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Customer Portfolio

  • Alenia Aermacchi – M346: design and modification for low observable version: Antenna installation & siting optimization; EMI risk assessment; link budget analysis; radar and infrared signature assessment, reduction and control.
  • Agusta Westland – Design and modification for special applications of AW109, AW119, AW139: Antenna installation & siting optimization; EMI risk assessment; link budget analysis; assessing the impact of components and materials on antenna performance; multi-function integrated antenna feasibility studies; assessing rotor blade modulation effects; systems performance optimization; radome and harness qualification.
  • Piaggio Aero Industries - Modification of the Piaggio P180 Avanti aircraft for radio measurement applications (installation of the UNIFIS 3000 Flight Inspection Systems): Antenna installation & siting optimization; reduction and control of interference with existing systems and antennas; assessing rotor blade modulation effects.
  • Norwegian Special Mission – Modification of the Citation Excel aircraft for radio measurement applications (installation of the UNIFIS 3000 Flight Inspection Systems): Antenna installation & siting optimization; interference with existing systems and antennas reduction.
  • HIRF-SE project: EU project aimed at providing the aeronautical industry with validated modeling tools and procedures aimed at accelerating the design and certification/qualification testing phases for both new and upgraded aeronautical platforms compliant with the requirements of aviation authorities for High Intensity Radiation fields.
  • EU Project - Design of the low observable antenna integrated in aircraft structure: Technology acquisition for the design of low signature components for aeronautical platforms. FSS (Frequency Selective Sufacea) radome and radome/fuselage transition antenna design and optimization.
  • Italian Ministry of Defense project: Design and development of RCS outdoor/indoor measurement facilities.
  • Italian Ministry of Defense project: Development of an integrated software suite implementing working procedures for antenna system installation and stealth technology design for aeronautical platforms.
  • ADD (Agency for Defence Development), South Korea: Support in the design and verification of the RCS of a low observable target (software products, know-how transfer, measurement campaign, measurement system)
  • GENIAL Project: CleanSky project aimed at developing a numerical methodology and a software tool to model the current return networks (called ALEEN, ALmost Equipotential Electrical Network)installed aboard composite aircraft.
  • ARROW Project: CleanSky project focused on the development of a numerical methodology and a CAE tool to model user defined cable-harness configurations installed aboard an aircraft equipped with an Almost Equipotential Electrical Network and made of composite and conductive materials. The aim is to evaluate voltage and currents at equipment loads induced by a lightning strike on the aircraft, in order to allow the verification of their compatibility with the design and qualification values