Manjit S. Sahota scite author profile

Directional properties of the sound transformation at the ear of four intact echolocating bats, Eptesicus fuscus, were investigated via measurements of the head-related transfer function (HRTF). Contributions of external ear structures to directional features of the transfer functions were examined by remeasuring the HRTF in the absence of the pinna and tragus. The investigation mainly focused on the interactions between the spatial and the spectral features in the bat HRTF. The pinna provides gain and shapes these features over a large frequency band (20-90 kHz), and the tragus contributes gain and directionality at the high frequencies (60 to 90 kHz). Analysis of the spatial and spectral characteristics of the bat HRTF reveals that both interaural level differences (ILD) and monaural spectral features are subject to changes in sound source azimuth and elevation. Consequently, localization cues for horizontal and vertical components of the sound source location interact. Availability of multiple cues about sound source azimuth and elevation should enhance information to support reliable sound localization. These findings stress the importance of the acoustic information received at the two ears for sound localization of sonar target position in both azimuth and elevation.

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Effect of Respirator Inspiratory Resistance Level on Constant Load Treadmill Work Performance

Johnson

Scott

Lausted

et al. 1999

American Industrial Hygiene Association Journal

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Respirator inspiratory resistance can affect performance times, especially when the experiment is optimized to elicit respiratory stress. Twelve subjects performed on a treadmill at constant speeds and grades chosen to result in performance times of 5-15 min. Six levels of inspiratory resistance were used, ranging from 0.78 to 7.64 cm H2O.sec/L. The results showed that performance times decrease linearly with resistance level, and no threshold resistance value is apparent. Inspiratory resistance also induces hypoventilation, with lower minute volumes and lower oxygen consumption values at higher resistances. These trends are also linear. From these results, there is no value for inspiratory resistance that can be given as a design goal. Other parameters such as weight and space may dictate filter resistance values, and these, in turn, will lead to determined performance degradations.

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Thermal conductivity of ultrahigh‐modulus polyethylene

Gibson

Greig

Sahota

et al. 1977

J. Polym. Sci. B Polym. Lett. Ed.

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Effect of External Dead Volume on Performance While Wearing a Respirator

Johnson¹,

Scott²,

Lausted³

et al. 2000

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A Variable Explicit/Implicit Numerical Method for Calculating Advection on Unstructured Meshes

O’Rourke¹,

Sahota²

1998

Journal of Computational Physics

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Manjit S. Sahota

The bat head-related transfer function reveals binaural cues for sound localization in azimuth and elevation

Effect of Respirator Inspiratory Resistance Level on Constant Load Treadmill Work Performance

Thermal conductivity of ultrahigh‐modulus polyethylene

Effect of External Dead Volume on Performance While Wearing a Respirator

A Variable Explicit/Implicit Numerical Method for Calculating Advection on Unstructured Meshes

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