University of Virginia
The University of Virginia (UVA) is located in Charlottesville, Virginia. UVA was ranked the No. 2 best public university in the 2008 edition of the U.S. News and World Report and continues to rank in the Top 25 among the best of all national universities, public and private. Founded in 1836, the UVA School of Engineering and Applied Science combines research and educational opportunities for a student body of 2,000 undergraduates and 650 graduate students. At the graduate level, the Engineering School collaborates with the University’s highly ranked medical, business and education schools on interdisciplinary research projects and entrepreneurial initiatives. Highly interdisciplinary in nature, the Department of Systems and Information Engineering includes nearly 300 undergraduate students, approximately 85 graduate students and 20 faculty members. It includes major research centers addressing important systems problems focused on systems technology integration, risk analysis, and human factors, providing both undergraduate and graduate students with a rich set of opportunities to address large scale system engineering problems. The department has focused its research activities on two major application domains, namely national security and health care.
- Security Engineering – Design Patterns and Operational Concepts
- Systems Security Engineering Roadmap
- System 2020
- Tradespace and Affordability
- Valuing Flexibility For Complex Engineering Systems
- Systems Engineering And The Cloud
- Human Capital Development – Resilient Cyber Physical Systems
- Contingency Basing
- Tradespace and Affordability
- Security Engineering – Design Patterns and Operational Concepts
- Security Engineering – Decision Support Tool
- Human-Machine Team (HMT) Concepts for Resilient Autonomous Systems
- Security Engineering – Decision Support Tool
- Methods to Evaluate Cost/Technical Risk and Opportunity Decisions for Security Assurance in Design
- Risk Based Approach to Cyber Vulnerability Assessment
- Developmental Test and Evaluation (DT&E) and Cyberattack Resilient Systems
- Transitioning Mission Aware Concepts and Methods to Evaluate Cost/Risk Decisions for Security
- SERC-SR-2020-004-Concept of Operations (CONOPS) Exploiting Cyber Vulnerabilities of Oil and Gas Pipelines Building the Systems Assurance Framework
- SERC-2021-TR-016-WRT-1033: Transitioning Mission Aware Concepts and Methods to Evaluate Cost/Risk Decisions for Security
- SERC-2021-TR-015-WRT-1022: Developmental Test and Evaluation (DTE&A) and Cyberattack Resilient Systems
- SERC-2020-TR-016-Human-Machine Team (HMT) Concepts for Resilient Autonomous Systems: Experimental Design Approach to Human-in-the-loop Simulation
- SERC-2020-TR-008-WRT-1013: Security Engineering - 2019
- SERC-2020-TR-005-Methods to Evaluate Cost/Technical Risk and Opportunity Decisions for Security Assurance in Design
- SERC-2019-TR-002-Model-based Engineering for Functional Risk Assessment and Design of Cyber Resilient Systems
- SERC-2018-TR-110-Cyber Security Requirements Methodology
- SERC-2018-TR-108-System Qualities (SQs) Ontology, Tradespace and Affordability (SQOTA), Phase 6
- SERC-2017-TR-114-Security Engineering – FY17 Systems Aware Cybersecurity
- SERC-2017-TR-113-Human Capital Development – Resilient Cyber Physical Systems
- SERC-2017-TR-113-Human Capital Development – Resilient Cyber Physical Systems Addendum
- SERC-2017-TR-105-System Qualities Ontology, Tradespace and Affordability (SQOTA) Project Phase 5
- SERC-2016-TR-156-Transition of System-Aware Technology into Practice (Task 1) and Mission-Level Cybersecurity and Solution & the Selection of Decision Support Tools (Task 2)
- SERC-2016-TR-101-System Qualities Ontology, Tradespace and Affordability (SQOTA) Project – Phase 4
- SERC-2015-TR-110-System Aware Cybersecurity A Multi-Sentinel Scheme To Protect a Weapons Research Lab
- SERC-2014-TR-039-3--ilities Tradespace and Affordability Project – Phase 3
- SERC-2014-TR-036-3-Security Engineering Project: System Aware Cyber Security for an Autonomous Surveillance System On Board an Unmanned Arial Vehicle
- SERC-2013-TR-039-2-Tradespace and Affordability – Phase 2
- SERC-2013-TR-039-1-Tradespace and Affordability – Phase 1
- SERC-2013-TR-036-2-Security Engineering: System Aware Cyber Security for an Autonomous Surveillance System On Board an Unmanned Arial Vehicle
- SERC-2013-TR-036-1-Security Engineering Pilot
- SERC-2012-TR-033-1-Systems Engineering for Contingency Basing
- SERC-2012-TR-028-2-Security Engineering
- SERC-2012-TR-028-1-Security Engineering
- SERC-2012-TR-023-1-Impacts and Opportunities for Engineering in the Era of Cloud Computing Systems
- SERC-2012-TR-010-2-Valuing Flexibility – Phase II
- SERC-2012-TR-009-2-System 2020-Phase-II
- SERC-2010-TR-010-1-Value of Flexibility – Phase I
- SERC-2010-TR-009-1-System 2020 - Strategic Initiative
- SERC-2010-TR-005-1-Systems Security Engineering