Huntsville, Alabama, USA
3 days ago
GN&C Deputy Discipline Lead
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Create Your Career\:

Grow With Us

Your growth matters to us—that’s why we offer a variety of ways for you to develop your career. With professional and leadership development opportunities like Team Lead Academy, education reimbursement, mentoring, and company sponsored networking events, you can take control of your own career path on your own terms with a company that believes in you.

 

A Place Where You Belong

People are at the heart of our business. We reflect a diversity of cultures, backgrounds, and experiences. We expect our people, clients, and partners to treat one another with dignity and respect. This means promoting inclusion, celebrating diversity, and appreciating the differences we all bring to our workplace.

 

Support Your Well-Being

Our comprehensive benefits package includes wellness programs, 11 paid holidays, paid time off, employee perks and much more.  With these benefits, plus the option for flexible schedules and possible remote a few days a week (depending on customer requirements) we’ll support you as you pursue a balanced, fulfilling life—at work and at home.

The Space Exploration Group Guidance, Navigation, and Control (GN&C) team is a high performing group executing challenging tasks to design and integrate GN&C systems for projects ranging from CubeSats to NASA’s Space Launch System (SLS). We are searching for highly qualified candidates to support the design, development, and oversight of the Human Lander Systems (HLS) Program in the Control Systems Design and Analysis branch at NASA’s Marshall Space Flight Center as the Deputy GN&C POC for SpaceX.  The role will focus on GN&C discussions with SpaceX’s GN&C lead about everything GN&C, such as orbit insertion, decent guidance/landing, controllability, rendezvous, proximity, operations and docking (RPOD), manual steering, etc.  This exciting work will serve as a critical step in sending humans back to the Moon, Mars and beyond

More detailed responsibilities include but are not limited to\:

·         Acts as a NASA GN&C POC and interfaces with NASA’s HLS partners and cross-program organizations (Orion/Gateway/SLS).

·         Works closely with partner and cross-program organizations to resolve open requirements, and assist requirement maturation, seek understanding of a partner’s design/test data, potentially participate in partners’ tests, and lead Working Group meetings between partner and cross-program organizations.

·         Develop, track, and communicate HLS GN&C risks, concerns, and watch items associated with a particular partner to the HLS program.

·         Develop, present, and execute the HLS GN&C discipline elevated insight plans, independent analysis conducted by the HLS GN&C discipline, to inform HLS of design/mission risks. Work with HLS mission segment leads to identify areas where elevated insight is needed.

·         Lead HLS-GN&C insight meetings, NASA-only and with a partner. Support other HLS meetings as needed, with partners and NASA-only.

·         Provide status of HLS GN&C key insight activities to HLS (SVS and SE&I), and MSFC-EV department on a weekly/bi-weekly basis

·         Steward insight plan execution, including planning and direct analysis products and their fidelity.

·         Supports insight development of Planning, Programming, Budgeting, and Execution (PPBE) cycles for the HLS GN&C discipline, which includes resource breakdown by center and branch needed by the HLS GN&C discipline to accomplish the insight plans.

·         Actively find NASA expert reviewers to assess key areas of partner risk. E.g. if an HLS partner is developing a GN&C sensor, seek expertise across NASA to review partner’s development plans to assess partners adequacy of qualification plans before certification for flight. 

·         Ensure HLS GN&C resources are utilized effectively to cover high priority insight tasks, including leveraging support from NASA centers (LaRC, JSC, JPL, et. al.) with key GN&C expertise.

·         Work with potential university partnerships to enhance skills in Guidance and Control.

 

*

Create Your Career\:

Grow With Us

Your growth matters to us—that’s why we offer a variety of ways for you to develop your career. With professional and leadership development opportunities like Team Lead Academy, education reimbursement, mentoring, and company sponsored networking events, you can take control of your own career path on your own terms with a company that believes in you.

 

A Place Where You Belong

People are at the heart of our business. We reflect a diversity of cultures, backgrounds, and experiences. We expect our people, clients, and partners to treat one another with dignity and respect. This means promoting inclusion, celebrating diversity, and appreciating the differences we all bring to our workplace.

 

Support Your Well-Being

Our comprehensive benefits package includes wellness programs, 11 paid holidays, paid time off, employee perks and much more.  With these benefits, plus the option for flexible schedules and possible remote a few days a week (depending on customer requirements) we’ll support you as you pursue a balanced, fulfilling life—at work and at home.

The Space Exploration Group Guidance, Navigation, and Control (GN&C) team is a high performing group executing challenging tasks to design and integrate GN&C systems for projects ranging from CubeSats to NASA’s Space Launch System (SLS). We are searching for highly qualified candidates to support the design, development, and oversight of the Human Lander Systems (HLS) Program in the Control Systems Design and Analysis branch at NASA’s Marshall Space Flight Center as the Deputy GN&C POC for SpaceX.  The role will focus on GN&C discussions with SpaceX’s GN&C lead about everything GN&C, such as orbit insertion, decent guidance/landing, controllability, rendezvous, proximity, operations and docking (RPOD), manual steering, etc.  This exciting work will serve as a critical step in sending humans back to the Moon, Mars and beyond

More detailed responsibilities include but are not limited to\:

·         Acts as a NASA GN&C POC and interfaces with NASA’s HLS partners and cross-program organizations (Orion/Gateway/SLS).

·         Works closely with partner and cross-program organizations to resolve open requirements, and assist requirement maturation, seek understanding of a partner’s design/test data, potentially participate in partners’ tests, and lead Working Group meetings between partner and cross-program organizations.

·         Develop, track, and communicate HLS GN&C risks, concerns, and watch items associated with a particular partner to the HLS program.

·         Develop, present, and execute the HLS GN&C discipline elevated insight plans, independent analysis conducted by the HLS GN&C discipline, to inform HLS of design/mission risks. Work with HLS mission segment leads to identify areas where elevated insight is needed.

·         Lead HLS-GN&C insight meetings, NASA-only and with a partner. Support other HLS meetings as needed, with partners and NASA-only.

·         Provide status of HLS GN&C key insight activities to HLS (SVS and SE&I), and MSFC-EV department on a weekly/bi-weekly basis

·         Steward insight plan execution, including planning and direct analysis products and their fidelity.

·         Supports insight development of Planning, Programming, Budgeting, and Execution (PPBE) cycles for the HLS GN&C discipline, which includes resource breakdown by center and branch needed by the HLS GN&C discipline to accomplish the insight plans.

·         Actively find NASA expert reviewers to assess key areas of partner risk. E.g. if an HLS partner is developing a GN&C sensor, seek expertise across NASA to review partner’s development plans to assess partners adequacy of qualification plans before certification for flight. 

·         Ensure HLS GN&C resources are utilized effectively to cover high priority insight tasks, including leveraging support from NASA centers (LaRC, JSC, JPL, et. al.) with key GN&C expertise.

·         Work with potential university partnerships to enhance skills in Guidance and Control.

 

*

A degree in Aerospace, Mechanical or Electrical Engineering or related field from an ABET accredited institution is required. Typical experience requirements are the equivalent of a PhD with at least 15 years of experience, a master’s with at least 17 years of experience, or BS with at least 19 years of experience.

Required skills/experience\: (Strong evidence of the following skills and experience is needed\:)

·         Minimum of 15 years of experience performing modeling, simulation, and analysis of  launch vehicles and/or spacecraft Guidance, Navigation, and Control (GN&C) systems, with a few years of experience in a leadership, coordination, or integration role. 

·         Proficiency in GN&C analysis tools and software (e.g., MATLAB, Simulink, STK, Python, etc.) and relevant spacecraft design and test methods.

·         Relevant experience performing GN&C insight/oversight for spaceflight.

·         Ability to coordinate and lead cross-functional teams with internal and external partners to align GN&C analysis activities with program goals and priorities.

·         Experience with risk management and technical issue resolution related to GN&C systems, including risk identification, tracking, mitigation, and communication to stakeholders.  This includes the ability to guide teams through technical challenges.

·         Experience with planning and resource allocation for GN&C tasks.

·         In-depth understanding of spacecraft mission design and experience with system engineering principles, including requirements management, systems integration, testing, and verification, particularly in a GN&C context.

 

Desired skills or experience in one or more of the following areas\:

Experience modeling, simulating, designing, and analyzing sensors/actuators and algorithms in one or more of the following Flight Mechanics areas\:

o   Navigation\:  sensor modeling (gyroscopes, accelerometers, inertial measurement units (IMUs),  GPS, radar, and/or star trackers), kalman filters

o   Guidance\: linear terminal velocity constraints, powered explicit guidance, optimal guidance, powered/terminal descent, proportional navigation, Entry Descent and Landing (EDL).

o   Controls\: control systems design (PID, Modern/state space, adaptive, etc.) using thrust vector control actuators (hydraulic and/or electromechanical), and/or Reaction Control Systems (thrusters) using phase plane control algorithms, or other feedback-controlled effectors; Stability and frequency domain analysis (Nichols, Bode, Nyquist, Root Locus, etc.) using parametric, Monte Carlo, and statistical techniques.  Modeling of aerodynamics, rigid body, flex, slosh, pogo, and other dynamics impacting vehicle stability.

o   Dynamics / Trajectories / 3 DoF / 6 DoF / Mission design\: work with coordinate frames, and transformations; deriving linear and nonlinear EOMs for multi-body dynamic systems; trajectory and orbital dynamics; liftoff, separation, rendezvous, and docking; path planning and optimization; aborts; and range safety.

·         Familiarity with Artemis mission concepts of operations and SpaceX launch, landing, and space vehicles’ processes particularly in the GN&C area.

·         Ability to manage resources, collaboration, and technical interfaces with various disciplines and/or projects, contractors, and industry partners to ensure effective use of expertise to support program goals.

·         Proven ability to identify, engage, and coordinate GN&C experts to provide insight and assessments of critical development activities, including qualification and certification processes.

·         Familiarity with NASA’s spaceflight certification processes and experience working with certification and test data to ensure flight readiness.

·         Experience with university partnerships to enhance GN&C capabilities and skills, fostering innovation and research within the space community.

Relevant certifications in project management, such as PMP (Project Management Professional), or similar qualifications.

Essential Functions

Work Environment\: 

Office environment. Requires ability to provide clear, concise, accurate and timely communication, both verbally and in writing (100%). Requires ability to interact professionally with co-workers, management, and client (100%). Requires travel in the domestic USA (10%).  Requires ability to work at a computer for long periods of time(100%).

Physical Requirements\:

Requires sitting for extended periods of time in meetings with peers, management, and with our client at NASA facilities to discuss technical issues (10%). Also, requires sitting for extended periods of time at a desk to write reports and perform engineering tasks (80%). Requires ability to use stairs or elevators for access between floors and multiple buildings at NASA and our facilities (10%).  

Equipment and Machines\: 

Requires ability to operate a personal computer, a telephone, fax machine, copier, calculator, and other general office equipment (100%).

Attendance\: 

Normal workday 7\:30 – 4\:30, Monday thru Friday.  Minimal overtime may be required (10%) to meet schedule milestones and to support technical demands of the job. Regular attendance is a necessity, and adequate arrangements for delegating duties during absences are required. 

Other Essential Functions\:

 

The ability to work independently with minimal supervision, and to make rational decisions, and to exercise good judgment is essential (100%). Grooming and dress must be appropriate for the position and must not impose a safety risk/hazard to the employee or others.

 

Proof of U.S. Citizenship is required. 

#ESSCA #ASEG #JSEG

*

A degree in Aerospace, Mechanical or Electrical Engineering or related field from an ABET accredited institution is required. Typical experience requirements are the equivalent of a PhD with at least 15 years of experience, a master’s with at least 17 years of experience, or BS with at least 19 years of experience.

Required skills/experience\: (Strong evidence of the following skills and experience is needed\:)

·         Minimum of 15 years of experience performing modeling, simulation, and analysis of  launch vehicles and/or spacecraft Guidance, Navigation, and Control (GN&C) systems, with a few years of experience in a leadership, coordination, or integration role. 

·         Proficiency in GN&C analysis tools and software (e.g., MATLAB, Simulink, STK, Python, etc.) and relevant spacecraft design and test methods.

·         Relevant experience performing GN&C insight/oversight for spaceflight.

·         Ability to coordinate and lead cross-functional teams with internal and external partners to align GN&C analysis activities with program goals and priorities.

·         Experience with risk management and technical issue resolution related to GN&C systems, including risk identification, tracking, mitigation, and communication to stakeholders.  This includes the ability to guide teams through technical challenges.

·         Experience with planning and resource allocation for GN&C tasks.

·         In-depth understanding of spacecraft mission design and experience with system engineering principles, including requirements management, systems integration, testing, and verification, particularly in a GN&C context.

 

Desired skills or experience in one or more of the following areas\:

Experience modeling, simulating, designing, and analyzing sensors/actuators and algorithms in one or more of the following Flight Mechanics areas\:

o   Navigation\:  sensor modeling (gyroscopes, accelerometers, inertial measurement units (IMUs),  GPS, radar, and/or star trackers), kalman filters

o   Guidance\: linear terminal velocity constraints, powered explicit guidance, optimal guidance, powered/terminal descent, proportional navigation, Entry Descent and Landing (EDL).

o   Controls\: control systems design (PID, Modern/state space, adaptive, etc.) using thrust vector control actuators (hydraulic and/or electromechanical), and/or Reaction Control Systems (thrusters) using phase plane control algorithms, or other feedback-controlled effectors; Stability and frequency domain analysis (Nichols, Bode, Nyquist, Root Locus, etc.) using parametric, Monte Carlo, and statistical techniques.  Modeling of aerodynamics, rigid body, flex, slosh, pogo, and other dynamics impacting vehicle stability.

o   Dynamics / Trajectories / 3 DoF / 6 DoF / Mission design\: work with coordinate frames, and transformations; deriving linear and nonlinear EOMs for multi-body dynamic systems; trajectory and orbital dynamics; liftoff, separation, rendezvous, and docking; path planning and optimization; aborts; and range safety.

·         Familiarity with Artemis mission concepts of operations and SpaceX launch, landing, and space vehicles’ processes particularly in the GN&C area.

·         Ability to manage resources, collaboration, and technical interfaces with various disciplines and/or projects, contractors, and industry partners to ensure effective use of expertise to support program goals.

·         Proven ability to identify, engage, and coordinate GN&C experts to provide insight and assessments of critical development activities, including qualification and certification processes.

·         Familiarity with NASA’s spaceflight certification processes and experience working with certification and test data to ensure flight readiness.

·         Experience with university partnerships to enhance GN&C capabilities and skills, fostering innovation and research within the space community.

Relevant certifications in project management, such as PMP (Project Management Professional), or similar qualifications.

Essential Functions

Work Environment\: 

Office environment. Requires ability to provide clear, concise, accurate and timely communication, both verbally and in writing (100%). Requires ability to interact professionally with co-workers, management, and client (100%). Requires travel in the domestic USA (10%).  Requires ability to work at a computer for long periods of time(100%).

Physical Requirements\:

Requires sitting for extended periods of time in meetings with peers, management, and with our client at NASA facilities to discuss technical issues (10%). Also, requires sitting for extended periods of time at a desk to write reports and perform engineering tasks (80%). Requires ability to use stairs or elevators for access between floors and multiple buildings at NASA and our facilities (10%).  

Equipment and Machines\: 

Requires ability to operate a personal computer, a telephone, fax machine, copier, calculator, and other general office equipment (100%).

Attendance\: 

Normal workday 7\:30 – 4\:30, Monday thru Friday.  Minimal overtime may be required (10%) to meet schedule milestones and to support technical demands of the job. Regular attendance is a necessity, and adequate arrangements for delegating duties during absences are required. 

Other Essential Functions\:

 

The ability to work independently with minimal supervision, and to make rational decisions, and to exercise good judgment is essential (100%). Grooming and dress must be appropriate for the position and must not impose a safety risk/hazard to the employee or others.

 

Proof of U.S. Citizenship is required. 

#ESSCA #ASEG #JSEG

All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability or protected veteran status.
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