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Huntsville, AL PHONE NUMBER AVAILABLE EMAIL AVAILABLE LinkedInEXECUTIVE SUMMARYU.S. Citizen with Current and Active U.S. DoD Secret Security Clearance Mission-oriented Senior Principal Systems Engineer, whose visionary technical leadership and cornucopia of achievements span diverse industries, including a variety of key Missile Defense Agency (MDA) Ballistic Missile Defense System (BMDS) programs, in addition to Wideband Satellite Communications (SATCOM), NASAs time-honored International Space Station (ISS), and U.S. Army initiatives. Guiding force and analyst, devotedly ushering projects through the intricate systems engineering lifecycle V. Confidently navigating the needs analysis, conceptual, planning, requirements, and architectural phases advancing into detailed design and development, morphing specifications into compliant hardware and software products. Adeptly orchestrating activities in integration, testing, verification, validation, and modeling and simulation (M&S) to infuse faultlessness into system functions and performance. Discerningly overlooking tasks in deployment, operations, and long-term sustainment to make certain meeting expectations well into the future. Consensus-building communicator, astutely closing gaps in messaging between executives and technical teams; effectively liaising with product line owners, product owners, and scrum masters; diplomatically interfacing with customers, suppliers, and vendors to minimize conflicts with program goals and objectives. Innovative architect of transformative engineered products and technology services, consistently delivering high-quality value streams and maintaining vigilance in managing adherence to cost, budget, and schedule constraints while catering to client needs. EXPERTISEModel-Based Systems Engineering (MBSE) Systems Modeling Language (SysML) UPDM Framework SATCOM Terminal Engineering Electronic and Radio Frequency (RF) Systems System Concept of Operations (CONOPS) Requirements Analysis & Definition Functional Analysis & Allocation (FA&A) Architectures Specifications Interface Control Documents (ICDs) System Integration and Test (I&T) System Verification and Validation (V&V) System Sustainment System Performance Analysis Detailed Trade Studies Root Cause Analysis Change Impact Assessments Scrum Agile Systems Engineering Digital Collaboration Tools Data Analysis & Visualization CAREER HIGHLIGHTSInterlude 11/2023 10/2024Sabbatical.Lead Senior Missile Defense Principal Systems Engineer / Scientist (Level 8) QTEC Aerospace, Huntsville, AL 08/2022 10/2023 Requirements & Architecture Development for BMDS Ground-Based Midcourse Defense (GMD) Weapons System (GWS) Program As a Responsible Engineer, scope and organize GWS Architecture & Delivery Model-Based Systems Engineering (ADMBSE) undertakings to support system evolution and maturation within the Missile Defense Agencys nascent BMDS GWS Program. Foster a culture of innovation and collaboration, bringing together a multidisciplinary systems engineering team to adopt present-day MBSE methodologies pressing forward in developing GWS ADMBSE processes, procedures, and related entities, acknowledging stringent demands of neutralizing intermediate-range and intercontinental ballistic missiles (IRBMs/ICBMs) in flight. Write and direct others in formulating prime item development specifications (PIDS) for GMD Fire Control (GFC), Parabolic and Phased Array IFICS Data Terminals (IDTs), GMD Communications Network (GCN), and Ground Support Systems (GSS) Products. Partner with GWS Product Teams in decomposing GWS PIDS requirements into the development of precise hardware requirements specifications (HRS), software requirements specifications (SRS), and interface requirements specifications (IRS ). Support GWS Verification Team in defining requirement verification objectives (VOs), success criteria, and data requirements, to include identifying sources providing objective evidence that substantiates compliance of design artifacts with GWS requirements. Build and validate models using the Cameo Enterprise Architecture (EA) tool. Incorporate GWS functional, performance, interface, and specialty requirements, along with design constraints into a system architecture model representing GWS structure, behavior, state transitions, parametrics, and interactions among GWS Products as well as between the GWS and BMDS RF Sensors (AN/TPY-2 FBM Radars and LRDR via C2BMC and GFC; UEWR, Cobra Dane and SBX-1 Radars via the GCN). Share insights in GWS Scrum Agile roadmap creation, iteration/sprint planning, daily scrums, sprint reviews and retrospectives. Notable Accomplishments:Requirements Standardization. Developed an approved program procedure standardizing requirement writing, resulting in the release of new and modified GWS Product PIDS and their associated specifications in the GWS Dynamic Object Oriented Requirements System (DOORS), meeting International Council on Systems Engineering (INCOSE) norms for implementation.Requirements Verification Policy. Carved and institutionalized a system requirements verification policy, defining steps for preparing and managing verification objectives (VOs) that ensure accessibility to objective evidence in DOORS, enabling ADMBSE Scrum Teams to conduct quality checks on requirements compliance data and providing transparency in GWS verification activities.System Architecting in UPDM Framework. Developed and shared system context diagrams for GWS Products with stakeholders, leveraging the Cameo EA tool and various SysML metamodels, alongside the UPDM framework (DoDAF/MODAF) to integrate GWS Products internally as well as externally with C2BMC- and GWS-managed Radars. This triad of MBSE digital engineering cohorts facilitated clear communication interfaces, data exchange protocols, and operational compatibility, laying tracks to effective design, validation, and formalization of the GWS System Architecture Model (GSAM), the definitive source of truth for MDAs GWS Element.Scrum Agile Systems Engineering. Charted courses of action in user stories loaded into GWS iteration planning for PIDS writing, Cameo Teamwork Cloud installation, ADMBSE GSAM Working Group, and so on, each done within a 2-week sprint.Digital Collaboration Tools. Streamined GWS requirements management, traceability, and verification activities using tools such as DOORS, Jira/Confluence, and Fisheye/Crucible, combined with MS Teams, effecting a 40% increase in workflow efficiency.Recognition. Netted a $3K bonus within 13 weeks of hire for professional investment in GWS headway far exceeding expectations. Candidate's Name EMAIL AVAILABLE PAGE 2 Senior Technical Consultant Self-Employed, Huntsville, AL 02/2022 07/2022 Proposal Development and Writing Services Supporting Bid Creation and Submission for U.S. Government Contracts With over 25 years of experience in writing technical proposals for renowned aerospace and defense companies, specialize in assisting small business engineering firms seeking BMDS contractual opportunities with the Missile Defense Agency (MDA). Expertise covers multiple engagements, including periods from 06/2017 to 11/2017 and 07/2015 to 11/2016. Notable Accomplishments:Strategic Alliance Building. Forged and nurtured strategic affiliations with pricing analysts, capture and operations teams, banding together in developing highly competitive proposals resonating customer needs and standards.Technical Proposal Writing. Crafted compelling narratives tailored to meet the specific requirements of MDA's BMDS programs, culminating in successfully written and effective proposals being a catalyst for securing high-value contracts.Delivery of Value-Added Solutions. Focused on delivering value-added solutions that set clients' offerings apart from competitors and captivated customers with persuasive proposals responsive to their unique mandates and priorities. Senior Principal Systems Engineer Staff Cubic Mission & Performance Solutions (CMPS), Huntsville, AL 12/2017 01/2022 SATCOM Expeditionary Very Small Aperture Terminal (VSAT) and Inflatable Antenna Engineering Define, baseline, and validate SATCOM VSAT system requirements from analysis of mission profiles, operational scenarios, effectiveness measures, utilization environments, and constraints for interoperability with GEO/LEO/MEO/HEO satellites. Decompose top-level VSAT functions into sub-functions and assign performance metrics in addition to interface definitions. Develop and trace functional architectures to validated requirements baselines from requirements analysis and verify across all levels. Translate verified functional architectures into physical architectures of structured product design solutions comprising VSAT radio frequency (RF) and intermediate frequency (IF) hardware, baseband equipment including IP modems and routers, as well as configuration management and display software fulfilling specified requirements and satisfying operational criteria. Prepare engineering bills of materials (EBOMs) coupled with MS Project scheduling work plans to trim production, packaging, and shipment times of VSAT articles. Coach/mentor new hires on CMPS VSATs and tailoring of standard systems engineering processes for expedited VSAT development. Notable Accomplishments:Requirement Analysis. Spearheaded requirements analysis in pursuit of a $5B contract with Product Manager Tactical Network/APG for C4ISR Phoenix-E VSATs. Developed two nearly 300-line requirements compliance matrices, each adapted to a distinct course of action, which strengthened the CMPS proposal and propelled this key VSAT project to the door of success.Project SEMP Fast-Tracked to Release. Penned the C4ISR Phoenix-E VSAT Systems Engineering Management Plan (SEMP) in just two Agile sprints, outlining mission, CONOPS, product breakdown structure, technical plans, specifications tree, design compliance, as well as technical reviews (gateway meetings) among other critical aspects, putting in place the bedrock for a holistic development process.Detailed Trade Studies. Headed trade studies with interdisciplinary systems engineers to balance high-priority specialties quality factors, rendering optimal C4ISR VSAT configurations and empowering clients with preferred solutions meeting their needs.Robust Architecture Design. Engineered a versatile two-way multiband C4ISR VSAT architecture resistant to severe environmental conditions, successfully capturing a $550M contract with U.S. Army Combat Service Support (CSS) for deployment of several thousand such VSAT units to the Korean Peninsula.Standards-Compliant Solutions. Fine-tuned VSAT designs to comply with expanded C/X/Ku/Ka-Band requirements in earth station standards, improving VSAT interoperability and effectiveness for businesses, government agencies, and military forces worldwide.Assurance of Supplier Compliance. Produced over 40 source control documents obligating suppliers abide by precise VSAT component specifications, reducing the risks of acquiring substandard components and compromising system reliability.Recognition. Earned a $2.5K spot award for singular performance in overcoming hurdles in C4ISR Phoenix-E VSAT development. Senior Principal Systems Engineer / Radio Frequency (RF) Communications Subject Matter Expert (SME)Aerotek NASA Lyndon B. JohnsonSpace Center, Houston, TX 12/2016 05/2017RF Analyses for NASA International Space Station (ISS), Tracking and Data Relay Satellites (TDRS), and NEN Ground Stations Lead the development of advanced strategies, mathematical algorithms, and modeling and simulation (M&S) tools for conducting a multitude of RF link budget assessments, compatibility analyses, and interference evaluations for International Space Station (ISS) wireless communications across RF and microwave frequency bands of the electromagnetic spectrum. Anchor integrity of calculating communication system performance within and between the ISS and other space-based and Earth-based systems by reconciling developed strategies and tools with NASA best practices for RF analysis and relevant Consultative Committee for Space Data Systems (CCSDS) Blue Book standards for spaceflight communications and data systems. Ally with NASA interdisciplinary teams in integrating findings into acceptable answers, taking the galactic space environment under advisement. Groom and promote growth of inexperienced communications systems engineers in carrying out and presenting RF assessments for technical briefings to the Chief Engineer and senior managers of the NASA Avionics Systems Division. Notable Accomplishments:ISS C2V2 System Figure of Merit G/T. Directed a targeted study on the ISS Common Communications for Visiting Vehicles (C2V2) System, coaching and heartening a team of fresh-faced analysts bringing to fruition accuracies within 1.5% compared to measured data in calculating antenna gain over temperature (G/T) for its two S-Band strings. Finishing, updated ISS C2V2 Program RF ICDs and the ISS Circuit Margin Data Book for prompt NASA publication and dissemination of the crucial findings.Capping ESD Emissions of NEN Ground Stations. Set upper thresholds on EIRP Spectral Density (ESD) emitted from ground stations in NASAs Near Earth Network (NEN) towards the ISS, safeguarding ISS payload receivers by preventing excessive RF power densities. Calculations factored in station emission bandwidths, payload receiver figures of merit G/T, station-to-receiver RF path losses, and a specified constraint on received ESD-to-receiver noise spectral density ratio to determine nominal ESD limits for protection.M&S for Consequential RF Interference to ISS Receivers. Quantified the impact of internal ISS and external transmitters on ISS victim receivers by integrating technical parameters such as data rates, forward error correction and modulation schemes, antenna gains, RF carrier frequencies, output powers, and path losses into self-designed algorithms. Computed received signal-to-noise plus interference ratios and RF link margins, extending forecasts of ISS communications performance to key NASA presentations. Candidate's Name EMAIL AVAILABLE PAGE 3 Senior Missile Defense Principal SystemsEngineer Optimization Technology, Inc. (OTI), Huntsville, AL 06/2014 06/2015 System Sustainment Engineering, Performance Prediction & Analysis Services for Missile Defense Agency Sensors (SN) Directorate Perform examination and critique of contractor sustainment plans for AN/TPY-2 Forward Based Mode (FBM) Radars serving BMDS missions to validate compliance with MDA/SN-approved change notices and maintenance work orders. Structure and calibrate AN/TPY-2 FBM Radar maintenance periods, refurbishments, and equipment upgrades or replacements to coincide with global fielding plans and radar site-specific schedules. Diagnose and remedy complex AN/TPY-2 FBM Radar malfunctions by analyzing performance data, conducting system tests, and tracing problems to their root cause. Prepare and deliver briefings to MDA Failure Review Boards, presenting nuanced breakdowns of AN/TPY-2 FBM Radar malfunctions and proposing solutions. Manage preparation and submission of Foreign Releasable DD Form 1494 (Stage 4) applications in accordance with National Telecommunications and Information Administration (NTIA) guidance for AN/TPY-2 FBM Radar operating frequencies. Notable Accomplishments:Sustainment Synchronized to Plans and Schedules. Scheduled maintenance, refurbishment, and upgrades to dovetail with the global fielding plan, integrated master schedule (IMS), and radar site-specific schedules to optimize AN/TPY-2 FBM Radar operational readiness. Estimated end-of-life for Global Positioning System (GPS) satellite receivers based on rubidium crystal oscillator lifetime data, pinpointing replacement intervals providing radar position, navigation and timing (PNT) information unabated.Resilience to In-Band EMI. Led an investigation in teamwork with MDA/SN and Radar Supplier Chief Engineers to analyze the correlation between the noise floor of the AN/TPY-2 FBM Radar and nearby objects reflecting incident radar energy as electromagnetic interference (EMI). Programming MATLAB to model object radar cross section (RCS), showed composite echo power remained well below the radar's damage threshold with dynamic range fully preserved across the sensor's field of view.Root Cause Analysis of C2BMC Sensor Manager Control Failures. Surmounted persistent message drops detected between the AN/TPY-2 FBM Radar and a BMDS Command, Control, Battle Management and Communications (C2BMC) node. Utilizing a fishbone diagram and fault tree analysis (FTA) methodologies for root cause corrective action (RCCA), isolated and fixed a misconfigured protocol in the radars data router, which restored normal sensor operation and responsiveness to commands.Recognition. Pocketed a $1K bonus for outstanding contributions to clearing a vast backlog of radar tasks, demonstrating unwavering dedication to work execution efficiency and mission success within the MDA Sensors Directorate. Senior Missile Defense Principal Systems Engineer / Lead Senior Weapons Systems Analyst Davis Strategic Innovations, Inc. (DSI), Huntsville, AL 06/2013 06/2014 Analysis Planning, Performance Prediction, Modeling & Simulation (M&S) Services for BMDS Test & Evaluation (T&E) Champion creation of the BMDS Operational Test Agency (OTA) Data Management and Analysis Plan (DMAP). Manage the development of the plan to standardize data collection, processing, and reporting methods for Missile Defense Agency (MDA) post-flight tests. Control progression of the development process from conceptualization to implementation, corroborating the plan obeys BMDS OTAs exacting T&E requirements and is congruent with Army Test & Evaluation Command (ATEC) mission-based test and evaluation (MBT&E) objectives. Employ MATLAB to model and simulate BMDS radar tracking performance using real- world MDA flight test data. Access MS SQL databases to retrieve radar telemetry and system-under-test data for developing modeling algorithms and simulating radar tracking scenarios. Produce two-dimensional (2-D) visualizations conveying BMDS radar tracking information clearly and understandably in briefings to BMDS OTA, ATEC, MDA senior leaders, and other key stakeholders. Notable Accomplishments:Mission-Focused T&E Strategy. Obtained BMDS OTA approval of the DMAP, codifying an exhaustive set of step-by-step procedures and templates drawn from the ATEC MBT&E perspective of benchmarking and reporting BMDS Element operational realism, effectiveness, suitability, and survivability in element analyses and assessments.Stakeholder-Centric Data Analysis and Visualization. Translated data analysis to MDA executive-level briefings by scripting MATLAB programs that manipulated BMDS radar error covariances to create three-dimensional (3-D) target range, position, and velocity files exported to MS PowerPoint slides, improving visualization of state estimator performance in tracking targets. Senior Principal Systems Engineer /Quality Assurance Manager Management Technology Associates, Inc. (MTA, Inc.), Huntsville, AL 01/2012 06/2013 Mission Assurance for U.S. Army Ground, Air and Missile Defense Systems Hardware and Software Administrate quality assurance activities in various engineering disciplines, including RAM-T, Logistics, Production Engineering, and Cybersecurity, for U.S. Army's PM WIN-T Standardized Integrated Command Post System (SICPS) Program. Review and approve SICPS contractor acceptance test plans, processes, and procedures to uphold SICPS product quality requirements. Examine SICPS discrepancy reports (SDRs), test incident reports (TIRs), product quality deficiency reports (PQDRs), and entries in the Failure Reporting, Analysis, and Corrective Action System (FRACAS) for signs of hardware and software non-conformance. Review, analyze, and appraise SICPS contractor engineering change proposals (ECPs), requests for deviation (RFDs), and requests for waiver (RFWs) to assess their impact on existing drawings, specifications, parts usage, lead times, component integration processes, reliability, vendor support dependencies, and hardware acquisition costs. Perform surveillance audits of SICPS contractor fabrication areas, procedures, and processes to evaluate SICPS contractors observance of ISO 9001:2008 and AS9100C quality management standards. Identify and alleviate deviations or non-conformances to defend the integrity and reliability of SICPS products throughout their lifecycle. Proactively engage SICPS stakeholders at all levels to embark upon then tackle quality concerns and issues. Track key SICPS quality metrics and performance indicators to identify emerging trends, areas for improvement, and optimization opportunities. Prescribe and enact thoughtful documentation procedures to capture all SICPS quality assurance activities, including descriptive test plans, audit reports, and corrective action plans. Compile and present status reports on quality assurance to SICPS program management and stakeholders. Notable Accomplishments:Operational Continuity Plan. Co-authored a powerful SICPS Sustainment Plan in accordance with Army Regulation AR 750-1, constituting a blueprint for maintenance, repair, replenishment, and upgrades of SICPS articles, while mitigating product obsolescence and discontinuance, accordingly cementing the continued effectiveness of PM WIN-T SICPS assets on the battlefield.Painstaking Change Impact Assessments. Conducted diagnostic analysis of SICPS change requests, uncovering items that affected requirements compliance, process adherence, and inspection/testing scope. Delivered deep-reaching assessments with recommendations for acceptance or rejection, all of which were approved by the SICPS program management team.Specified Requirements. Honored with a PM WIN-T award for trailblazing the coining of a novel technique to extract probability distributions from time-sampled vibration data by creating control charts with MS Excel and using statistical analyses to define 3-axis vibration specifications, which crowned the mechanical qualification of SICPS 10-kilowatt (kW) Auxiliary Power Units (APUs). Candidate's Name EMAIL AVAILABLE PAGE 4 Lead Senior Missile Defense Principal SystemsEngineerComputer Sciences Corporation (CSC), Huntsville, AL 09/2010 12/2011 Capability Delivery Integrated Scheduling for Ground Systems (GS) Component of BMDS GMD Element Program Manage creation and updating of integrated master schedules (IMSs) using MS Project to harmonize with BMDS program objectives and fulfill associated requirements of the Missile Defense Agency GM Directorate (MDA/GM). This involves enlarging the GMD footprint to improve homeland missile defense by dispensing upgraded and new GS Component capabilities nationally. Coordinate the transition of GS properties in the GMD Fire Control/Communications (GFC/C) and Launch Support System (LSS) domains to new contract vehicles. Maintain awareness of the predominant GMD transition timeline and communicate updates to the GS Chief Engineer, Project Manager, and Product Lead Engineers. Assist GS Product Lead Engineers in integrating transition schedules into comprehensive IMSs, monitor progress, and take on challenges to propitious delivery of transitioned articles. Serve as the point of contact for assignments to junior systems engineers and interns providing support to IMS development. Notable Accomplishments:Technical Project Planning Success 1. Imprinted the timetable for modernization of copper cable plant and fiber optic media converter systems to enhance voice, video, and data communications within the CD-4 Fort Greely Ground Based Interceptor(GBI) Missile Field refurbishment project. This was represented in an IMS devised and socialized that optimized activity concurrency and critical path slack, attaining a 13% margin to circumvent delays potentially upending timely project completion.Technical Project Planning Success 2. Released a second IMS detailing schedule for packaging and transferring GS hardware; source code; executables; hardware, software, and interface requirements specifications; design descriptions; operations and maintenance manuals, and other holdings to designated missile defense sites for CD-4 GFC/C upgrades and CD-6 LSS construction. This was done expecting early issuance of GMD Development and Sustainment Contract (DSC) from the MDA to one of the competing DSC bidders. Lead Senior Missile Defense Systems Engineer Boeing Defense, Space & Security (BDS), Huntsville, AL 12/2001 09/2010 Requirements, System Integration and Test (I&T), and RIO Management for Components and Facilities of BMDS GMD Element Program Preside over decomposition and allocation of non-functional requirements and design constraints from Core Standards outlined in the BMDS System Capability Document (SCD) to the GMD Capability Document (GCD). Customize and execute Boeing verification procedures, starting from requirement flow down, to verify non-functional requirements and design constraints of GMD Components and Facilities within the GMD System Architecture. Combine forces with GMD Component and Facility engineering teams during outlining and elaborating verification summary sheets (VSSs), delineating verification requirements(including success criteria, data needs and sources, verification methods, and objective evidence) for non-functional requirements or design constraints. Prepare and finalize verification closure notices (VCNs) upon concluding GMD verification activities, documenting the closure of each VSS and ascertaining accuracy and completeness of all pertinent verification method results (from tests, analyses, demonstrations, inspections, or combinations thereof) and acceptance criteria. Arrange necessary approvals for VCNs from GMD stakeholders, including the Missile Defense Agency's three-letter GME organization, and maintain explicit records of verification closure activities for each non-functional requirement or design constraint. Communicate verification closure status, along with any outstanding issues or concerns, to Boeing GMD Program management and relevant GMD stakeholders. Shepherd system integration and testing (I&T) endeavors to amalgamate GMD Components and Subsystems seamlessly into the GMD system architecture, monitoring progress, as well as identifying and squaring away any issues or roadblocks. Conduct regular meetings and reviews in system I&T galvanizing the transformation of ideas into actions in symmetry with goals and objectives of GMD integration, test and evaluation plans. Govern development and amendment of Risk Management, PM&P (Parts, Materials and Processes), RAM-T (Reliability, Availability, Maintainability, and Testability), E3 (Electromagnetic Environmental Effects), and Environmental Survivability sections within the GMD SEMP (Systems Engineering Management Plan) to assure complete coverage of critical Specialty Engineering areas. Compile and present updates and reports to GMD stakeholders and executives regarding program health and status, emphasizing significant milestones, achievements, risks, obstacles, and challenges. Notable Accomplishments:Requirements Analysis & Definition. Moderated GMD requirements management with GMD Product Teams by identifying, defining, developing, documenting, flowing down, allocating, and tracing GMD System Specialty Engineering requirements necessary for deriving subsystem and unit hardware specifications for Upgraded Early Warning Radar (UEWR), Cobra Dane Radar, SBX-1 Sea-Based X-Band Radar, Ground Based Interceptor (GBI), and Ground System (GS) Component and Facilities designs. Conducted gap analysis of the GMD requirements baseline by identifying, prioritizing, and allocating MDA Assurance Provisions(MAP) and MDA Parts, Materials & Processes Mission Assurance Plan (PMAP) requirements, effectively eliminating deficiencies.Simplification of Requirements Verification Process. Accelerated the certification of GMD Component and Facility design solutions by jettisoning needless steps in the verification process. Pushing the pace, besides speeding up authentication of compliance with requirements, favorably influenced MDA award fees consistently surpassing 97% for GMD contractual performance.Time-Efficient GMD SBX-1 System Integration and Test (I&T). Appointed Deputy Operations Director for SBX-1 I&T, planned, executed, monitored, controlled, and reported on activities for the integration and operational testing of the X-Band Phased Array Radar, Parabolic IFICS Data Terminal (IDT), and GCN Dual Antenna SATCOM Terminal on a maritime floating platform. Completed the I&T tasks within a record-breaking 210 days, successfully adding ahead of schedule the world's most versatile search, acquisition, tracking, and discrimination radar to the MDAs burgeoning fleet of BMDS RF Sensors for homeland missile defense.RIO Management. As GMD Level 2 Risk Review Board Co-Chair, played a pivotal role in MDA and Boeing Chief Engineer decision- making, leading analysis, assessment, tracking, and final closure of over 200 program risks, issues, and opportunities (RIOs).Leadership. Garnered a bounty of esteemed Boeing awards, including integration of the Boost Vehicle Plus (BV+) Interceptor, and substantial bonuses for inspiring the GMD System Specialty Engineering Team to produce exemplary plans, analyses, and reports, reinforcing Boeing's quintessential reputation in 'hit-to-kill' exoatmospheric missile defense technology. Candidate's Name EMAIL AVAILABLE PAGE 5 Senior Principal Engineer / Senior Weapons Systems Analyst Tec-Masters, Inc. (TMI), Huntsville, AL 01/1998 12/2001 Requirements |
