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DoDAF Training – DoDAF 2.02 Migration Training

DoDAF Training – DoDAF 2.02 Migration Training

DoDAF Training – DoDAF 2.02 Migration Training:

DoDAF Training – DoDAF 2.02 Migration Training Course – Hands-on

DoDAF Training – DoDAF 2.02 Migration Training by ENO: Department of Defense Architecture Framework (DoDAF) version 1.5 and 2.0: The Department of Defense Architecture Framework (DoDAF) defines a standard way to organize an enterprise architecture (EA) into complementary and consistent views and models. Our DoDAF training Bootcamp covers both DoDAF 1.5 and migration to DoDAF 2.0.

Department of Defense Architecture Framework (DoDAF) Training

In our hands-on 3-day DoDAF Training – DoDAF 2.02 Migration Training course you will use our comprehensive methodology to create operational, technical, and systems architecture views and products consistent with the DoDAF and DoD procurement and acquisition guidelines. Attendees will apply DoDAF compliance concepts, models, and principles to design their own Compliant system. This DoDAF training also covers NCOW, GIG, and JCIDS.

The 3-day hands-on DoDAF training workshop teaches the students the skills to develop DoDAF viewpoints including capability, project management, operational, technical, systems, services, and technical viewpoints with the DoDAF 2.02 guidelines. In the workshops, you will apply DoDAF 2.02 compliance concepts and principles to design your own DoDAF-compliant viewpoints applying to your system. All the DoDAF 2.02 viewpoints will be shown.

Topics Covered:

  • Enterprise Architecture and DoDAF 1.5 and 2.0
  • Architecture Framework Version 1.5
  • DoDAF All View (AV)
  • DoDAF Operational Views
  • DoDAF Systems Views
  • DoDAF Technical Standards Views
  • Modeling Enterprise Architecture (EA) with DoDAF
  • Architecture Framework Version 2.0- Working with DoDAF 2.0
  • Architecture Framework Version 1.5 and 2 Workshops

What’s Included?

  • 3 days of DoDAF Training – DoDAF 2.02 Migration Training with an expert instructor
  • DoDAF Training – DoDAF 2.02 Migration Training Electronic Course Guide
  • Certificate of Completion
  • 100% Satisfaction Guarantee


Related Courses

Customize It:

  • If you are familiar with some aspects of the DoDAF Training – DoDAF 2.02 Migration course, we can omit or shorten their discussion.
  • We can adjust the emphasis placed on the various topics or build the DoDAF Training – DoDAF 2.02 Migration Training course around the mix of technologies of interest to you (including technologies other than those included in this outline).
  • If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the DoDAF Training – DoDAF 2.02 Migration Training course in a manner understandable to lay audiences.

Audience / Target Group:

The target audience for this DoDAF – DoDAF 2.02 Migration course is defined here:

  • Anyone who is interested in leading architecture development projects or is interested in DoDAF including System, Software, Solution, and Application Architects, and Engineers. Enterprise Architects, Executives, Managers, and Team Leaders, CIOs and Senior IT Management, Information, Data, and Systems Engineers, Business and Systems Analysts, Senior Developers, Contractors Supporting DoD Architecture and Systems Development, Aspiring Architects, Project Managers, Tool Vendors, and Developers, Integrators

Class Prerequisites:

The knowledge and skills that a learner must have before attending this DoDAF 2.02 Migration course are:

• DoDAF Certification, Project-based Hands-on DoDAF Training Courses


Upon completing this DoDAF 2.02 Migration course, learners will be able to meet these objectives:

  • Understand the basic concepts related to Enterprise Architecture (EA)
  • Identify the added value of DoDAF as an Architecture Framework
  • Explore why and how to build an EA
  • Understand the challenges of implementing EA, including the technical and organizational issues
  • Identify the elements of an EA implementation plan
  • Determine specific architectures requirements necessary for your organization
  • Understand similarities and differences between DoDAF and other EA frameworks and methodologies
  • Understand DoDAF Definitions and Guidelines
  • Understand DoD Architecture Framework principles (version 1.5)
  • Understand DoDAF Product Descriptions
  • Understand DoDAF Version 2.0 Introduction, Overview, and Concepts
  • DoDAF Version 2.0 Architecture Data and Views
  • DoDAF Version 2.0 Meta-model Physical Exchange Specification

Course Syllabus:


  • Business Enterprise Architecture
  • Architecture Overview
  • Overview of the Enterprise Architecture (EA)
  • Department of Defense Architecture Framework (DoDAF) Principles
  • Policies and Requirements for the DoD Architecture Framework
  • The USA Defense, C4ISR Architecture Framework
  • C4ISR or Command, Control, Computers, Communications (C4), Intelligence, Surveillance, and Reconnaissance (ISR)
  • Overview of DoDAF 1.5
  • Migration to DoDAF 2.0
  • Overview of C4ISR (command, control, communications, computers, intelligence, surveillance, and reconnaissance) Framework
  • Differences between Systems Engineering (SE) and Enterprise Architecture (EA)
  • Policies that Drive the Requirements for the DoD Architecture Framework
  • DoDAF methodology, metrics and comparison tools


  • How to Use the Architecture
  • Facilitating the Use of Architecture
  • Governing, Maintaining, And Managing Architectures through Data
  • DoD Architecture Framework Design and Development Tools
  • Data-Driven Requirements
  • All View (AV) with two work products
  • Operational View (OV) with seven work products
  • Systems View (SV) with 11 work products
  • Technical Standards View (TV) with two work products


  • AV-1
  • AV-2


  • OV-1: Operational concept
  • OV-2: Senders and receivers
  • OV-3: Information exchanges
  • OV-4: Who participates
  • OV-5: Tasks
  • OV-6: Mission performance
  • OV-7: Logical data model


  • SV-1: System interfaces
  • SV-2: Communications
  • SV-3: Systems matrix
  • SV-4: Functions
  • SV-5: Performance
  • SV-6: System exchanges
  • SV-7: Performance parameters
  • SV-8: System evolution
  • SV-9: Technology forecast
  • SV-10: System-level threads
  • SV-11: Physical schema


  • TV-1: Current protocols
  • TV-2: Future protocols


  • Modeling methods for DODAF Representations
  • DoDAF and UML 2
    • UML 2 as the architecture description language for DoDAF
  • DoDAF with SysML
  • DODAF-based Network Simulations
  • Applying Intelligent Agents to DODAF Models
  • Simulation-Based Acquisition
  • Software Architecture and the DODAF


  • Introduction, Overview, and Concepts
  • What’s New in Version 2.0
  • DoDAF Version 2.0 Architecture Data and Views
  • Understand DoDAF Version 2.0 Meta-model Physical Exchange Specification


  • All Viewpoint
  • Capability Viewpoint
  • Data and Information Viewpoint
  • Operational Viewpoint
  • Project Viewpoint
  • Services Viewpoint
  • Standards Viewpoint
  • Systems Viewpoint
  • Note on Systems Engineering
  • DoDAF Meta-model Groups
  • Support of Viewpoints and DoD Key MAPPINGS TO DM CONCEPT


  • Performers
  • Resource Flows
  • Information and Data
  • Activities
  • Training/Skill/Education
  • Capability
  • Services
  • Project
  • Goals
  • Rules
  • Measures
  • Locations


  • Examples and Exercises of Successful Framework Design
  • Solving Real World Problems
  • Applying DoDAF 1.5 and 2.0
  • Final Group Project


Dr. Eric Honour, CSEP, INCOSE Fellow, has been in international leadership of the engineering of systems for nearly two decades, part of a 40-year career in complex systems development and operation. His energetic and informative presentation style actively involves class participants. He is a former President of the International Council on Systems Engineering (INCOSE). He was selected in 2000 for Who’s Who in Science and Technology and in 2004 as an INCOSE Founder. He has been a systems engineer, engineering manager, and program manager at Harris, E-Systems, and Link, and was a Navy pilot. He has contributed to the development of 17 major systems, including Air Combat Maneuvering Instrumentation, Battle Group Passive Horizon Extension System, and the National Crime Information Center. BSSE (Systems Engineering) from US Naval Academy and MSEE from Naval Postgraduate School, Ph.D. The University of South Australia based on his ground-breaking work on the quantified value of systems engineering

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