2023
DOI: 10.3389/fncir.2023.1190582
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Modeling orientation perception adaptation to altered gravity environments with memory of past sensorimotor states

Abstract: Transitioning between gravitational environments results in a central reinterpretation of sensory information, producing an adapted sensorimotor state suitable for motor actions and perceptions in the new environment. Critically, this central adaptation is not instantaneous, and complete adaptation may require weeks of prolonged exposure to novel environments. To mitigate risks associated with the lagging time course of adaptation (e.g., spatial orientation misperceptions, alterations in locomotor and postural… Show more

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Cited by 6 publications
(1 citation statement)
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“…Such models have been developed in an effort to better understand how the central nervous system integrates sensory cueing ( Clark et al, 2019 ). Some models of orientation perception are built upon estimation theory concepts ( MacNeilage et al, 2008 ), such as Kalman filter ( Kalman, 1960 ) models ( Laurens and Angelaki, 2017 ), particle filter models ( Laurens and Droulez, 2007 ; Karmali and Merfeld, 2012 ; Kravets et al, 2021 ; Allred et al, 2023 ), and non-linear models ( Observer models) ( Selva and Oman, 2012 ). Observer models are non-linear models of spatial orientation perception that, as a key function, use sensory conflict to predict perception ( Luenberger, 1971 ; Oman, 1982 ; Merfeld et al, 1993 ; Merfeld and Zupan, 2002 ; Zupan et al, 2002 ; Vingerhoets et al, 2007 , 2009 ; Newman, 2009 ; Rader et al, 2009 ; Williams et al, 2021 ).…”
Section: Orientation Perception Modeling Backgroundmentioning
confidence: 99%
“…Such models have been developed in an effort to better understand how the central nervous system integrates sensory cueing ( Clark et al, 2019 ). Some models of orientation perception are built upon estimation theory concepts ( MacNeilage et al, 2008 ), such as Kalman filter ( Kalman, 1960 ) models ( Laurens and Angelaki, 2017 ), particle filter models ( Laurens and Droulez, 2007 ; Karmali and Merfeld, 2012 ; Kravets et al, 2021 ; Allred et al, 2023 ), and non-linear models ( Observer models) ( Selva and Oman, 2012 ). Observer models are non-linear models of spatial orientation perception that, as a key function, use sensory conflict to predict perception ( Luenberger, 1971 ; Oman, 1982 ; Merfeld et al, 1993 ; Merfeld and Zupan, 2002 ; Zupan et al, 2002 ; Vingerhoets et al, 2007 , 2009 ; Newman, 2009 ; Rader et al, 2009 ; Williams et al, 2021 ).…”
Section: Orientation Perception Modeling Backgroundmentioning
confidence: 99%