An Integrated Workflow for Structural Dynamics, Comfort, and Airbag Deployment for Virtual Seat Design
F-0082-2026-0329
5/5/2026
- Content
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This paper presents an integrated simulation workflow for aircraft seat development that combines (i) structural dynamics and certification load cases, (ii) occupant comfort and living-space assessment using finite-element digital humans, and (iii) airbag folding, deployment, and calibration using a coupled gas-dynamics solver suited to early-time transients. The workflow is built around a single manufacturing-aware, as-built seat model that is reused across comfort, certification, and restraint-system studies, allowing design iterations to move upstream before design freeze. Each stage is paired with validation or industrial case examples, and the airbag-calibration process is accelerated through reduced-order modeling (ROM) of parameter identification. The result is a practical virtual-seat-development methodology that is sufficiently predictive to de-risk physical testing while remaining fast enough for concept iteration and late-stage compliance support.
- Citation
- Dwarampudi, R. and Vaz, I., "An Integrated Workflow for Structural Dynamics, Comfort, and Airbag Deployment for Virtual Seat Design," Vertical Flight Society 82nd Annual Forum and Technology Display, West Palm Beach, Florida, May 5, 2026, https://doi.org/10.4050/F-0082-2026-0329.