided to client at handover stage.
STAGE OF INFORMATION ADDITION
COBie can extract sheets for doors, finishes, room data sheets giving description of fixtures, M & E equipments, approved and installed products & components and systems.
3D scanning / BIM
The information rich BIM model along with the COBie sheet can act as a platform for data exchange with the client appointed CAFM provider. There are various industry standard protocols which are being used presently for linking BIM enabled asset registers with the available CAFM systems. This provides a seamless work flow for FM at O&M stage.
Point cloud from Tower to be converted to BIM Point cloud from bridge for BIM modelling for restoration.
3D scanning / BIM
Employer information requirements EIR’s
Asset information tool
Asset management strategy
Contract requirements & Maintenance strategy
Web based CAFM
Based info. Life cycle, Energy & performance Data, operation info, Classification.
Classification, categorization & Hierarchies of Systems & Assets
What, When, How
SLA’s, KPI’s, PMS, Reporting, Service management, Maintenance regime Standards
Management of assets, Facilities, Contracts and Service delivery.
BIM
Direct data exchange
DATA
Ftp or web service
CAMF SYSTEM VENDOR