Stevens Institute of Technology
Stevens Institute of Technology, lead university of the DoD funded Systems Engineering Research Center (SERC) located in Hoboken, New Jersey.
Founded in 1870, Stevens is recognized as one of the oldest technological universities in the United States, with more than 5,000 students, assets exceeding $330M and annual research revenue of $29M. Identified as one of the leading providers of Systems Engineering (SE) education in a 2003 study by the NSA, Stevens is considered the largest provider of SE education to the DoD and defense related industries in the nation. To date, the DoD has sponsored more than $18M in Systems Engineering research at the Institute. The strategic importance of SE to Stevens was reinforced in March 2007 when the School of Systems and Enterprises (SSE) was created at the direction of the Stevens Board of Trustees.
Utilizing an open academic model, the Institute leverages partnerships in industry, government and academia to offer highly relevant and engaged SE curricula. Delivered by experienced faculty and practitioners, Stevens’ SE graduate programs bring together the “hard” disciplines of systems and software engineering with the “softer” disciplines of systems thinking, enterprise governance, and enterprise architecting and engineering to deliver an academic experience that is rigorous and relevant.
Projects
- Approaches to Achieve Modularity Benefits in the Acquisition Ecosystem
- Multi-Level Socio-Technical Modeling and Enterprise Systems Analysis
- Enterprise Systems Value-Based R&D Portfolio Analytics: Methods, Processes, and Tools
- Design and Development Tools for the Systems Engineering Experience Accelerator
- System Engineering Experience Accelerator (SEEA)
- Army Systems Engineering Career Development Model
- Systems Engineering Assessment & Workforce Development Plan
- Capstone Marketplace
- Security Engineering – Design Patterns and Operational Concepts
- Systems Security Engineering Roadmap
- Electronic Product Data Management (ePDM) to Improve Design Producibility, Reliability, Availability, Maintainability, and Sustainability
- Communications Effects Server Model
- Graphical Concept Of Operations
- Integration Of Modeling And Simulation, Software Design And Department of Defense Architecture Framework (DoDAF)
- Transforming Systems Engineering through Model Based Systems Engineering-NAVAIR
- Modular Reconfigurable Architecture For Tailored Rapid Systems Engineering Artifact Generation And Dissemination
- A 3-Year Roadmap to Transform the Discipline of SE
- Tradespace and Affordability
- A Complexity-Based Approach To Quantitative Technical Risk
- Quantitative Technical Risk
- Agile SE Enablers and Quantification
- Expedited System Engineering
- Agile-Lean Software Engineering Evaluating Kanban In SE
- Evaluation Of Systems Engineering Methods, Processes and Tools on Department of Defense and Intelligence Community Programs
- Systems Engineering Expert Knowledge (SEEK)
- Helix – Developing Effective Systems Engineers
- Developing Systems Engineering Technical Leadership
- Leadership Development Framework for the Technical Acquisition Workforce
- Mission Engineering Competencies
- Transforming Systems Engineering through Model Based Systems Engineering-CCDC
- Body Of Knowledge And Curriculum To Advance Systems Engineering (BKCASE)
- Assessing SE Effectiveness In Major Defense Acquisition Programs
- System 2020
- Contingency Basing
- System Readiness Level, System Maturity And Architecture Assessment
- Systems Engineering Research Needs and Workforce Development Assessment (Pathfinder)
- Verification and Validation (V&V) of System Behavior Specifications
- Framework for Analyzing Versioning and Technical Debt
- Meshing Capability and Threat-based Science and Technology (S&T) Resource Allocation
- Identifying and Measuring Modularity Violations on Cyber-Physical Systems
- New Project Incubator 2014-2015
- New Project Incubator 2017-2018
- Systemic Security and the Role of Heterarchical Design in Cyber-Physical Systems
- Game-theoretic Risk Assessment for Distributed Systems (GRADS)
- Tools and Methods Framework for Shipboard Power and Energy Systems
- Systems Engineering Business and Analytics
- Digital Engineering Measures
- Safety Assessment Methods for Supercritical Water Oxidation (SCWO) facility at Blue Grass Chemical Agent Destruction Pilot Plant (BGCAPP)
- Digital Engineering Competency Framework
- New Project Incubator 2019-2020
- DAU Credential Development
- Analyzing and Assessing Contracts for Embedded Risk
- Methods to Evaluate Cost/Technical Risk and Opportunity Decisions for Security Assurance in Design
- Quantum Phototonics Tasks for Research
- Design Evaluation, Automation and Optimization Dashboard for Armament and Ammunition
- Intelligent Defense Systems
- Using AI/ML Design Patterns for Digital Twins and Model-Centric Engineering
- New Observing Strategies Testbed (NOS-T)
- Transitioning Mission Aware Concepts and Methods to Evaluate Cost/Risk Decisions for Security
- SERC Research Workshops
- Keyphrase Extraction using Language Embeddings
- Quantum Technologies for Armament Systems
- AIRC: Intellectual Property Evaluation and Valuation Study
- Policy Innovations to Enhance the STEM Talent Pipeline
- DAU – Digital Engineering Simulation
- Policy Options to Promote DoD-Defense Industry Collaboration in STEM Education and Workforce Development
- Learning-Enhanced Autonomous Navigation for GPS-Denied Vehicles
- Enablers to Systems Engineering Modernization
Publications
- SERC-2017-TR-109-Investigating Approaches to Achieve Modularity Benefits in the Acquisition Ecosystem
- SERC-2012-TR-020-1-Multi-Level Modeling of Socio-Technical Systems
- SERC-2013-TR-020-3-Multi-Level Modeling of Socio-Technical Systems – Volume 1
- SERC-2013-TR-020-3-Multi-Level Modeling of Socio-Technical Systems – Volume 2
- SERC-2013-TR-020-2-Multi-Level Modeling of Socio-Technical Systems – Phase 1
- SERC-2015-TR-020-4-Enterprise Systems Analysis
- SERC-2014-TR-041-1-Enterprise Systems Value-Based R&D Portfolio Analytics: Methods, Processes, and Tools
- SERC-2017-TR-107-Design and Development Tools for the Systems Engineering Experience Accelerator
- SERC-2015-TR-105-Developing the Systems Engineering Experience Accelerator (SEEA) Prototype and Roadmap
- SERC-2014-TR-042-2-Army Systems Engineering Career Development Model
- SERC-2014-TR-042-1-Army Systems Engineering Career Development Model
- SERC-2015-TR-042-3-Army Systems Engineering Career Development Model
- SERC-2012-TR-026-1-Systems Engineering Assessment & Workforce Development Plan
- SERC-2011-TR-008-3-Research on Building Education & Workforce Capacity in Systems Engineering
- SERC-2011-TR-008-2-Research on Building Education & Workforce Capacity in Systems Engineering
- SERC-2010-TR-008-1-Research on Building Education & Workforce Capacity in Systems Engineering
- SERC-2012-TR-019-2-Research on Building Education and Workforce Capacity in Systems Engineering
- SERC-2012-TR-019-1-Research on Building Education and Workforce Capacity in Systems Engineering
- SERC-2013-TR-037-2-Systems Engineering Capstone Marketplace Pilot
- SERC-2013-TR-037-1-Systems Engineering Capstone Marketplace Pilot
- SERC-2014-TR-037-3-Systems Engineering Capstone Marketplace
- SERC-2012-TR-028-2-Security Engineering
- SERC-2012-TR-028-1-Security Engineering
- SERC-2010-TR-005-1-Systems Security Engineering
- SERC-2016-TR-113-Electronic Product Data Management(ePDM) MPTs to Improve Design for Producibility, Reliability, Availability, Maintainability, and Sustainability
- SERC-2012-TR-025-1-Communications Effects Server (CES) Model for Systems Engineering Research
- SERC-2010-TR-007-1-Investigation of a Graphical CONOPS Development Environment for Agile Systems Engineering – Phase II
- SERC-2009-TR-003-1-Investigation of a Graphical CONOPS Development Environment for Agile Systems Engineering
- SERC-2013-TR-030-2-Prototype of a Graphical CONOPS (Concept of Operations) Development Environment for Agile Systems Engineering
- SERC-2012-TR-030-1-Prototype of a Graphical CONOPS (Concept of Operations) Development Environment for Agile Systems Engineering
- SERC-2012-TR-024-1-Integration of M&S (Modeling and Simulation), Software Design and DoDAF (Department of Defense Architecture Framework)
- SERC-2014-TR-044-1-Introducing Model‐Based Systems Engineering Transforming System Engineering through Model‐Based Systems Engineering
- SERC-2015-TR-044-3-Transforming System Engineering through Model-Centric Engineering
- SERC-2014-TR-044-2-Transforming System Engineering through Model-Based Systems Engineering (Model-Centric Engineering)
- SERC-2017-TR-101-Transforming Systems Engineering through Model-Centric Engineering
- SERC-2016-TR-109-Transforming System Engineering through Model-Centric Engineering
- SERC-2015-TR-109-Transforming System Engineering through Model-Centric Engineering
- SERC-2010-TR-011-1-Modular Reconfigurable Architecture for Tailored Rapid SE Artifact Generation and Dissemination
- SERC-2010-TR-006-1-Development of 3-Year Roadmap to Transform the Discipline of Systems Engineering
- SERC-2013-TR-039-2-Tradespace and Affordability – Phase 2
- SERC-2013-TR-039-1-Tradespace and Affordability – Phase 1
- SERC-2013-TR-040-3-Quantitative Risk – Phases 1 & 2
- SERC-2013-TR-040-2-Quantitative Risk – Phase 1
- SERC-2013-TR-040-1-Quantitative Risk – Phase 1
- SERC-2015-TR-040-4-Quantitative Risk
- SERC-2016-TR-117-Quantitative Risk – Phase 4
- SERC-2015-TR-049-1-Identification, Characterization, and Evaluation Criteria for Systems Engineering Agile Enablers
- SERC-2012-TR-034-1-Expedited Systems Engineering for Rapid Capability and Urgent Needs
- SERC-2013-TR-022-2-Agile and Lean Systems Engineering (ALSE): Kanban in Systems Engineering
- SERC-2011-TR-022-1-Agile and Lean Systems Engineering: Kanban in Systems Engineering
- SERC-2015-TR-111-Agile Systems Engineering – Kanban Scheduling
- SERC-2017-TR-104-Agile Systems Engineering – Kanban Scheduling Subsection
- SERC-2009-TR-004-1-Evaluation of Systems Engineering Methods, Processes and Tools on Department of Defense and Intelligence Community Programs – Phase II
- SERC-2015-TR-112-Systems Engineering Expert Knowledge (SEEK)
- SERC-2014-TR-038-3-Helix – Phase 3
- SERC-2013-TR-038-2-Helix – Phases 1 and 2
- SERC-2013-TR-038-1-The Helix Project
- SERC-2014-TR-038-4-Atlas: The Theory of Effective Systems Engineers, Version 0.25
- SERC-2015-TR-108-Atlas: The Theory of Effective Systems Engineers, Version 0.5
- SERC-2016-TR-119-The Development of Atlas: The Theory of Effective Systems Engineers
- SERC-2016-TR-106-Atlas 0.6: Expanding on the Theory of Effective Systems Engineers
- SERC-2013-TR-016-3-Developing the Systems Engineering Experience Accelerator (SEEA) Prototype and Roadmap – Year 3
- SERC-2012-TR-016-2-Developing the Systems Engineering Experience Accelerator (SEEA) Prototype and Roadmap – Year 2
- SERC-2011-TR-016-1-Developing the Systems Engineering Experience Accelerator (SEEA) Prototype and Roadmap- Year 1
- SERC-2017-TR-111-Developing Systems Engineering Experience Accelerator (SEEA) Prototype and Roadmap
- SERC-2016-TR-116-Certifying SEEA Compliance with Section 508
- SERC-2015-TR-016-4-Developing the Systems Engineering Experience Accelerator (SEEA) Prototype and Roadmap – Year 4
- SERC-2016-TR-110-Design and Development Tools for the Systems Engineering Experience Accelerator – Part 2
- SERC-2016-TR-102-Systems Engineering Capstone Marketplace
- SERC-2017-TR-108-Systems Engineering Capstone Marketplace
- SERC-2014-TR-013-5-Technical Leadership Development Program – Year 5
- SERC-2010-TR-013-1-Technical Leadership Development Program– Year 1
- SERC-2013-TR-013-4-Technical Leadership Development Program – Year 4
- SERC-2012-TR-013-3-Technical Leadership Development Program– Year 3
- SERC-2012-TR-013-2-Technical Leadership Development Program– Year 2
- SERC-2015-TR-101-Advanced Technical Leadership
- SERC-2016-TR-111-Leadership Development Framework for the Technical Acquisition Workforce
- SERC-2016-TR-107-Advanced Technical Leadership
- SERC-2018-TR-106-Mission Engineering Competencies
- SERC-2018-TR-103-Transforming Systems Engineering through Model-Centric Engineering
- SERC-2017-TR-111-Transforming Systems Engineering through Model-Centric Engineering
- SERC-2017-TR-110-Transforming Systems Engineering through Model-Centric Engineering
- SERC-2015-TR-110-Extending Atlas to Non-Defense Systems Engineers and to Classic Engineers
- SERC-2009-TR-001-1-Early Identification of SE-Related Program Risks
- SERC-2009-TR-002-1-Evaluation of Systems Engineering Methods, Processes and Tools on Department of Defense and Intelligence Community Programs
- SERC-2012-TR-009-2-System 2020-Phase-II
- SERC-2010-TR-009-1-System 2020 - Strategic Initiative
- SERC-2012-TR-033-1-Systems Engineering for Contingency Basing
- SERC-2012-TR-027-1-System Maturity and Architecture Assessment Methods, Processes, and Tools
- SERC-2016-TR-103-Enterprise Systems Analysis
- SERC-2017-TR-106-Enterprise Systems Analysis
- SERC-2018-TR-101-C-Atlas Career Path Guidebook: Patterns and Common Practices in Systems Engineers’ Development
- SERC-2018-TR-101-B-Atlas 1.1 Implementation Guide: Moving from Theory into Practice
- SERC-2018-TR-101-A-Atlas 1.1: An Update to the Theory of Effective Systems Engineers
- SERC-2018-TR-101-Helix
- SERC-2018-TR-102-Systems Engineering Research Needs and Workforce Development Assessment
- SERC-2018-TR-116-Verification and Validation (V&V) of System Behavior Specifications
- SERC-2019-TR-004-RT 194: Design and Development Tools for the Systems Engineering Experience Accelerator – Part 4
- SERC-2019-TR-005-Transforming Systems Engineering through Model-Centric Engineering
- SERC-2019-TR-009-Systems Engineering Capstone Marketplace
- SERC-2019-TR-001-Helix: Developing an Understanding of Organizational Systems Engineering Effectiveness
- SERC-2018-TR-120-Framework for Analyzing Versioning and Technical Debt
- SERC-2019-TR-010-Meshing Capability and Threat-based Science and Technology (S&T) Resource Allocation
- SERC‐2019‐TR‐006-RT 205: Identifying and Measuring Modularity Violations on Cyber‐Physical Systems Final Report
- SERC-2013-TR-031-2-Graphical CONOPS Prototype to Demonstrate Emerging Methods, Processes, and Tools at ARDEC
- SERC-2012-TR-031-1-Graphical CONOPS Prototype to Demonstrate Emerging Methods, Processes, and Tools at ARDEC
- SERC-2011-TR-014-1-Development of Systems Engineering Maturity Models and Management Tools
- SERC-2015-TR-106-New Project Incubator
- SERC-2018-TR-105-New Project Incubator
- SERC-2019-TR-007-RT 204: Systemic Security and the Role of Heterarchical Design in Cyber-Physical System
- SERC-2019-TR-011-Game-theoretic Risk Assessment for Distributed Systems (GRADS)
- SERC-2019-TR-016-Systems Engineering Methods Business and Analytics
- SERC-2018-TR-117-Sensemaking Research Roadmap
- SERC-2020-TR-002-Digital Engineering Metrics
- SERC-2020-SR-003-Summary Report: WRT-1001 Digital Engineering Metrics
- SERC-2020-TR-001-WRT 1002: Approaches to Achieve Benefits of Modularity in Defense Acquisition – Part 2
- SERC‐2020‐TR‐007‐A-Atlas: Effective Systems Engineers and Systems Engineering
- SERC-2020-TR-007-WRT-1004: Helix
- SERC-2021-TR-005-WRT-1006 Technical Report: Developing the Digital Engineering Competency Framework (DECF) – Phase 2
- SERC-2020-TR-010-WRT-1006 Technical Report: Developing the Digital Engineering Competency Framework (DECF), Version 1.0
- SERC‐2020-TR-006-Systems Engineering Capstone Marketplace
- SERC-2020-TR-009-Transforming Systems Engineering through Model-Centric Engineering
- SERC-2021-TR-008-WRT-1018: DAU Credential Development
- SERC-2020-TR-014-Analyzing and Assessing Contracts for Embedded Risk
- SERC-SR-2020-004-Concept of Operations (CONOPS) Exploiting Cyber Vulnerabilities of Oil and Gas Pipelines Building the Systems Assurance Framework
- SERC-2020-TR-005-Methods to Evaluate Cost/Technical Risk and Opportunity Decisions for Security Assurance in Design
- SERC-2021-TR-011-ART-014: Quantum Photonics Tasks for Research
- SERC-2021-TR-013-ART 008: Design Evaluation, Automation and Optimization Dashboard for Armament and Ammunition Packaging
- SERC-2021-TR-013-ART-008: Design Evaluation, Automation and Optimization Dashboard for Armament and Ammunition Packaging
- SERC-2021-TR-003-ART-009: Intelligent Defense Systems
- SERC-2021-TR-007-WRT-1025: Architecting for Digital Twins and MCE with AI/ML Part II
- SERC-2021-TR-016-WRT-1033: Transitioning Mission Aware Concepts and Methods to Evaluate Cost/Risk Decisions for Security
- SERC-2021-TR-012-WRT-1036: Transforming Systems Engineering Through Model-Centric Engineering
- SERC-2021-TR-024-WRT-1040 Application of Digital Engineering Measures
- SERC-2022-TR-002-WRT-1042: Policy Innovations to Enhance the STEM Talent Pipeline
- SERC-2023-TR-007-WRT-1043: DAU Digital Engineering Simulation (Option Year 1)
- SERC-2022-TR-003-WRT-1043: DAU Digital Simulations (Base Year)
- SERC-2022-TR-005-WRT-1055 Policy Options to Promote DoD-Defense Industry Collaboration in STEM Education and Workforce Development Programs, Activities and Outreach
- SERC-2022-TR-009-WRT-1051: Program Managers Guide to Digital and Agile Systems Engineering Process Transformation
- SERC-2023-TR-004-WRT-1064: Systems Engineering Capstone Marketplace 2022-2023