FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2040791796> ?p ?o ?g. }

• W2040791796 endingPage "138" @default.
• W2040791796 startingPage "131" @default.
• W2040791796 abstract "No adequate theory for the signal-transmission properties of the peripheral auditory system exists for any vertebrate ear. Because the mammalian ear seems to pose conceptual and technical problems that complicate the development of an adequate theory, it is worthwhile to investigate simpler ears. The ear of the alligator lizard is simpler than mammalian ears in several respects: the motion of the basilar membrane is approximately independent of longitudinal position and is approximately linearly related to the sound pressure at the tympanic membrane; in a large region of the cochlea the hair cells have free-standing stereocilia that are not in contact with a tectorial membrane; the receptor potential of these hair cells is related to the sound pressure at the tympanic membrane in a relatively simple manner; the cochlear-nerve fiber responses from this region do not exhibit two-tone rate suppression. Also, the relative accessibility of this ear has enabled measurement of several response variables: tympanic-membrane volume velocity, extracolumella velocity, basilar-membrane velocity, hair-cell stereociliary displacement, hair-cell receptor potentials, and cochlearnerve-fiber discharges. A model is developed to represent these results in terms of underlying anatomical structures and physiological mechanisms. The model consists of four cascaded signal-processing stages: (1) a macromechanical stage that relates the sound pressure at the tympanic membrane to the velocity of the basilar membrane by an acoustico-mechanical network model of the middle and inner ear and which acts as a bandpass, linear, time-invariant filter; (2) a micromechanical stage that relates the velocity of the basilar membrane to the angular displacement of the hair-cell stereocilia by a hydrodynamic system that acts as a tonotopically-organized, bandpass, linear, time-invariant filter; (3) a mechanoelectric transduction stage that relates the angular displacement of the stereocilia to a change in membrane resistance through a set of angular-displacement-controlled membrane ionic channels and which behaves as a memoryless nonlinear function; (4) an electric stage that relates the change in resistance to the receptor potential by an electric network model of a hair cell that behaves approximately as a lowpass filter. This model predicts most — but not all — of the measured signal-transmission properties of this ear." @default.
• W2040791796 created "2016-06-24" @default.
• W2040791796 creator A5017869946 @default.
• W2040791796 creator A5061707619 @default.
• W2040791796 creator A5074381151 @default.
• W2040791796 date "1985-01-01" @default.
• W2040791796 modified "2023-09-26" @default.
• W2040791796 title "A model for signal transmission in an ear having hair cells with free-standing stereocilia. I. Empirical basis for model structure" @default.
• W2040791796 cites W1964865521 @default.
• W2040791796 cites W1968780390 @default.
• W2040791796 cites W1970876161 @default.
• W2040791796 cites W1971163064 @default.
• W2040791796 cites W1976035501 @default.
• W2040791796 cites W1978921700 @default.
• W2040791796 cites W1979689899 @default.
• W2040791796 cites W1983588482 @default.
• W2040791796 cites W1987303129 @default.
• W2040791796 cites W1997831837 @default.
• W2040791796 cites W1998353994 @default.
• W2040791796 cites W2002999459 @default.
• W2040791796 cites W2003576683 @default.
• W2040791796 cites W2005029039 @default.
• W2040791796 cites W2006491358 @default.
• W2040791796 cites W2010060497 @default.
• W2040791796 cites W2019828709 @default.
• W2040791796 cites W2024922589 @default.
• W2040791796 cites W2025971607 @default.
• W2040791796 cites W2030252261 @default.
• W2040791796 cites W2038882828 @default.
• W2040791796 cites W2039130308 @default.
• W2040791796 cites W2040435777 @default.
• W2040791796 cites W2041351498 @default.
• W2040791796 cites W2047002718 @default.
• W2040791796 cites W2050677366 @default.
• W2040791796 cites W2051493438 @default.
• W2040791796 cites W2054524540 @default.
• W2040791796 cites W2055964289 @default.
• W2040791796 cites W2059854031 @default.
• W2040791796 cites W2066300165 @default.
• W2040791796 cites W2069383759 @default.
• W2040791796 cites W2072311869 @default.
• W2040791796 cites W2075207851 @default.
• W2040791796 cites W2076842189 @default.
• W2040791796 cites W2077170826 @default.
• W2040791796 cites W2077355960 @default.
• W2040791796 cites W2078944480 @default.
• W2040791796 cites W2079612585 @default.
• W2040791796 cites W2080767782 @default.
• W2040791796 cites W2084156154 @default.
• W2040791796 cites W2087874498 @default.
• W2040791796 cites W2093058244 @default.
• W2040791796 cites W2093082456 @default.
• W2040791796 cites W2093427123 @default.
• W2040791796 cites W2097873661 @default.
• W2040791796 cites W2111954478 @default.
• W2040791796 cites W2121901230 @default.
• W2040791796 cites W2148133689 @default.
• W2040791796 cites W2180842083 @default.
• W2040791796 cites W2282080903 @default.
• W2040791796 cites W2287110578 @default.
• W2040791796 cites W2322089004 @default.
• W2040791796 cites W2402747036 @default.
• W2040791796 cites W2413383837 @default.
• W2040791796 cites W4210942129 @default.
• W2040791796 cites W4237052766 @default.
• W2040791796 cites W4240888145 @default.
• W2040791796 cites W4249697313 @default.
• W2040791796 doi "https://doi.org/10.1016/0378-5955(85)90164-9" @default.
• W2040791796 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/4086380" @default.
• W2040791796 hasPublicationYear "1985" @default.
• W2040791796 type Work @default.
• W2040791796 sameAs 2040791796 @default.
• W2040791796 citedByCount "14" @default.
• W2040791796 crossrefType "journal-article" @default.
• W2040791796 hasAuthorship W2040791796A5017869946 @default.
• W2040791796 hasAuthorship W2040791796A5061707619 @default.
• W2040791796 hasAuthorship W2040791796A5074381151 @default.
• W2040791796 hasConcept C105702510 @default.
• W2040791796 hasConcept C121332964 @default.
• W2040791796 hasConcept C24890656 @default.
• W2040791796 hasConcept C2776557274 @default.
• W2040791796 hasConcept C2778500370 @default.
• W2040791796 hasConcept C2778585322 @default.
• W2040791796 hasConcept C2780130748 @default.
• W2040791796 hasConcept C2780659331 @default.
• W2040791796 hasConcept C2780807236 @default.
• W2040791796 hasConcept C2781404453 @default.
• W2040791796 hasConcept C2781459932 @default.
• W2040791796 hasConcept C68115822 @default.
• W2040791796 hasConcept C86803240 @default.
• W2040791796 hasConceptScore W2040791796C105702510 @default.
• W2040791796 hasConceptScore W2040791796C121332964 @default.
• W2040791796 hasConceptScore W2040791796C24890656 @default.
• W2040791796 hasConceptScore W2040791796C2776557274 @default.
• W2040791796 hasConceptScore W2040791796C2778500370 @default.
• W2040791796 hasConceptScore W2040791796C2778585322 @default.
• W2040791796 hasConceptScore W2040791796C2780130748 @default.
• W2040791796 hasConceptScore W2040791796C2780659331 @default.

• next