The aerodynamic, structural, and system choices of today define the aircraft performance of tomorrow and can make or break the aircraft program’s 10 to 40 year future. An integrated digitalization strategy accelerates aircraft programs and reduces engineering risk to achieve better designs faster, thus eliminating costly issues later in design cycle.
The aerodynamic, structural, and system choices of today define the aircraft performance of tomorrow and can make or break the aircraft program’s 10 to 40 year future. An integrated digitalization strategy accelerates aircraft programs and reduces engineering risk to achieve better designs faster, thus eliminating costly issues later in design cycle.
Modern air framers are faced with extraordinary levels of systems and structural complexity. Electrification, fuel efficiency, system integration, new structures, and aerodynamic configurations are driving the industry. Meeting the performance engineering challenges of modern aircraft design requires a new digital strategy, failing which will lead to program delays, redesigns, compromised performance, and ballooning budget and delivery time.
With accurate digitalization strategies, engineering groups are achieving better designs early in the design process and eliminating costly issues later in the development cycle. Our solution portfolio provides tools to help build scalable aircraft digital twins in support of mission critical performances goals from structures, aerodynamics, systems performance, thermal management, to verification and certification management.
Our products enable aircraft organizations to analyze virtually all aircraft performance aspects in a unique scalable way - from individual components to a fully integrated aircraft, from concept to certification, covering multiple physics, and addressing functional and detailed behavioral levels. These Product Digital Twins make it possible to find innovative engineering solutions that maximize aircraft performance faster and at lower costs.
Explore the key areas of this solution.
Design and discover new aerodynamic, structural and propulsion concepts to lower emissions and fuel consumption while carrying larger loads.
Improve integration, verification and certification processes by a smart combination of simulation and test methods to reach earlier maturity.
Reach an optimal structural definition with guaranteed life time under realistic loads early.
Reduce time-to-market and costs by assessing systems interactions early in the design phase using Virtual Integrated Aircraft (VIA) methodology.
Address thermal challenges related to aircraft electrification, usage of composites and tighter regulations by managing the thermal behavior from component up to the integrated aircraft.
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Accelerate RAMS aerospace processes with a digital risk twin
