Entry Level Control Systems Engineer

OverviewThe Ship Control Engineering (D432) department applies several engineering disciplines to develop, deliver, maintain and support advanced fly-by-wire control systems. Engineering opportunities range from initial system design through development, hardware/software integration, test, delivery, and integration of these systems aboard nuclear submarines.Our team members exemplify Electric Boat's core values:Value each otherBehave with integrity and purposeCommit to excellenceControl Systems Engineer designs, models, simulates, and optimizes automated systems to ensure safe, efficient performance. These models verify and validate: Maneuvering impacted aspects of Ship Design, casualty response capabilities, control and monitoring algorithms, operational modes and user interfaceA Control Systems Engineer on our team typically performs the following types of work:Execute work as a member of a multi-disciplinary team to make design decisions.Creating dynamic mathematical plant models of ocean environment, vehicle motion, and ship systems, to analyze system behavior using tools like MATLAB/Simulink, C++, and Python.Creating various control algorithms and filter designs.Creating and verifying outer loop and inner loop requirements using simulations.Document models, algorithms, and performance predictions in engineering calculations to inform other teams and departments on design decisions and implementationPerforming Hardware-in-the-Loop (HIL) and Software-in-the-Loop (SIL) simulation to test systems before deployment.Integrating hardware (sensors, actuators) with software to meet functional requirements.Analyzing existing systems for improvements and troubleshooting production failuresQualificationsRequired:Bachelor of Science degree or higher in Systems Engineering, Computer Engineering, Electrical Engineering, Mechanical Engineering, Aerospace engineering0-5 years of post-graduate engineering experienceMust be able to obtain and maintain a security clearance through the DoDPreferred:Relevant Master's degree with a concentration, thesis, and/or capstone project in control systems, dynamic system modeling, and control algorithm development.Strong understanding of mathematics and physics that underpin the concepts of control systems, such as modeling, dynamics, and signal processing.Knowledge of control theory, programming languages (Python, C/C++)Experience working with inner loop/outer loop algorithm development and optimizationAnalytical and problem-solving skills, which are critical to constantly analyze data, identify problems, and design solutions to optimize system performance.Skills* Strong troubleshooting and problem-solving skillsets* Ability to work independently and take ownership of projects