PThe role is ‘multi-disciplinary’, requiring a ‘systems’ engineering approach and spanning all aspects of the VHM / HUMS life-cycle : research development of new algorithms, system specification and qualification, system fielding and in-service support. /ppThe candidate is expected to contribute to the design, development, support and innovation of both on board and on ground VHM diagnostic system, including, but not limited to : /pulliDevelopment and validation of Vibration Health Monitoring algorithms applied to the rotor drive system, rotors, engines, accessories (pumps, alternators, etc.); /liliDesign of the on-board VHM system, including sensor location and system architecture definition; /liliDevelopment of Rotor Track and Balance tools and procedures; /liliDefinition of the on-ground VHM data processing requirements, to be incorporated in the LHD maintenance ground station (Heliwise); /liliVHM threshold management, including the design of automatic tools to manage the VHM thresholds; /liliInteraction with Transmissions Department COE in order to assess and test new diagnostic techniques, support anomalous events investigations and analyze data gathered during transmission tests; /liliSupport to HUMS Product Support Engineering, including the joint definition of company procedures for the management of VHM occurrences; /liliQualitative and quantitative assessment of VHM diagnostic system reliability and performances, according to the criteria agreed with the aviation authorities; /liliDevelopment of VHM innovative solutions, also in cooperation with external suppliers (universities, consultants) /li /ulpThe ideal candidate has deep knowledge and proven experience in signal analysis methodologies and past experience in Vibration Health Monitoring systems design or in-service use. /ppHe should have a strong technical curiosity, ability in troubleshooting, a clear systemic approach, proactivity, team working attitude. /ppuSeniority : /u Junior /p #J-18808-Ljbffr