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A Cybernetic Approach to Assess Flight Simulator Motion Fidelity

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引用

Pool, D., Zaal, P., Damveld, H., van Paassen, M., & Mulder, M. (2010). A Cybernetic Approach to Assess Flight Simulator Motion Fidelity. In F., Vanderhaegen (Ed.), IFAC Proceedings Volumes (pp. 380-385). Oxford, UK: Pergamon Press.


引用: https://hdl.handle.net/11858/00-001M-0000-0013-BE62-5
要旨
Due to a limited understanding of human multimodal motion perception during aircraft control, the definition of requirements for flight simulator motion fidelity is a problem the flight simulation community has struggled with for years. The development of adequate tuning procedures for motion washout algorithms has remained problematic for the same reason. This paper proposes a method for assessment of simulator motion fidelity that makes use of a cybernetic, model-based approach to measuring multimodal pilot control behavior. As illustrated here with data from a recent human-in-the-loop experiment, this approach allows for objective detection of changes in pilot control that result from degraded simulator motion fidelity.