Massport BIM Execution Plan
INTRODUCTION
Instructions for Use
BIM Execution Plan Dev elopment
Introduction 1
Introduction
The MPA requires a project specific BIM Execution Plan (BIMxP) to be developed using this MPA BIM Execution Plan Template. This template documents
the project information, roles and responsibilities, tools and communication protocols. The BIMxP also facilitates the identification of BIM specific Lean
Conditions of Satisfaction (CoS), aligned BIM Uses, and LOD. This activity is facilitated by a lean value mapping exercise for overall project Conditions of
Satisfaction. BIM use is a response to the project CoS, and a method of fulfilling project requirements utilizing BIM. The BIMxP is a living document, and will
be accessible, referenced, and updated throughout the project. It is part of the final deliverables of the project. It is the responsibility of the BIM Manager to
coordinate the updating and use of this template.
Goal of the BIMxP:
The goal of the BIMxP is to align Lean CoS goals with BIM Uses, and then determine the most effective BIM development strategy to support the project
decision process, and the most efficient modeling effort for Lean project execution.
Participants:
The design team, the prime BIM Manager and BIM team members, the MPA project manager (PM), the MPA Design Technologies Integration Group (DTIG)
Manager, and other project stakeholders.
BIMxP Contents:
INTRODUCTION & DATA STANDARDS - Project standards, definitions and abbreviations used in projects and the pull down menus in the BIMxP. This
section provides the team standards for the project.
SECTION 1. PROJECT INFORMATION - Project Information, BIM Execution Plan Approval Signatures, and Contacts
This section provides project name, number, contacts. Project Names and Numbers will be supplied by MPA. Any additional information considered
relevant by the PM may be added in this section.
SECTION 2. COLLABORATION PROCEDURES - Meetings, Activities, IT Infrastructure, & Model Submissions
This section provides the strategic and technical procedures for BIM collaboration. This includes model strategy and sharing procedures, model
infrastructure, and model submissions. This information is the primary responsibility of the prime BIM Manager in conjunction with the Discipline BIM
coordinators. The Model Submission is a jointly reviewed (MPA and BIM Manager) time table for model submissions to MPA for project review. There are
three mandatory model submissions during a project, Criteria Definition Model, Design Intent Model Handover, and the Final Submission of the As-Built and
Record Model. Other project specific model reviews and deliveries may be documented in this section. Confirm naming of project phases (i.e., 30-60-90)
SECTION 3. - BIM CONDITIONS of SATISFACTION (CoS)
The MPA PM or a Lean Facilitator will work with the team and stakeholders to define the project Conditions of Satisfaction. Aligned to these project goals
will be BIM specific CoS and BIM actions for execution on the project. This alignment from overall project goals to specific BIM modeling defines the value
stream and the Lean BIM process for a project. The prime BIM Manager participates in the CoS meeting and use Section 3 to identify the BIM CoS and
activities that add value to the project. The BIM Uses are divided into broad project categories. Not all BIM Uses are applicable to a project. The team will
review the automatically identified BIM Uses and rank the priority and final selection.
SECTION 4. - MODEL PROGRESSION - Model Progression, BIM Use Execution, Responsible Parties, and LOD
The Model Progression Worksheet documents the roles and responsibilities, model development, BIM Use execution, and the LOD of model elements. The
LOD is a tracking mechanism for MPA. The LOD for elements will be defined at the beginning of each phase and support the highest requirements of the
BIM uses to be executed during that phase. At the end of the phase the MPA DTIG manager will review the LOD development and BIM Use execution to
determine model progress and adherence to schedule.
PROJECT SUCCESS PLAN
Massport BIM Execution Plan
GENERAL INFORMATION
Reference S tandards, A bbrevia tions
Reference Standards 2
LOD 100
LOD 200
LOD 300
LOD 350
LOD 400
LOD 500
Architecture A Electrical E Mechanical M Sub-Con/Shop SB
Contractor/ Shop Draw Z
Geotechnical B Fire Prot. Eng. F Plumbing P Specialty Consultant SC
Civil C General G Equipment Q Telecom T
Commissioning Cx Interiors I
Resource
R Tenant Tr
Process D Landscape L Structural S Survey/Mapping V
Logan International Airport L Construction C Owner O Aviation A
Worcester Airport W Design D Project Mgr. PM Horizontal H
Hanscom Field H Procurement P Con Mgr. CM Seaport/Bridge S
Maritime M Study/Services S Operations Op Vertical V
Development D Facility Management F Hazardous Hz
Agency Wide A DTI BIM Mgr DTI
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, installation information, and represents as-built condition. Non-graphic information may also be attached to the Model Element.
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.
The Model Element is graphically represented within the Model as a generic system, object, or assembly with approximate quantities, size, shape, location, and orientation. Non-graphic
information may also be attached to the Model Element.
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. Non-graphic information may
also be attached to the Model Element including finishes, details, reinforcement, and loads.
The Model Element is graphically represented within the Model as a specific system, object or assembly in terms of quantity, size, shape, location, orientation and interfaces with other building
elements. Non-graphic information may also be attached to the Model Element.
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. Non-graphic information may also be attached to the Model Element.
Facility Abbreviation
Contract Type Abbreviation
Used in MPA Projects
PM Division Designation
Project Name Project Title
Project Number Number
Project Location Location
Contract Type Chap 149 - Design Bid Build
Contract Status
Name Organization Role Email Phone
Milestone
Estimated Start Estimated Finish Stakeholders Comments
SD
DD 50%
DD 100%
CD 50%
Equipment Procurement
CD 100%
Commissioning
As-Builts Documentation
Record Documentation
Close Out
Project Information
LAST UPDATED: 2018.05.24
Project Schedule Overview
Project Contacts
Design Team
Construction
Owner
MEP Engineer
Structure
Architecture
Plumbing Sub
Fire Protection Sub
Specialty Systems Sub
Electrical Sub
Civil Engineer
Construction Manager
Structural Sub
Mechanical Sub
Information Exchange One-Time or Periodic Frequency Start Date Method of Transfer
Design Model Exchange Periodic Week ly +
Federated Design Review Periodic Week ly +
Subcontractor Model Exchange Periodic Daily + TBD BIM 360 Glue
Federated Sub Clash Reports Periodic Week ly + TBD
Meeting Type Phase Frequency Participants Location
BIM Execution Planning Startup As Needed A,M,E,P,S,C,CM Massport
Design Assist and Coordination Review Design Development / Construction Documentation TBD A,M,E,P,S,C,CM, MEPFP Subs
MEPFP Coordination Construction Administration Weekly A,M,E,P,S,C,CM, Subs GoToMeeting
BIM Close Out Commissioning As Needed A,M,E,P,S,C,CM, Subs
BIM Use Discipline Software
Site / Civil / Under Ground Utilities C Civil 3D
Architecture Design A Revit
Structure Design S Revit
HVAC Design M Revit
Plumbing Des ign P Revit
Electrical Design E Revit
Fire Protection Design FP Revit
Structural Fabrication S-SUB
HVAC Fabrication M,MP-SUB
Plumbing Fabrication PL-SUB
Electrical Fabrication E-SUB
Fire Protection Fabrication FP-SUB
Estimating/Q TO A,S,M,E,P,FP
Coordination A,S,M,E,P,FP BIM 360 / Nav isworks
4D Simulations A,S
Model Name Authoring Company Description/Use
CONTRACT_PROJECTNAME_DISCIPLINE Consultant
PROJECTNAME_DISCIPLINE_LEVEL
Multiple Subcontractor Model
PROJECTNAME_DISCIPLINE_FEDERATED
DOC Construction Coordination Model
.NWF/.NWD
Design Models: *Indicate Central Models
Trade Subcontractor Models:
Authoring File Extension
.RVT
Meeting Protocol
.RVT
.RVT
Model Exchange
.RVT
.RVT, .DWG
Software for Modeling
Model File Naming
Build Number/Service Pack
Stakeholder
MPA DTIG
(Design Technologies Integration
Group)
MPA PM
Others…
Project Conditions of Satisfaction
Ensure meeting between MPA PM, MPA DTIG & Primary Design BIM Team early on to ensure clear and precice
understanding of expectations and requirements that shall be followed throughout project lifecycle
Regular meetings between MPA PM, MPA DTIG, Prime & CM to go over any BIM updates or changes
Deliver to MPA Project Manager & MPA DTIG all files at key project milestones in accordance with MPA standards and
project BIMxP objectives
Ensure quality deliverables of both As-Design and As-Built record files: Revit, CAD, Civil, Navis, Point clouds, PDF, native
contractor files