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Intelligibility of synthesized voice messages in commercial truck cab noise for normal-hearing and hearing-impaired listenersMorrison, H. Boyd 30 June 2009 (has links)
A human factors experiment was conducted to assess the intelligibility of synthesized speech under a variety of noise conditions for both hearing-impaired and normal-hearing subjects. Modified Rhyme Test stimuli were used to determine intelligibility in four speech-to-noise (S/N) ratios (0, 5, 10, and 15 dB), and three noise types, consisting of flat-by-octaves (pink) noise, interior noise of a currently produced heavy truck, and truck cab noise with added background speech. A quiet condition was also investigated. During recording of the truck noise for the experiment, in-cab noise measurements were obtained. According to OSHA standards, these data indicated that drivers of the sampled trucks have a minimal risk for noise-induced hearing loss due to in-cab noise exposure when driving at freeway speeds because noise levels were below 80 dBA. In the intelligibility experiment, subjects with hearing loss had significantly lower intelligibility than normal-hearing subjects, both in quiet and in noise, but no interaction with noise type or S/N ratio was found. Intelligibility was significantly lower for the noise with background speech than the other noises, but the truck noise produced intelligibility equal to the pink noise. An analytical prediction of intelligibility using Articulation Index calculations exhibited a high positive correlation with the empirically obtained intelligibility data for both groups of subjects. / Master of Science
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Investigation into road rumble in a light utility vehicleWade, Andrew David 03 1900 (has links)
Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2005. / Vehicle Noise, Vibration and Harshness (NVH) is now a more important
component of the vehicle design process than ever. Road noise is one of the
key criteria used by potential buyers (albeit subconsciously) to choose what
they perceive as the best vehicle.
Road rumble is a key concern for vehicle manufacturers. Light Utility
Vehicles (LUVs) are especially sensitive to a low frequency booming noise
due to the fundamental acoustic mode that exists in the vehicle cabin. An
investigation into this booming noise in an LUV is documented. The noise
is identified and quantified after which the source of the noise in the vehicle
cabin is identified using NVH techniques such as Acoustic Modal Analysis
(AMA), Experimental Modal Analysis (EMA) and Transfer Path Analysis
(TPA). The cabin’s fundamental acoustic mode lay at 100 Hz. Finally the
source of the vibrations in the vehicle leading to the booming noise in the
cabin is identified, along with its transfer path to the cabin.
Solutions for the specific vehicle’s booming noise are proposed, two of
which are tested with some success. Solutions to the problems associated
with the fundamental acoustic mode of LUVs are also proposed and discussed.
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