This document discusses Building Information Modeling (BIM) and its uses in the Architecture, Engineering, Construction (AEC) industry. It outlines the key stakeholders in AEC projects and the challenges currently faced. It then introduces BIM as a solution, describing the BIM process across the project lifecycle from conceptual design to operations and maintenance. The benefits of BIM adoption for improved coordination, cost estimation, scheduling and overall project delivery are also highlighted. Standards and guidelines for BIM implementation from organizations like ISO are mentioned.
Building information modeling (BIM) allows project teams to visualize, simulate, and analyze a building design using a 3D parametric model before construction begins. This model represents all physical and functional aspects of the building and enables seamless sharing of information throughout the project lifecycle. BIM facilitates improved coordination, identification of issues, and changes between owners, architects, engineers, and contractors compared to traditional document-based approaches. It also supports increased prefabrication, construction planning, and post-occupancy facility management.
presentation by Paul Wilkinson to CIMCIG BIM conference, Building Centre, London WC1 on Wednesday 25 April 2012.
Presentation explains what BIM is (and isn't), and outlines why it has become important in 2012, as the UK construction industry looks to meet a UK Government BIM deadline by 2016.
What does BIM mean for Civil Engineers?Chun Keung Ng
BIM is a norm for the building industry. How about for infrastructures? Some countries are over confident on the implementation of BIM in both building and civil engineering industries. Is the BIM technology for infrastructures mature and easily available? Are the professionals ready for BIM?
Building Information Modeling (BIM) is an integrated software that simulates the entire construction design process, including materials, boundaries, and requirements. BIM manages graphical displays, construction details, and data, allowing architects and engineers to easily create drawings, reports, and analyze designs. It simulates infrastructure in a few clicks and empowers facilities management and material purchasing. BIM eliminates data redundancy, supports standards, and saves costs through interconnected digital design. It helps track asset management, construction sequencing, information sharing, and ensures all stakeholders have up-to-date information to implement BIM throughout the construction process.
In this presentation, a quick but comprehensive introduction to Building Information Modeling (BIM) is provided, aiming at showing the benefits of BIM for all the actors of a construction project.
This document discusses Building Information Modeling (BIM) and its use for the Masdar City project in Abu Dhabi. It provides an overview of BIM and its process, challenges of implementing BIM in India, and how BIM supported the sustainable design of Masdar City. BIM enabled complex design coordination and construction planning, as well as ongoing performance analysis of Masdar City's energy usage and carbon footprint. The document references several sources on BIM and sustainable design.
Keynote Speech
Mr. Kevin POOLEChairman, Committee on Environment, Innovation and Technology, Construction Industry Council
HKIPM‐HKIBIM Joint Conference: BIM in Project Management
Details of Conference
Date: 2‐Apr‐2014 (Wed)
Time: 2:00 pm – 5:00 pm
Venue: Chiang Chen Studio Theatre – The Hong Kong Polytechnic University
Organizers:
Hong Kong Institute of Project Management (HKIPM)
http://www.hkipm.org.hk/
The Hong Kong Institute of Building Information Modelling (HKIBIM)
http://www.hkibim.org
Sole Sponsor:
建造業議會 - Construction Industry Council
http://www.hkcic.org/
The document discusses BIM (Building Information Modeling) levels of definition (LOD) and information delivery standards. It provides examples of increasing levels of information included in a 3D model of an office chair from conceptual stages to construction and handover. Standards discussed include PAS 1192-2:2013, which defines LOD requirements in the UK. The goal is providing the right information in the right format to project stakeholders at the appropriate time.
BIM (Building Information Modeling) is an intelligent 3D model-based process that allows AEC professionals to plan, design, construct, and manage buildings more efficiently. BIM gets people and information working together effectively through defined processes and technology. BIM was brought to wide attention in the UK in 2011 and adoption has increased since, though more development is still needed. BIM reduces rework, improves productivity, reduces conflicts during construction, and allows clash detection to avoid rework. BIM supports collaborative working through shared files and inter-disciplinary access to work-in-progress. Autodesk Revit is a key BIM tool that supports architectural design, MEP, and structural engineering for collaboration across the project team
BIM awareness develops in stages from understanding BIM as an intelligent 3D CAD model, to a model with embedded data, to a process for managing building information, and ultimately knowledge management. The stages progress from seeing BIM as a model to a management process to knowledge sharing.
In this presentation I gave one overall overview about BIM workflow for Construction and D&B companies.
BIM is not a tool, BIM is not a software, BIM is a way of thinking about the project and put together processes to exchange information during the entire lifecycle.
This presentation is mainly focused on Autodesk platform but is applicable to many other solutions.
Building Information Modeling (BIM) allows architects, designers, engineers, and contractors to collaborate more efficiently on a construction project using 3D models. By working from the same BIM models, a project can be designed, built, and managed with greater accuracy and efficiency compared to traditional 2D documentation. Making manufacturer's BIM content available enables architects and designers to more easily use their products, which can increase sales for the manufacturer.
1) Building Information Modeling (BIM) is a process that generates and manages building data throughout the lifecycle of a construction project using 3D modeling software.
2) BIM allows all project stakeholders to visualize, simulate, and coordinate designs in real-time, improving productivity in design and construction.
3) BIM provides greater project insight through analysis of costs, schedules, and constructability which enables prompt response to changes and more efficient processes.
BIM Building Information Modeling is much more than model creation, it is human and software collaboration through large volumes of construction data that is communicated at every point in the development life-cycle for a project(s).
- Building information modeling (BIM) is a process that involves creating and managing digital representations of physical and functional characteristics of buildings.
- BIM adds the 4th dimension of time and 5th dimension of cost to a 3D model, allowing analysis of how a facility will be planned, designed, constructed, and operated.
- BIM provides various benefits such as improved coordination, visualization, productivity, cost savings, and reduced project time. It also enables simulation and analysis of building performance.
Guest Lecture: "BIM & Sustainability" for the MSc. BIM & Integrated Design Summer School 2016. University of Salford, Manchester, United Kingdom
Covers:
1. Sustainable Design
2. BIM for Sustainable Design Decision Making
3. BIM for Sustainable Design Compliance (BREEAM example)
4. BIM for Sustainable Design Performance (Passivhaus example)
BIM for Construction provides an overview of building information modeling (BIM) for the construction industry. It discusses how BIM enables more collaborative, proactive, and predictable processes compared to traditional analog methods. BIM allows all project stakeholders to explore a project digitally before construction through visualization, analysis, documentation, fabrication, and building simulation. Implementing BIM can reduce costs from fewer errors and changes, improve safety and quality, and provide facilities management benefits through its use over the entire building lifecycle. The presentation covers BIM technologies, applications in design, construction, and operation, as well as benefits for key disciplines like architecture, structure, and MEP.
This document discusses Building Information Modeling (BIM) and its benefits throughout the different phases of a building's lifecycle. BIM is a process that involves creating and managing digital representations of physical and functional characteristics of buildings. The document outlines the history of BIM and explains how it supports integrated project teamwork and decision making from design through construction, operations, and management. Key software that supports BIM implementation is also mentioned.
The document discusses Building Information Modeling (BIM) and the Revit software. It provides information on the BIM process, how BIM differs from traditional 2D CAD by allowing for the creation of 3D models using objects like walls and doors. It also summarizes the author's experience working on BIM projects in the Middle East and advantages of using BIM like improved collaboration and reducing project risks and costs.
Human: Thank you for the summary. Here is another document. Please provide a 3 sentence or less summary.
[DOCUMENT]:
BIM Implementation Guide
Chapter 1: Introduction to BIM
What is BIM?
Building Information Modeling (BIM) is
Burraq Engineering Solutions is an online learning platform that offers Revit Online Training. There are many instructors on Burraq that offer Revit courses, so you can choose the course that best suits your needs and budget. Building information modelling (BIM) software called Revit was created by Autodesk. It enables architectural designers, engineers, and construction specialists to generate and manage 3D models of structures and MEP (mechanical, electrical, and plumbing) systems. For creating and modelling different building components like walls, floors, roofs, doors, windows, and stairs, Revit offers capabilities. Also, depending on the building model, users may generate and manage plans, quantities, and cost projections.
What is the role of revit 3 d modelling in constructionArpitGautam20
Know about Revit 3D modelling, its role and exciting advantages in construction & building design for architects, contractors and construction professionals. https://rdttech.co/what-is-the-role-of-revit-3d-modelling-in-construction/
Building Services & Civil Engineering Quantities (M5) - (Group Assignment) - BIMYee Len Wan
This document provides information on building information modeling (BIM) software and techniques used for a university course project. It introduces BIM and discusses its benefits and applications. It also summarizes 3D modeling software Revit and CostX, outlining their pros and cons. The document includes plans and specifications for a building project and references used.
The document discusses and compares four BIM QS computer software: Revit, CostX, Cubicost, and Buildsoft. It provides an overview of the functions and limitations of each software. Revit is an all-in-one BIM software for architectural design, MEP, and structural engineering. CostX is a project costing tool that supports BIM and enables paperless estimating. Cubicost provides an integrated BIM solution and includes specialized software for architecture/structure, rebar, and MEP takeoffs. Buildsoft focuses on project management but details are limited. The document serves as a guide to selecting BIM software for quantity surveying.
This document discusses the use of Building Information Modeling (BIM) in construction projects. It covers the various dimensions of BIM from 3D to 7D modeling. 3D BIM allows for visualization of the design and clash detection. 4D BIM adds a time component to show construction scheduling. 5D BIM integrates cost estimating. 6D BIM facilitates energy analysis. 7D BIM supports facility management over the lifetime of the building. Each dimension of BIM provides benefits like improved coordination, cost savings, and sustainability to construction supply chain management. However, implementation also faces challenges such as software limitations and increased costs.
BIM means a multitude of things to a myriad of stakeholders, companies, and geographical locations, based on multiple factors.
However, from a holistic viewpoint, the meaning we append to and the expectations we have of BIM are not as important as the connection that BIM brings when properly deployed with cloud-based solutions; thus, filling so many inefficiency gaps.
This is the era of Connected Construction and there has been an increased need for remote collaboration across every industry.
For whatever reason you implement Digital Transformation in your practice, you will most likely reap more benefits in the long run, if you can collaborate and connect with the other stakeholders across your projects.
The document provides an overview of 4 BIM software programs - Solibri Model Checker, Autodesk Revit, BIMMeasurement, and CostX - that would aid quantity surveyors.
It summarizes the key functions of each software, including model checking, visualization, measurement, scheduling, and cost estimation capabilities. It also notes limitations such as setup costs, training requirements, and inability to detect rebar or show window locations in 3D views.
Additionally, the document compares the benefits of BIM, CAD, and manual measurement across construction project stages from preparation to construction and beyond.
This document provides information about a networking event hosted by Microdesk to discuss transitioning to building information modeling (BIM). The event featured a presentation by Clarke Morrison from Microdesk on keys to a successful BIM implementation. Morrison discussed benefits of BIM such as increased collaboration and efficiency. Morrison also demonstrated Insight 360, a cloud-based energy simulation tool, and rendering tools. Microdesk provides BIM consulting and training services to help architecture, engineering and construction firms adopt BIM.
This document discusses the benefits of 3D BIM modeling for engineering projects, specifically for hospital buildings. It provides an overview of how 3D BIM modeling allows architects and designers to visualize and experience designs in a virtual environment before construction. This enables issues to be identified early and designs to be modified efficiently. The document also reviews literature that demonstrates how 3D BIM modeling speeds up the design process, improves coordination and documentation, and facilitates cost estimation and scheduling. Revit is highlighted as a BIM software that further improves the design, drafting, and modeling process through precision and efficiency.
Construction Supply Chain Management (Group Assignment) - BIM 7DYee Len Wan
This document provides an overview of Building Information Modeling (BIM) and its dimensions. It discusses 3D, 4D, 5D, 6D, and 7D BIM. 3D BIM refers to the visual or geometric component of the model. 4D BIM adds time as a dimension by linking the 3D model to a construction schedule. 5D BIM incorporates cost information. The document describes the benefits and challenges of BIM as well as software used for 4D modeling.
BIM is a model-based process that supports planning, design, construction and management of buildings. The model serves as a shared knowledge base throughout a building's lifecycle. BIM generates value through collaboration between people, processes and technology. It involves different stakeholders working together on a model from concept to construction. Software like Revit is commonly used, allowing collaboration in a 3D model. This improves decision making, quality and reduces risks.
BIM Dominating The Future of Architectural Design.pptxTop BIM Company
Building Information Modeling technology supports architects throughout the design process. Architects use Building Information Modeling (BIM) throughout the design process to help improve quality and accelerate design processes with integrated workflows for concept design, modeling, multidiscipline coordination, and construction documentation.
To know more about Architectural BIM Design, visit our website: https://www.topbimcompany.com/architectural-bim-services/
5 reasons why bim adoption is important for architectsArpitGautam20
Here are 5 pressing reasons why BIM adoption is important for Architects. Read on to know the exciting benefits that BIM brings for Architects. https://rdttech.co/5-reasons-why-bim-adoption-is-important-for-architects/
2D CAD, 3D CAD, BIM, and VDC for Seamless AEC Project Lifecycle ManagementMichael William
Uncover the dynamic synergy of 2D CAD, 3D CAD, BIM, and VDC in revolutionizing the AEC project lifecycle management process. Gain insights into how these innovative technologies facilitate comprehensive project planning, seamless design implementation, efficient resource allocation, and effective risk management, ultimately driving enhanced productivity and quality within the construction ecosystem.
The Role of BIM in Modern Construction ProjectsTawwabKhan4
In the rapidly evolving landscape of modern construction, the integration of technology has become paramount for success. One such technological advancement that has revolutionised the industry is Building Information Modelling, commonly known as BIM. With its digital representation of the physical and functional characteristics of buildings, BIM offers a transformative approach to construction projects.
In this article, we take a look at the significance of BIM, exploring its importance and the multiple levels or stages it encompasses. We will also uncover the role of precision engineering in constructing stronger and more sophisticated buildings.
Understanding the Power of BIM: A Digital Revolution in Construction
At its core, Building Information Modelling (BIM) is a digital representation of a building’s physical and functional attributes. It encompasses a wide range of information, including architectural, structural, mechanical, and electrical details, all stored in a centralised database. This comprehensive model serves as a shared knowledge resource for all stakeholders involved in a construction project.
BIM is a game-changer in the construction industry due to its ability to enhance collaboration, improve communication, and streamline workflows.
Building Information Modeling (BIM) uses 3D models and consistent data to improve project insight for cost, schedule and constructability. BIM provides greater collaboration and enables prompt response to changes. The document discusses the importance of BIM, latest BIM software tools like Revit and AutoCAD, and the need to study and apply advanced BIM tools. It explains what BIM is, its methodology, evolution, characteristics, uses in design, construction and facility management. Barriers to BIM implementation and tools like 3DS Max, Revit and Maya are also summarized.
The document discusses Building Information Modeling (BIM) and its various dimensions ranging from 3D to 7D modeling. It provides details on the services, software, advantages and disadvantages of each dimension. The 3D model refers to visualization and clash detection. 4D adds a time component for construction planning and scheduling. 5D enables cost estimation and quantity take-off. 6D performs energy consumption analysis during design and operation. 7D covers facility management. The document is a group project report submitted by students for their Construction Supply Chain Management course that analyzes how each BIM dimension benefits supply chain management.
HVAC BIM services are a set of advanced design and engineering solutions that build extremely detailed 3D models of Heating, Ventilation, and Air Conditioning (HVAC) systems using specialised software and tools.
BIMLABS GLOBAL is a leading BIM Service Provider Serving Globally Since 2017 . We are into BIM Services including Project & Resource Outsourcing, Professional Training & Implementation.
We are Partnered with Leading Engineering Technology Vendors Like Autodesk, Bentley Systems, Trimble etc.
Professional BIM Program for Arch | Structural | MEP | Construction BIMLABS GLOBAL
The document announces the third edition of evening professional BIM training programs offered by BIMLABS. It provides details about the 15-day training programs covering BIM for architects, structural BIM, MEP BIM, and construction management in BIM. The new batch is scheduled to start from May 20. It also includes descriptions of the daily sessions for each program and profiles of the Autodesk certified instructors. Registration information such as fees, payment options and contact details are provided at the end.
The document advertises a 2-week online internship program for engineering students organized by BIMLABS Engineering Services. Students from civil, mechanical, and electrical engineering can participate in the program and work on assignments with BIMLABS' technical team. Upon submitting an internship report, students will receive an internship certificate from Autodesk and BIMLABS. The internship covers various topics within civil, mechanical, and electrical engineering, including BIM, CAD, structural design, project management, and more. Interns need to register online and pay a Rs. 2000 fee to participate.
Online Internship for KTU Civil, Mechanical & Electrical Engineering Students. Autodesk Certification for Training & Internship. Starting from April 15, 2020. Key topics are based on BIM, AutoCAD, Dynamo, Infraworks, Structural Engineering,
The document lists the key speakers for a welcome address by the CEO of BIMLABS ES Pvt. Ltd. It includes 11 speakers such as the Operations Advisor for Al Adrak LLC Oman, the Director of Tesseract Innovations Private Limited, representatives from Arth Design Build and C&T Engineers Dubai, the CEOs of Tridax Engineering Services and YSC ES Pvt. Ltd, and BIM experts from BIMLABS ES Pvt. Ltd. and Eurasia.
The Construction Industry around the globe is undergoing a path-breaking technology transformation from CAD to BIM. The Architects, Builders, contractors, Consultants and all related stakeholders in the construction industry are in search of qualified and reliable resources in BIM.
As an Authorized Learning Partner of Autodesk along with our industrial experiences on BIM projects BIMLABS have decided to take an initiative to generate a BIM RESOURCE BANK for providing necessary technical resources to BIM companies in India and Abroad.
Details as follows
•An Assessment will be arranged for the candidates who have proficiency in Revit software.
•Academic Eligibility: Diploma/Degree in Civil/ Mechanical/ Electrical Engineering.
•BIMLABS Technical Team will evaluate the test results and successful students will be added to BIMLABS BIM Resource Bank.
•Placement Support and Assistance will be provided to candidates from BIMLABS resource bank upon our client requirements.
•BIMLABS will provide Guidance and Training for candidates lacking the Essentials of BIM Professional.
https://goo.gl/forms/mEbwSgqUQsqOJVAP2
Development of Chatbot Using AI/ML Technologiesmaisnampibarel
The rapid advancements in artificial intelligence and natural language processing have significantly transformed human-computer interactions. This thesis presents the design, development, and evaluation of an intelligent chatbot capable of engaging in natural and meaningful conversations with users. The chatbot leverages state-of-the-art deep learning techniques, including transformer-based architectures, to understand and generate human-like responses.
Key contributions of this research include the implementation of a context- aware conversational model that can maintain coherent dialogue over extended interactions. The chatbot's performance is evaluated through both automated metrics and user studies, demonstrating its effectiveness in various applications such as customer service, mental health support, and educational assistance. Additionally, ethical considerations and potential biases in chatbot responses are examined to ensure the responsible deployment of this technology.
The findings of this thesis highlight the potential of intelligent chatbots to enhance user experience and provide valuable insights for future developments in conversational AI.
OCS Training Institute is pleased to co-operate with
a Global provider of Rig Inspection/Audits,
Commission-ing, Compliance & Acceptance as well as
& Engineering for Offshore Drilling Rigs, to deliver
Drilling Rig Inspec-tion Workshops (RIW) which
teaches the inspection & maintenance procedures
required to ensure equipment integrity. Candidates
learn to implement the relevant standards &
understand industry requirements so that they can
verify the condition of a rig’s equipment & improve
safety, thus reducing the number of accidents and
protecting the asset.
Response & Safe AI at Summer School of AI at IIITHIIIT Hyderabad
Talk covering Guardrails , Jailbreak, What is an alignment problem? RLHF, EU AI Act, Machine & Graph unlearning, Bias, Inconsistency, Probing, Interpretability, Bias
2. BIMLABS Situated in Kerala, Southern state of India
Autodesk Learning Partner & Member of Indian Green Building Council
Business Areas
BIM Training for Students and Corporates
BIM Implementation Support for Corporates & Organizations
BIM Project Outsourcing
BIM Placement Services
For More Details:
Email info@bimlabs.in | shiju@bimlabs.in
WhatsApp 9744293003, 9745268888
Facebook https://www.facebook.com/bimlabs.in/
Web https://www.bimlabs.in/
Linked In https://www.linkedin.com/company/13390596/admin/
BIMLABS Engineering
Services Pvt. Ltd
5. CHALLENGES
INAEC
INDUSTRY
● Lack of Resources
● Complex design due to various constraints
● Poorly Coordinated Design Documents
● Change orders, revisions and rework
● Delays and cost overrun
● Claims and litigations
● Solid waste (more than 30%)
● Material consumption (30%)
● Energy consumption (42%)
● Carbon Emission
● Design drawings not meet client's expectation
6. TECHNOLOGY
ADOPTION
A recent global report by McKinsey & Company ranked
the Construction Industry as the second lowest (only
ahead of agriculture and hunting) sector to have adopted
technology in their workflow practices.
McKinsey & Company found that large capital projects
typically take 20% longer to complete and are up to 80%
over budget.
8. BUILDING
INFORMATION
MODELING
Building Information Modeling (BIM) is an intelligent3D
model-basedprocessthat gives architecture,engineering,and
construction(AEC) professionals the insight and tools to
more efficiently plan,design, construct,andmanage
buildings andinfrastructure.
BIM is a set of technologies, processes and policies enabling
multiple stakeholders to collaboratively design, construct
and operate a Facility in virtual space
11. CONCEPTUAL
DESIGN
CONCEPTUAL DESIGN
Architect will initiate the design
process with conceptual sketch or
model
In BIM Conceptual model can be
easily generated by conceptual
modelling tool
Preliminary analysis like
sun/shadow, lighting , energy
analysis can be done using these
tools
After the client confirmation this
data can be shared with detailed
design team for design development
Key tools:
Autodesk Formit 360, Sketch UP
etc.
12. PROGRAMMING PROGRAMMING.
Programming is part of modelling
where complex design can be
achieved by programming & visual
programming tools.
Repetitive tasks can be easily
managed by programming
techniques
Python language can easily connect
with these tools
Key Tools: Dynamo Studio,
Grasshopper etc.
13. DETAILED
DESIGN
DETAILED DESIGN.
Once the conceptual design and studies
confirmed ,Detail design of various
disciplines will be initiated by design
team.
Different 3D BIM models will be created
which includes
Architecture Model
Structural model
Mechanical – HVAC
Plumbing Model
Electrical Model
Other Services like firefighting,
Network and Communication,
Security systems
Infrastructure design
Key tools : Revit, OpenBIM designer,
ArchiCAD etc.
14. ANALYSIS
ANALYSIS
Various analysis will executed
with the model and design will
be optimized
Various structural Analysis
Building Energy Analysis
Area Analysis
Lighting Analysis
Clash & Coordination
Testing
After the analysis the design
model will be updated with
design data as per the design
codes
Key tools : Robot Structural,
Staad Pro, Green Building
studio, Navisworks etc.
15. DOCUMENTATION
DOCUMENTATION
Once the design is finalized the data
is ready for construction site and
approval
Various types of documents will be
generated from the model and
shared with various stakeholders
Approval/Submission Drawings
Issue for construction
Fabrication / shop drawings
RFI documents
As built Documents
Each document will be generated
from the 3D BIM model by making
required updates in the model not in
the 2D CAD drawings
Key tools: Revit, OpenBIM designer
etc.
16. FABRICATION
FABRICATION
Here the construction process
begins
With the design data manufacturing
of various modules will be executed
Door, Windows, Joineries
Structural modules
MEP modules
Other pre fabricated modules
fabrication tools can generate CNC
data and that can ease the
fabrication process
Key tools: Autodesk MEP
Fabrication tools, Advance Steel,
Revit
17. CONSTRUCTION
4D/5D
CONSTRUCTION 4D/5D
Project Management activities will
be done during these stages and
various analysis with Time, Cost &
Resources will be executed
Created 3D BIM model will be
Connected with PM data and 4D
simulation will be done
Time, Cost , Materials, Machines
and Resources will be managed
effectively and construction will
executed as per the PM schedule
Key tools: Primavera, Navisworks,
Synchro etc.
18. CONSTRUCTION
LOGISTICS
CONSTRUTION LOGISTICS
Construction Management will
be managed by Connected BIM
Apps.
Design Model and PM data can
be accessed by Mobile Apps at
site and various construction
management activities will be
addressed by zero-time delay
Documents Management
Field Management
Safety Management
Coordination
Quality Management
Key Tools : BIM 360 Apps
19. OPERATION &
MAINTENANCE OPERATION &
MAINTENANCE
BIMofferseffectivesolutionsfor
operationandmaintenance ofthe
building.
UpdatedBIMmodelwithallfielddatais
thekeyforthesmooth functioning of
Operation&Maintenance department
KeyTools:BIM360Apps
20. BIM technology vendors
There are hundreds of BIM software available in the
AECO market. It is very much essential to get a big
picture on these existing solutions and select the right
set of BIM tools for AECO sector projects. It is important
to consider factors such as software functionality,
adequacy, simplicity, interoperability, compatibility,
neutrality etc. While selecting the BIM tools for our
projects. BIM software that help us in modeling,
planning, estimating, several types of analysis,
construction tracking & monitoring, facility maintenance,
building automation, demolition and recycling are being
developed by different technology vendors as listed
below. Current trend is towards developing BIM tools,
plug-ins and add-ons that fit for integrated BIM
projects.
Trimble
Nemetschek
Dassault systems
Trelligence Ansys
Cubus software
Cype
Midas information
technology
Bentley systems
Flu Bal
CSI
Arktec
Dial
DesignBuilder
IES
RIB software
Autodesk
Beck Technology
BIM iberica
Micas Global Group
Innovaya
Microsoft Oracle
Synchro Ltd
Youbim
Viewpoint
Aconex
Itec
Flux
Cl3ver
Kalloctech
ACCA software
Visualarq
BIM vision
RDF
Revizto
Openstudio
Limitless computing
Zimfly
ozPDA
Archibus
4MSAA
CADsoft
STI
Graitec
Structosoft
EcoDomus
Onuma
FMSystems
23. IDENTIFYTHE
DIFFERENCE
Family Types
Type name: 1330x1602mm
Parameter Lock:
ISearch parameters
Value Formula
Author BIMObjectName
ManufacturerName
ManufacturerURL
NBSCertification
NBSDescription NBSReference
Productlnformation Revision
Unic ass2015Code
Uniclass2015Title
Uniclass2015Version Version
NBS
NBS-TRCWindows-WoodW.·=
TRCWindows
https:/ / www.trcwindows.c
www.nationalb imlibrary.c Wood window
units
45 25 99/ 350
https:// www.trcwindows.c
n/ a
Pr_30_59_98_96
Wood window units Products v
.14
="NBS"
="1"
AirPermeability ChildRestr ictor
FrameOptions
FrameStandard
GlassTypeOptions Glaz ng
Glaz ngBeads
PerimeterSpacerBars Sash
SlIProjection SolidBar
TricldeVent at on
WaterTightness Weatherseal
W ind loadResistance
How do manaoe fam ilv tvoes?
Up to 600Pa(class4)
Child safety catch type restr = SS x86 mm
5Sx10Smm
Safety glass, obscured glass=
Doub le slim sightline dout =
External heritage putty glaz = White
perimeter spacer - st = 42 x 4S mm -
standard
SOmm, 60 m m, 70 m m, 80 '= Ovolo 24 x 4S
mm
Through frame tr ickle ventil .= Up to 900Pa
(class 7A) • Thewindow is fully weather,=
Up to 2000Pa(classCS) •
Manage LookupTables
cancel App
OK
x
O..[
28. PROPONENTS
OF BIM
https://www.strvision.com/magazine/advantages-of-bim/
Conflict resolution: potential conflicts can be foreseen in advance and, in this
way, anticipated so that changes to the project and drawing can be made before
the start of it.
Adjust costs as changes occur: the system allows the calculation and estimation
of costs, especially to those that might result in a change in the anticipated
project. The change will not just be related to the drawing but also it will renew
the schedules and estimates.
Speed up design and construction process: BIM has the ability to speed up the
processes, in fact, sophisticated design and projects require time and also a
fast architect needs more time that what a software can do. The program can
fasten the advancement of the drawings of the project.
Reduction in ultimate costs: thanks to the ability of reducing time for
construction, developing costs for changes and managing in advance the cost
of changes.
29. PROPONENTS
OF BIM
https://www.strvision.com/magazine/advantages-of-bim/
Single entry: information needs to be inserted only once, after the first input it
will be available at any time. Moreover, any time a variable is changed the
editing are automatically imported to the relative factors, in this way, once
again a change or information only needs to be input once.
Alternates: considering the easy way of making a change in the system,
owners can ask for more than a single scenario and alternative to have a
complete overview of the change in costs derived from change in factors.
Design optimization: as previously mentioned, for a detailed and outstanding
design an architect need to work for long time, with the software instead such
a result is achieved easily and faster.
Conflict identification and resolution: this is a good opportunity to identify
and clarify locations for running of different procedures. The sole limit is that
the owner must perform the system in the exact location.
30. PROPONENTS
OF BIM
https://www.strvision.com/magazine/advantages-of-bim/
Constructability: from the small picture to the bigger one, it is possible to see
how the details are assembled in the overall building.
Construction sequencing and scheduling: the modification and editing of the
project are all gather; this will allow to always have a complete overview of the
phase of the construction. Moreover, viewing the BIM in 4D will be useful to
maintain the construction project schedule.
Life cycle evaluation: if after the construction any editing are willing to be
made, this will be turned to be easier because of the information collected in
the system. For example, energy calculations can be run using the data of the
building.
Operation simulations: through the software many kind of simulations can be
carried out; they can energize the model to show exhibit and how the model
would be in different situations. Interoperability is a great component of BIM
software.
31. ROI with BIM
The CIFE (Centre for Integrated Facilities Engineering) of
Stanford University run a survey on 32 big projects that use
BIM and identified the advantages. Among those:
Elimination in budget change up to 40%;
Precision in costs estimation up to 3%;
Decrease up to 80% of the time needed to generate
an expenditure quote;
Saving of up to 10% in the value of the contract
trough clash detections;
Time saving up to 7%.
33. BIM MATURITY LEVEL
No Collaboration
2D CAD drafting is used
Output and distribution
is made in paper or
electronic mix or both
Level 0
Mixture of 3D CAD for
concept and 2D for
drafting for statutory
approval documentation
and production
information
Electronic sharing of data
is carried out from
common Data
environment
No collaboration
between the disciplines
Level 1
Distinguished by
collaborative working
All parties use their own
3D CAD models
Collaboration comes in
form of how the
information is exchanged
between the parties
Design information is
shared through common
file format
Level 2
All parties can access and
modify that same model,
and the benefit is that it
removes the final layer of
risk of conflicting
information.
This is known as OPEN
BIM
Level 3
36. ISO/WD 12006-3 Building construction -- Organization of information about construction works -- Part 3: Framework for
object-oriented information
ISO/CD 19650-3 Organization of information about construction works -- Information management using building
information modelling -- Part 3: Operational phase of assets
ISO/CD 19650-5 Organization of information about construction works -- Information management using building
information modelling -- Part 5: Specification for security-minded building information modelling, digital built environments
and smart asset management
ISO/DIS 21597-1 Information container for data drop -- Exchange specification -- Part 1: Container
ISO/DIS 21597-2 Information container for data drop -- Exchange specification -- Part 2: Dynamic semanticsISO/WD TR
23262 GIS (Geospatial) / BIM interoperability
ISO/DIS 23386 BIM and other digital processes used in construction -- Methodology to describe, author and maintain
properties in interconnected dictionaries
ISO/DIS 23387 BIM -- Data templates for construction objects used in the life cycle of any built asset -- Conceptsand principles
BIMSTANDARDSANDGUIDELINES
ISOGuidelines–Underdevelopment
37. ISO 19650-1:2018
Organization and digitization of information about buildings and civil engineering works, including BIM --
Information management using BIM -- Part 1: Concepts and principles ISO 19650-
2:2018
Organization and digitization of information about buildings and civil engineering works, including BIM-- Information
management using BIM -- Part 2: Delivery phase of the assets
ISO/TS12911:2012
Framework for building information modelling (BIM) guidance ISO 12006-
2:2015
Building construction -- Organization of information about construction works -- Part 2: Framework for classification
ISO 12006-3:2007
Building construction -- Organization of information about construction works -- Part 3: Framework for object- oriented
information
ISO 16354:2013
Guidelines for knowledge libraries and object libraries ISO 16739-
1:2018
Industry Foundation Classes (IFC) for data sharing in the construction and facility management industries -- Part 1: Data schema
ISO 16757-1:2015
Data structures for electronic product catalogues for building services -- Part 1: Concepts, architecture and model
ISO 16757-2:2016
Data structures for electronic product catalogues for building services -- Part 2: Geometry ISO 22263:2008
Organization of information about construction works -- Framework for management of project information ISO 29481-
1:2016
Building information models -- Information delivery manual -- Part 1: Methodology and format ISO 29481-
2:2012
Building information models -- Information delivery manual -- Part 2: Interaction framework
BIMSTANDARDSANDGUIDELINES
ISOGuidelines-Developed
38. BIM Projects : Nanjing InternationalYouth Cultural Centre / Zaha Hadid Architects
"The centre is the first completely top-down/bottom-up tower construction in China - starting at street level
and building upwards and downwards in tandem - constructed in only 34 months using ZHA’s expertise and
experience in 3D digital BIM (Building Information Modelling) design and construction management to
reduce the on-site programme by a year to only 18 months."
39. Haier Global Creative Research Centre / DC Alliance + Snøhetta
"The whole course of the project adopts BIM design and carries out all-round discipline
drawing correction to optimize the space quality to the maximum extent and ensure 'just
one time.'"
43. Summer
Internship For
KTUStudents
BIMLABS Engineering Services Pvt. Limited,Autodesk Authorized
Learning partner for CAD, BIM & CAM in Kerala Organizing 2 weeks
Online summer internship for Engineering Students from Civil,
Mechanical & Electrical Engineering affiliated to Kerala
Technological University.
Interns need to work along with BIMLABSTechnicalTeam for the
assignments given and end of the internship they need to submit the
internship report for getting the Internship Certificate.Training &
Internship will be done through Online and the Internship report
should be submitted by Email.
Those who are submitting the Internship report will get an Internship
certificate from Autodesk & BIMLABS
44. Internship
Areas
• Digital Construction with BIM
• Infrastructure Planning & Design
• Visual Programming in Building Design
• Structural Design & Engineering
Preparation of Approval Drawings
• Energy Efficient Buildings
Civil Engineering
• Design of Building Mechanical Services
• Computer Aided Design & Manufacturing
Mechanical Engineering
• Design of Building Electrical Services
Electrical Engineering
45. DIGITALCONSTRUCTIONWITH BIM
Civil Engineering
Introduction to BIM
Workflow & Procedures of BIM
Maturity level & Level of Development
Creating a basic building envelope
Managing clashes and 4D simulation
Internship Project.
46. INFRASTRUCTURE
PLANNING & DESIGN
Civil Engineering
Introduction of BIM in infrastructure
Overview of Infraworks 360
Infrastructure Planning
Overview of Infrastructure design –
Civil 3D
Internship Project.
47. VISUAL PROGRAMMING IN
BUILDING DESIGN
Civil Engineering
Visual Programming-dynamo
Dynamo Concept & Terminologies
Managing Nodes & Scripts
Managing Revit Elements Within
Dynamo
Revit To Excel Data
Internship Project
48. DESIGNOFSTRUCTURAL
ELEMENTS
Civil Engineering
Units & Material Properties
Types of forces & Loads
Bending Moment & shear force
Design codes
Structural planning & design
Positioning of beams& columns, spanning of
slabs, marking frame components, load
calculations.
Internship Project
49. PREPARATION OF APPROVAL
DRAWINGS
Civil Engineering
Basics of Engineering Drawings
Types of Construction documents
Introduction to AutoCAD 2D drafting
Preparation of Building drawings
CAD standards & Approval Drawings
Internship Project
50. ENERGY EFFICIENT
BUILDINGS
Civil Engineering
Introduction to Building Energy Analysis
Conceptual Analysis
Detailed Building Energy analysis
Autodesk Green building studio
Autodesk Insight
Energy Analysis Process
Internship Project
51. DESIGNOF BUILDING
STRUCTURES – ETABS
Civil Engineering
Modeling of Concrete Structures
Modeling of Steel Structures
Analysis of Structures
Post Processing
Design of Concrete Structures
Design of Steel Structures
Design Outputs
52. QUANTITY ESTIMATION
Civil Engineering
Different types of estimates
Standard methods and principles of
measurement International of building
items
Methods of building estimate taking out
quantities
Preparation of Detailed estimates by Center
line method
Preparation of Detailed estimates by Long
wall- Short wall method
Specifications
53. DESIGNOF BUILDING
MECHANICAL SERVICES
Mechanical Engineering
Introduction to MEP
Application of BIM in MEP designing
MEP BIMWorkflow
Modelling of HVAC Building Systems
Modelling of Plumbing Systems
Internship Project.
54. COMPUTERAIDED DESIGN &
MANUFACTURING
Mechanical Engineering
Introduction to CAD, CAM & CAE
Product Design cycle
Part Modelling with Autodesk Inventor
Assembly Modelling with Autodesk Inventor
2D Documentation
Conversion of Parts to BIM Model
Internship Project.
57. Training from BIMLABS
Interns can choose theirTopics from
the given list.
BIMLABS faculties will be providing
the required training and assistance
for completing the project through
online platforms.
Electronic and online training
materials required for the
internship will be provided by
BIMLABS
Internship Report should be
submitted to the assigned
Instructor and approval of the same
by the instructor is mandatory for
Issuing Internship Certificate
58. Guidelines for Interns This program demands interns' interest and enthusiasm in exploring the latest trends
in concerned areas.
Interns need a Laptop or Desktop with a 64-bit Operating system compatible to
install Autodesk Revit, Inventor Professional or Fusion 360.
This is not a tool-based software training program but it’s an exploration of the latest
technology and its application in the industry.
The internship report can be used for your course seminar and also it can be
developed for a course project in the future.
Internship Report can be prepared by required PowerPoints, Datasets, References,
case studies whichever applicable.
59. CONSTRUCTION MANAGEMENT IN BIM
14 Day Online Training
Module Software
Architectural Modelling | Landscaping
Documentation | Estimation
Construction Modelling | Visualization
Multi Disciplinary Coordination | Work-sharing
Revit Architecture
Structural Modelling | Structural Detailing Revit Structure
Project Review |Clash detection
Quantification |4D Simulation
Navisworks
Project Management Ms- Project
Connected BIM BIM 360