Development of Open BIM based Design
Environment for Improving Design Productivity
R&D Project, KAIA(Korea Agency for Infrastructure Technology Advancement in Korea) under MOLIT(Ministry of Land, Infrastructure and Transport in Korea)
Inhan Kim
Vice-President, buildingSMART Korea Professor, Kyung Hee University
Funding Institution:
MOLIT (Ministry of Land, Infrastructure and Transport in Korea)
Leading Research Organizations:
·
Kyung Hee University(01), buildingSMART Korea(02), HanGil IT Co., Ltd(03)
·
With 21 collaborative research organizations
Consist of Three sub-Projects
·
01. Open BIM based Technological Environment for Building Design Quality Enhancement
·
02. Open BIM based Building Design Standard and IT-Infrastructure
·
03. BIM-based Cloud Computing Services and Systems Development
Project Period:
2013. 11. 13 - 2019. 11. 12 (3 + 3years project)
Funding Amount:
Approx. KRW 30,000m ( Approx. USD 28.2m)
Development of Open-BIM based Design Environment for Improving Design Productivity
Improving design productivity based on open-BIM Design Environment.
•
Development of Open-BIM based building permission system
•
Establish BIM Standards and BIM related basis technology
•
Development Open-BIM based collaboration systems
•
Development of cloud BIM based design systems
Project 01.
Open BIM based Technological Environment for Building Design Quality
Enhancement
Project 02.
Open BIM based Building Design Standard and IT-Infrastructure Construction
Project 03.
BIM-based Cloud Computing Services and Systems Development for the
next-generation Design Environment
Development of Open-BIM based Design Environment for Improving Design Productivity
Road BIM
Railroad BIM
Vessel BIM
Plant BIM
AR
IPS Laser ScanLaser Scan
Mobile
BEMS
U-CITY
Dissemination BIM Technology Infrastructure
Help Architectural design firms to focus on only design itself by removing
burden of technology introduction
Advancement of Architectural Design Industry through Intelligent Design spreading
Integration
Standardization
Generalization
Practical Use
Institutionalization
Standard
Infrastructure
Individual
Information
Sharing
Removing
Obstacles
Common
Knowledge
Use
Improvement
in
Collaboration
Core value can be realized through core mission and then set up a goal and vision.
Project Goal and Vision
Innovative quality enhancement to strengthen
competiveness in construction industry
50% reduction of
Permit
Documenting time
30% reduction of
Permit processing
period
50% reduction of
energy analysis
time
Standrad Standardization Rules Logic&Rule Processing Auto Verification Automation Optimized Environment Optimization Integrated Process Integration application Implementation Optimized drawing standard and guideline Precedent projects and templates forBIM standards extracting and
utilizing BIM derived information
Open BIM based Integrated work flow
Open BIM Derived information mgmt system
for permit process
Integration of Permit Documenting work between Arch-Eng Assess criteria and modeling guide
Rules and Rule set management
Automated Governmental Permit
system and Quality verification technology
Automated BIM data assessment Purpose driven BIM data Quality
Assurance end evaluation
Vision
Strategic
Goal
Key
Strategy
Applied
Technology
7
Relationships between Subgoals
1.3 BIM Design Quality Check program Development
(Stand-alone)
1.5.2 1.3.1
BIM design quality assess program-lite
Rule set management module
Seumter Environment
1.5.2
BIM design quality assess program
BIM Design Quality Assess Program
Reports Seumter Quality
Assess Module 1.5.2. A Rule set management module 1.3.1
Rule set management module
Development of building code and rule DB for BIM Design
Quality check automation
1.2 1.1
BIM Quality Level check and guide line development
2.1 BIM Optimized Drawing Standard 2.2 BIM Development of BIM Template
Documents set of permission
Self checking Feed back Open BIM OpenBIM model 3.1 Arch-Eng integrated workflow for building permits OpenBIM model Architects
Seumter Quality Assess
module for approver BIM Model Server
Approver
Result
Rule Set Management Module BIM Design Quality Assess Program-lite
BIM Design Quality Verification program BIM Design Quality Assess Program Template Extraction and Linked Module
Architecture-Engineering Cooperation Support system Building Permission Requirement Check and Input Program
Eco-friend Energy Performance Assess Program BIM Quantity Take Off program BIM rough estimation program 2.3
BIM based Information and Drawing Extraction
Template extraction and linked module
3.2
Open BIM based Collaboration
system
Architecture-Engineering cooperation support system
3.3 Open BIM based automatic checking of requirements and
automated information input methodology
Approval requirement check and input program
1.4
BIM Quality verification programs for Energy and Cost
Eco-friend energy performance assess program
BIM Quantity Take Off program
BIM rough estimation program
1.5.1
Quality Verification Program and Rule DB
BIM Quality Center
Building Code and Rule DB (Rule DB)
BIM Quality verification for permit submission
BIM design quality verification program
Data Flow Diagram
Seumter Environment(Current 2D based Building Permission System)
BIM quality verification guideline and principles and quality measurement methodologies
BIM quality center
Building Code and standard Ruleset DB
(Rule DB) development of objective quality
verification system in Seumter
Open BIM based Approval requirement check and Required information Automated input system
Rulesystem management module Seumter quality check
module
BIM Model Server
Result Report
NOTIFY
SUBMIT
REPLY
NOTIFY
Sub Project 1. Open-BIM based building permission system
강남구청
한국시설안전공단
국세청 에너지관리공단
1. Development of BIM Standard Information Framework
• The project will develop BIM information standard in Korea
• The standard will be loaded (embedded) in BIM libraries and technical contents to be disseminated to
the Architects and Engineers in building industry in Korea.
• The standardized library and technical contents will enable one single BIM data to be used for multiple
purposes (regulation verification for Architectural Administration System, standard drawing sets,
design quality checking, energy analysis, structural calculation interface for library creation, QTO, cost
estimation, delivery to Public Procurement Service, and so on)
2. Development of BIM Library and Technical Contents
• The library will be developed for about 3,000 architectural, structural, electrical, mechanical and others.
• The technical contents will provide the information of material, unit cost, standardized details and
others, so that they are connected and used for multiple purposes.
3. Development of BIM Knowledge Information
• Knowledge to use BIM effectively for the companies which have already adopted BIM software
• Knowledge to introduce BIM software easily for the companies which have not adopted BIM yet
4. Development of National BIM Policy and System
• Research on the policy and system for effective BIM adoption at national and industry level
• Suggestion and reflection of the resulting policy and system to the nation
Goals
BIM IT Architecture
Standard
Technical
Realization
Policy and
System
Successful BIM
Standard
Infrastructure
Individual
Information
Sharing
Removing
Obstacles
Common
Knowledge
Use
Improvement
in
Collaboration
1. Development of
BIM Standard
Information
Framework
2. Development
of BIM Library
and Technical
Contents
3. Development of
BIM Knowledge
Information
4. Development
of National BIM
Policy and
System
Integration
Standardization
Generalization
Practical Use
Institutionalization
Vision
Materials, SW Business and so on Application Libraries Application Knowledge Common Library Contents Common Knowledge National System Common SW
SW Developer, Nation R&D Research Organization, etc.
Construction
Maintenance
Design Private
Development
Application SW National System, R&DDesign Research
Development
Standard
Dissemination BIM standard and technology as public property
1. Develop BIM service technology based on the low cost/high efficiency cloud computing
• Develop repository function for multiparty remote collaboration with construction design information • Develop BIM viewer of the cloud computing system for the construction worker
• Develop virtualization technology to minimize purchasing and maintenance cost for the computer • Develop resources management technology to support massive BIM data based on cloud computing
• Develop information exchange technology for design and engineering data between different BIM authoring tools • Develop Cased based Design supporting system by using a similar BIM data
2. Commercialization through the test bed after developing BIM service based on the cloud
computing
• Derivation of BIM service based on the cloud computing through the preceding research and survey of worker • Develop web portal system to provide multiparty remote collaboration and project operation in the stage of planning
and design phase
• Develop cloud computing BIM service for the practical usage of BIM data in the construction stage based on requirements of worker
• Execution of test-bed on the AIS(Architectural Information System) service • Promoting commercialization by conducting site project
3. Environment establishment of BIM ecosystem for the small and medium design office
• Develop collaboration services and operating environment for the small and medium design office based on BIM server and viewer
• Develop measurement technique and billing system of resource usage for supporting reasonable service cost • Deduction of Institutional support plan for dissemination and diffusion of system
