Candidate will provide senior engineering management and liaison between OUSD AT&L, Combatant Commanders, Service Components in support of Platform Resiliency & Mission Assurance (PRMA) program efforts under 2016 National Defense Authorization Act (NDAA) Sections 1647 and 1650. Candidate will be required to assume an executive-level support posture to provide senior-level engagement, briefing support, and inter-agency coordination. Substantial travel to and presence at OUSD AT&L facilities Mark Center in Alexandria, VA will be required (although work location will remain FANX-3 in Linthicum MD).
(U) Analyzes user’s requirements, concept of operations documents, and high level system architectures to develop system requirements specifications. Analyzes system requirements and leads design and development activities. Guides users in formulating requirements, advises alternative approaches, and conducts feasibility studies. Provides technical leadership for the integration of requirements, design, and technology. Incorporates new plans, designs and systems into ongoing operations. Develops technical documentation. Develops system Architecture and system design documentation. Guides system development and implementation planning through assessment or preparation of system engineering management plans and system integration and test plans. Interacts with the Government regarding Systems Engineering technical considerations and for associated problems, issues or conflicts. Ultimate responsibility for the technical integrity of work performed and deliverables associated with the Systems Engineering area of responsibility. Communicates with other program personnel, government overseers, and senior executives.
Skill Level 3: The Level 3 System Engineer shall be able to perform the following:
(U) Provides technical direction for the development, engineering, interfacing, integration, and testing of all components of complex hardware/software systems to include requirements elicitation, analysis and functional allocation, conducting systems requirements reviews, developing concepts of operation and interface standards, developing system architectures, and performing technical/non-technical assessment and management as well as end-to-end flow analysis (U) Develops comprehensive SOA solutions (U) Develops operational view, technical standards view, and system and services view for architectures using applicable DODAF standards (U) Conducts and/or approves end-to-end system trade analyses to optimize system operations over its lifecycle through the proper balance of non-functional system performance areas (U) Improves standard integration strategies based upon rationale for previous decisions that resulted in improved integration performance (U) Fully defines interfaces in terms of origination, destination, stimulus, and data characteristics for software; and electrical and mechanical characteristics for hardware (U) Uses validated models, simulations, and prototyping to mitigate risk and reduce cost of system development (U) Develops alternative courses of action, workarounds, and fall-back positions with a recommended course of action for each risk, and monitor and re-evaluate risks at appropriate milestones. Monitors risks using earned value management (EVM) data (U) Maintains knowledge of current and evolving agency, national, and international standards applicable to the system development of interest. Applies and enforces use of suitable standards to ensure consistency and interoperability of developer hardware and software (U) Ensures effective, periodic review and control of the evolving configuration of a system, both hardware and software components and associated documentation, during the life of the system (U) Serves as a member of the CCB (U) As a participant within an Analysis of Alternatives (AOA) effort, recommends a preferred solution based on selection criteria adjusted for reasonableness and validity of assumptions, technology limitations, environmental impact, and life-cycle costs (U) Develops system design alternatives that consider life cycle cost, reuse, complexity, risk, system expansion, and growth
Level 3 Qualifications: (U) Twenty (20) years experience as a SE in programs and contracts of similar scope, type and complexity is required. Demonstrated experience in planning and leading Systems Engineering efforts is required. Bachelor’s degree in System Engineering, Computer Science, Information Systems, Engineering Science, Engineering Management, or related discipline from an accredited college or university is required. Five (5) years of additional SE experience may be substituted for a bachelor’s degree.