Systems Engineer - TCOM L.P. October 2024 to Present
Drive systems engineering efforts for aerostat and UAV based solutions, with a focus on maintenance and operations within the systems development life cycle.
Perform root cause analysis and ensure solution is properly deployed.
Conduct requirements derivation and allocation for Government RFP Response.
Support Foreign Military Sales (FMS) proposal work, preparing technical volumes, conducting architecture development, and collaborating across engineering disciplines to meet mission goals.
Administer and teach Jira and Confluence tools to enhance visibility of work and identify bottlenecks in the process.
Perform trade studies to down select a requirements management tool
Develop a systems architecture, requirements, and test cases with traceability in Polarion
Mechanical Engineer - Jacobs April 2022 to October 2024
Perform design and analysis of low SWaP ruggedized software-defined radios, including PCB layouts and thermal management systems.
Conduct research and development on the application of silver sintering for hybrid electronics.
Collaborated with quality engineering to analyze root causes and implement effective inspection and testing procedures.
Led a team of cross-functional engineers and technicians through manufacturing, integration, and testing processes.
Integrated DFM earlier in the design process, speeding up time to build and test by 30%.
Junior Manufacturing Engineer - Zentech Manufacturing June 2021 to April 2022
Developed PCB manufacturing documentation, including work instructions and SOPs.
Increased efficiency in the lab by 50% using lean tools like value stream mapping.
Designed manufacturing processes that are J-STD-001 and IPC-610A compliant.
Systems Engineering Capstone (JHU) - PAD Detection Device June 2025 to Present
Develop concept of operations, context, functional and physical block diagrams.
Utilize management tools such as work breakdown structures, critical path networks, earned value management to design a system concept.
Analyze the needs, objectives, and goals of stakeholders and users to derive system requirements.
Perform functional analysis, risk assessment, and systems tradeoffs.
Construct resiliency gap analysis using the requirements analysis.
Define the test and evaluation stage using both integrations and qualification approaches. Generated respective test cases.
Use Model-Based Systems to create requirements traceability diagrams.
Design a verification cross-reference matrix to identify verification methods with pass/fail criteria.
MBSE & Modeling: Cameo (MagicDraw) SysML, SolidWorks
Requirements Management: Polarion, Visure
SE Documentation: CONOPS, Systems Engineering Plan, Verification Cross Reference Matrix
Project Planning Tools: Earned Value Management, Critical Path, Earned Value Management
Collaboration/Workflow: Jira, Confluence
Johns Hopkins University (2022-Present)
Major: Systems Engineering (ABET Accredited)
EN.645.662 (8VL) - Introduction to Systems Engineering
EN.645.667 (8VL) - Management of Systems Projects
EN.645.764 (81) - Software Systems Engineering
EN.645.767 (8VL) - System Conceptual Design
EN.645.768 (83) - System Design & Integration
EN.645.769 (82) - System Test & Evaluation
EN.645.780 (81) - Agile Systems Engineering
EN.595.727 (8VL2) - Advanced Concepts in Agile Technical Management
EN.535.638 (82) - Mechanical Packaging for Electronics Systems
University of Maryland Baltimore County (2017-2021)
Major: Mechanical Engineering (ABET Accredited)
Freshman: Statics, Calculus 1 and 2
Sophomore: Mechanics of Materials, Engineering Design, Dynamics, Engineering Thermodynamics, Differential Equations
Junior: Circuits, Numerical Methods, Material Science, Fluid Dynamics, Solid Mechanics, Vibrations, Heat Transfer Processes, Machine Design
Senior: High Speed Aerodynamics, Systems Design, HVAC, Controls Systems, Manufacturing Design