Acoustics, Ear canal, Middle ear, Cochlea and Stapes are his primary areas of study. His research in Acoustics is mostly concerned with Eardrum. His Ear canal study combines topics in areas such as Transmitter and Sound pressure.
His research investigates the connection between Middle ear and topics such as Acoustic impedance that intersect with issues in Anisotropy and Mathematical model. His study in the fields of Basilar membrane and Cochlear amplifier under the domain of Cochlea overlaps with other disciplines such as Gerbil. He combines subjects such as Vestibule and Temporal bone with his study of Stapes.
His primary areas of investigation include Acoustics, Middle ear, Ear canal, Cochlea and Anatomy. His Acoustics research integrates issues from Stapes and Microphone. His Stapes research is multidisciplinary, incorporating elements of Footplate, Sound pressure and Umbo.
His Middle ear research incorporates themes from Bone conduction, Audiology and Temporal bone. His study in Ear canal is interdisciplinary in nature, drawing from both Finite element method, Sound localization, Sound and Acoustic impedance. His work on Basilar membrane and Organ of Corti as part of general Cochlea study is frequently linked to Chemistry, therefore connecting diverse disciplines of science.
Sunil Puria spends much of his time researching Acoustics, Middle ear, Cochlea, Ear canal and Stapes. The Acoustics study combines topics in areas such as Round window, Finite element method and Microphone. His biological study spans a wide range of topics, including Inner ear and Sound pressure.
The various areas that he examines in his Cochlea study include Vibration and Bone conduction. Sunil Puria works mostly in the field of Ear canal, limiting it down to concerns involving Umbo and, occasionally, Mechanical engineering and High-gain antenna. His studies deal with areas such as Footplate and Ossicles as well as Stapes.
Sunil Puria focuses on Acoustics, Cochlea, Audiology, Ear canal and Transducer. His studies in Acoustics integrate themes in fields like Speech recognition, Sensitivity and Middle ear. His Middle ear research is multidisciplinary, incorporating perspectives in Round window, Magnet and Electromagnetic coil.
His work on Organ of Corti and Basilar membrane as part of general Cochlea study is frequently linked to Gerbil, bridging the gap between disciplines. Many of his research projects under Audiology are closely connected to Light driven with Light driven, tying the diverse disciplines of science together. His research in Ear canal intersects with topics in Mechanical engineering, Finite element method, Characterization and Audio signal.
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Human middle-ear sound transfer function and cochlear input impedance.
Ryuichi Aibara;Joseph T. Welsh;Sunil Puria;Richard L. Goode;Richard L. Goode.
Hearing Research (2001)
Sound enhancement for mobile phones and other products producing personalized audio for users
Scott R. Radar;Christoph Menzel;Brent W. Edwards;Sunil Puria.
Journal of the Acoustical Society of America (2002)
Measurements of human middle ear forward and reverse acoustics: Implications for otoacoustic emissions
Journal of the Acoustical Society of America (2003)
SOUND-PRESSURE MEASUREMENTS IN THE COCHLEAR VESTIBULE OF HUMAN-CADAVER EARS
Sunil Puria;William T. Peake;John J. Rosowski.
Journal of the Acoustical Society of America (1997)
System and method for remotely administered, interactive hearing tests
Brent W. Edwards;Christoph Menzel;Sunil Puria.
Journal of the Acoustical Society of America (2001)
The ipsilaterally evoked olivocochlear reflex causes rapid adaptation of the 2 f1−f2 distortion product otoacoustic emission
M. C. Liberman;Sunil Puria;J. J. Guinan.
Journal of the Acoustical Society of America (1996)
MEASUREMENTS AND MODEL OF THE CAT MIDDLE EAR : EVIDENCE OF TYMPANIC MEMBRANE ACOUSTIC DELAY
Sunil Puria;Jont B. Allen.
Journal of the Acoustical Society of America (1998)
Basilar membrane and osseous spiral lamina motion in human cadavers with air and bone conduction stimuli.
Stefan Stenfelt;Sunil Puria;Naohito Hato;Richard L. Goode.
Hearing Research (2003)
Flextensional output actuators for surgically implantable hearing aids
Sunil Puria;Rodney C. Perkins.
Three approaches for estimating the elastic modulus of the tympanic membrane.
Jonathan Fay;Sunil Puria;Willem F. Decraemer;Charles Steele.
Journal of Biomechanics (2005)
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