Raytheon
Pratt & Whitney
Pratt & Whitney is working to once again transform the future of flightdesigning, building and servicing engines unlike any the world has ever seen. And because transformation begins from within, we're seeking the people to drive it. So, calling all curious. Come ready to explore and you'll find a place where your talent takes flightbeyond the borders of title, a country or your comfort zone. Bring your passion and commitment and we'll welcome you into a tight-knit team that takes our mission personally. Channel your drive to make a difference into shaping an organization and an industry that's evolving fast to the future. At Pratt & Whitney, the difference you make is on display every day. Just look up. Are you ready to go beyond? Control & Diagnostic Systems (CDS) is a dynamic engineering organization focused on the development and certification of military, commercial and industrial gas turbine engine control and diagnostic systems. CDS is responsible for all aspects of Pratt & Whitney engine control and diagnostic system development, including requirements analysis & definition, system & software architecture, algorithm design, and product software design, verification & validation. We integrate the control and diagnostic system design across other engine system modules and with the air vehicles and provide support throughout the complete engine product life cycle. The Diagnostics, Prognostics and Health Management (DPHM) discipline within CDS is responsible for the development and deployment of cutting-edge data acquisition systems, diagnostics, prognostics, and analytics. The DPHM discipline maintains functional ownership of Prognostic Health Management (PHM) sensing systems and Fault Detection and Isolation though the product lifecycle to enable Condition Based Maintenance (CBM) fleet management. The DPHM Advanced Military Engine Program (AMEP) Principal Systems Engineer will be responsible for development of the PHM Systems for military development engine programs. This includes requirement decomposition, validation, and verification at the sub-system level, advancing technologies for gas path diagnostics, and defining and executing the fault detection and isolation strategy. In this role, the DPHM AMEP Principal Systems Engineer will collaborate with a large cross-section of the P&W engineering and sustainment teams as well as customer counterparts to drive world class CBM. This position type is for on-site and requires a security clearance. Key Responsibilities: Meet program and schedule commitments for Component Integrated Product Team PHM system and sub-system hardware and software requirement decomposition, validation, and verification Development and advancement of algorithms to enable Condition Based Maintenance Working closely with cross-functional teams to ensure the successful integration of DPHM solutions Mentoring early career engineers in the area of systems engineering Qualifications You Must Have: Bachelor's degree in Science, Technology, Engineering or Mathematics (STEM) 8 years of engineering experience, or an Advanced Degree and 5 years' experience. The ability to obtain and maintain a U.S. government issued security clearance is required. U.S. citizenship is required, as only U.S. citizens are eligible for a security clearance. Qualifications We Prefer: Strong foundation in systems engineering principles Knowledge of and exposure to aerospace control and diagnostic systems Experience in gas turbine engine subsystems and their architecture, performance, and analysis Proficiency in requirements management tools such as DOORs Proficiency in MBSE methodology and tools such as CAMEO Experience in coordinating with multiple organizations and operating in cross-functional IPTs Knowledge of relevant military and industry standards and regulations. Experience with Agile methodologies and tools such as JIRA Basic familiarity with Failure Modes, Effects, and Criticality Analysis (FMECA) Knowledge of sensor technologies and their applications Skills in using statistical methods to analyze data and predict outcomes and probabilities Strong ability to effectively communicate, lead, influence and coordinate across teams in strategic projects and initiatives Familiarity with modern data analysis, signal processing and AI/ML Experience in programming tools/languages such as MATLAB, Python, C, and Simulink, Proficiency with Microsoft O365 toolset What We Offer: Benefits Relocation Assistance
Pratt & Whitney is working to once again transform the future of flightdesigning, building and servicing engines unlike any the world has ever seen. And because transformation begins from within, we're seeking the people to drive it. So, calling all curious. Come ready to explore and you'll find a place where your talent takes flightbeyond the borders of title, a country or your comfort zone. Bring your passion and commitment and we'll welcome you into a tight-knit team that takes our mission personally. Channel your drive to make a difference into shaping an organization and an industry that's evolving fast to the future. At Pratt & Whitney, the difference you make is on display every day. Just look up. Are you ready to go beyond? Control & Diagnostic Systems (CDS) is a dynamic engineering organization focused on the development and certification of military, commercial and industrial gas turbine engine control and diagnostic systems. CDS is responsible for all aspects of Pratt & Whitney engine control and diagnostic system development, including requirements analysis & definition, system & software architecture, algorithm design, and product software design, verification & validation. We integrate the control and diagnostic system design across other engine system modules and with the air vehicles and provide support throughout the complete engine product life cycle. The Diagnostics, Prognostics and Health Management (DPHM) discipline within CDS is responsible for the development and deployment of cutting-edge data acquisition systems, diagnostics, prognostics, and analytics. The DPHM discipline maintains functional ownership of Prognostic Health Management (PHM) sensing systems and Fault Detection and Isolation though the product lifecycle to enable Condition Based Maintenance (CBM) fleet management. The DPHM Advanced Military Engine Program (AMEP) Principal Systems Engineer will be responsible for development of the PHM Systems for military development engine programs. This includes requirement decomposition, validation, and verification at the sub-system level, advancing technologies for gas path diagnostics, and defining and executing the fault detection and isolation strategy. In this role, the DPHM AMEP Principal Systems Engineer will collaborate with a large cross-section of the P&W engineering and sustainment teams as well as customer counterparts to drive world class CBM. This position type is for on-site and requires a security clearance. Key Responsibilities: Meet program and schedule commitments for Component Integrated Product Team PHM system and sub-system hardware and software requirement decomposition, validation, and verification Development and advancement of algorithms to enable Condition Based Maintenance Working closely with cross-functional teams to ensure the successful integration of DPHM solutions Mentoring early career engineers in the area of systems engineering Qualifications You Must Have: Bachelor's degree in Science, Technology, Engineering or Mathematics (STEM) 8 years of engineering experience, or an Advanced Degree and 5 years' experience. The ability to obtain and maintain a U.S. government issued security clearance is required. U.S. citizenship is required, as only U.S. citizens are eligible for a security clearance. Qualifications We Prefer: Strong foundation in systems engineering principles Knowledge of and exposure to aerospace control and diagnostic systems Experience in gas turbine engine subsystems and their architecture, performance, and analysis Proficiency in requirements management tools such as DOORs Proficiency in MBSE methodology and tools such as CAMEO Experience in coordinating with multiple organizations and operating in cross-functional IPTs Knowledge of relevant military and industry standards and regulations. Experience with Agile methodologies and tools such as JIRA Basic familiarity with Failure Modes, Effects, and Criticality Analysis (FMECA) Knowledge of sensor technologies and their applications Skills in using statistical methods to analyze data and predict outcomes and probabilities Strong ability to effectively communicate, lead, influence and coordinate across teams in strategic projects and initiatives Familiarity with modern data analysis, signal processing and AI/ML Experience in programming tools/languages such as MATLAB, Python, C, and Simulink, Proficiency with Microsoft O365 toolset What We Offer: Benefits Relocation Assistance