In this role, you will plan, conduct and report on helicopter flight tests with respect to structures and dynamics. Our responsibilities include initial envelope expansion and development tests, flight loads/strain and vibration surveys, dynamic stability tests and structural oversight of tests performed by other disciplines.
In this role, you will be responsible for design, development, integration, verification and validation of electrical and electromechanical test program set solutions including SW for circuit card assemblies, subassemblies and systems targeted for Electro Optical Test Stations.
In this role, the selected candidate will be responsible for planning function involves determining measurement and flight condition requirements necessary to safely provide evaluation, qualification and certification data.
In this role, you will be responsible for developing presentations for design reviews, and providing floor support to technicians in assembly areas and offsite at launch facilities, to ensure mechanical hardware is produced with high first-time quality build yields within cost targets and on time for delivery to various internal and external customers.
In this role, you will provide efforts for ongoing support and maintenance of existing tools and applications; develop scripts and automation tools to perform regression testing on product software releases.
In this role, you will be responsible to develop and execute verification and validation test plans and procedures, prepare and assess the system readiness, provide test data for analysis, and conduct briefs or debriefs with the customer.
In this role, the selected candidate will work with the missile subsystem engineers, test engineers and our Navy customer counterparts to resolve test anomalies, track test schedules and review test reports.
The primary responsibility of the role is to develop Test Program Sets of electro-optical, RF mechanical and electro-mechanical units under test utilizes hardware, software, documentation, and test procedures.