Integrated aeronautical design intelligence — requirements engineering, analytical synthesis, regulatory alignment, and CAD-integrated workflows.

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Programme economics

Optimise capital expenditure and time-to-decision

Aerospace programmes frequently incur avoidable expenditure through late-stage design iteration, fragmented assurance reviews, and insufficient visibility prior to commitment. Aero AI consolidates early ROM intelligence, regulatory pathway indication, and structured gate reviews — enabling informed executive and engineering decisions at the concept phase.

  1. Indicative ROM cost and schedule intelligence

    Obtain rough-order-magnitude cost envelopes and indicative lead-time assessments during pre-validation, prior to the escalation of detailed design and certification expenditure.

  2. Mitigation of downstream rework

    Systematic completeness review, mass–power feasibility alerts, and prospective regulatory mapping identify deficiencies whilst design parameters remain tractable, reducing the incidence of high-cost correction cycles.

  3. Evidence-based conceptual baselines

    Benchmark proposed missions against institutional project archives and the reference aircraft catalogue to capitalise on established configurations and domain knowledge.

  4. Accelerated, auditable iteration

    Governed design iterations with parameter retention replace ad hoc documentation practices, establishing a single authoritative programme record suitable for review and traceability.

Platform capabilities

End-to-end support from requirements capture to concept visualisation

Aero AI delivers a unified environment for aeronautical design intelligence: formalising requirements, substantiating feasibility, advancing the design envelope, and articulating concepts to technical and programme stakeholders.

  1. Structured aircraft programme definition

    Capture aircraft classification, operational role, propulsion architecture, mission performance parameters (MTOW, installed power, design radius, occupancy), unit conventions, and CAD export targets including STEP, PTC Creo, Dassault CATIA, and SolidWorks.

  2. Portfolio and catalogue similarity analysis

    Evaluate conceptual proximity against in-house programmes and the curated reference catalogue to inform reuse strategy and risk posture.

  3. Pre-validation and regulatory alignment

    Execute integrated completeness assessment, applicable regulation proposition (including EASA CS, FAA FAR, and UAS frameworks), technical advisories, and consolidated readiness determination within a single assurance report.

  4. Controlled iteration, visualisation, and design dialogue

    Progress design maturity through versioned iterations with selective parameter locking, generate concept visualisations for stakeholder communication, and maintain a recorded technical dialogue within the programme workspace.

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