INTER-NOISE and NOISE-CON Congress and Conference Proceedings

Noise criteria for a new Hong Kong airport
pp. 959-962(4)
Author: Burke, Richard E.

Procedure for predicting the potential impact of noise control measures on the number of mine worker overexposures
pp. 963-966(4)
Authors: Galaitsis, Anthony; Madden, Richard; Stahr, John; Redmond, Gerald

Cross-cultural examinations of noise in the neighbourhood
pp. 967-972(6)
Authors: Schick, August; Kuwano, Sonoko; Namba, Seiichiro

Some economic factors in product noise control
pp. 973-978(6)
Author: Bender, Erich K.

Costs and benefits of occupational noise control through the use of retrofit noise control treatments versus quieter designed equipment
pp. 979-984(6)
Author: Bruce, Robert D.

A critical analysis of environmental noise legislation in Australia
pp. 985-988(4)
Author: Eddington, Ian

Minimizing large fan muffler costs
pp. 989-994(6)
Authors: Ver, Istvan L.; Wood, Eric W.; Teplitzky, Allan M.

Safety of national and international hearing damage risk criteria
pp. 995-998(4)
Authors: Al-Rawas, N.Y.; Idan, M.F.

Subjective noise ratings under different noises, whole body vibrations, work loads and temperatures
pp. 999-1004(6)
Author: Manninen, Olavi

Data reduction at the measuring sites simplifies environmental noise monitoring systems
pp. 1005-1008(4)
Author: Bernard, Pierre

An automated measurement system of complex sound pressure reflection coefficients
pp. 1009-1014(6)
Authors: Fujimori, Takeshi; Sato, Sojun; Miura, Hajime

The reduction of obstructive noise in an automated noise survey system
pp. 1015-1018(4)
Authors: Konishi, Kazou; Fukushima, Akinori; Noda, Kenji

Practical difficulties found in the testing of integrating averaging sound level meters
pp. 1019-1022(4)
Author: Hedegaard, Peter

Space monitoring and personal noise exposure
pp. 1023-1026(4)
Author: Nasumoto, Kiyoshi

Digital noise badge and prevention of noise-induced hearing loss
pp. 1027-1030(4)
Authors: Ono, Hiroshi; Deguchi, Toshisada; Ino, Tadahiko; Okamoto, Ken

"Acoustical checklist" instead of dosimetry
pp. 1031-1034(4)
Author: Verwijmeren, M.A.P.

The digital storage Leq meter "How short term Leq can now become a practical method"
pp. 1035-1038(4)
Authors: Luquet, Patrick; Duisit, Richard

A method of generating "short Leq"
pp. 1039-1042(4)
Authors: Wallis, A.D.; Holding, J.M.

Low mobility measurements using unconventional transducer accessories
pp. 1043-1046(4)
Author: Jagenas, Arne

Noise path identification using face-to-face and side-by-side microphone arrangements
pp. 1047-1050(4)
Authors: Atwal, Mahabir S.; Crocker, Malcolm J.

Tape recording digitized acoustic intensity data using a video tape recorder
pp. 1051-1054(4)
Authors: Bronsdon, Robert; Hargrave, Russell

The measurement of the sound intensity transmitted into aircraft cabins and the prediction of internal noise levels
pp. 1055-1060(6)
Author: Crocker, Malcolm J.

Measurement of the complex acoustic intensity and the acoustic energy density
pp. 1061-1064(4)
Authors: Elko, G.W.; Tichy, J.

Estimation of panel loss factor by use of the two-microphone sound intensity technique
pp. 1065-1070(6)
Authors: Forssen, Bjorn; Crocker, Malcolm J.

A general formulation of the finite difference error and the level difference between sound pressure and sound intensity near an arbitrary source distribution on a surface
pp. 1071-1076(6)
Authors: Forssen, Bjorn; Crocker, Malcolm J.

Validity of intensity measurements
pp. 1077-1082(6)
Author: Gade, S.

Instrumentation for real-time surface intensity measurements
pp. 1083-1086(4)
Author: Ginn, K.B.

Development of a surface acoustic intensity probe
pp. 1087-1092(6)
Authors: Hodgson, Thomas H.; Chun, Du H.; Cook, Reginald O.

Development of requirements for an intensity measurement code determining sound power level of machines under (worst) in situ conditions
pp. 1093-1098(6)
Author: Hubner, Gerhard

Identification of sound sources using three dimensional acoustic intensity
pp. 1099-1102(4)
Authors: Maeda, T.; Ono, T.; Imaizumi, H.; Hori, K.

Simulation of the limitations induced when measuring sound power via active sound intensity
pp. 1103-1106(4)
Authors: Nicolas, J.; Lemire, G.

Measurement of sound intensity by use of a dual channel real-time analyser and a special sound intensity microphone
pp. 1107-1110(4)
Authors: Nordby, S.A.; Bjor, O.H.

Advantage of the vectorial nature of acoustic intensity to describe sound fields
pp. 1111-1114(4)
Authors: Pascal, Jean-Claude; Lu, Jiane

Practical measurement of radiation efficiency using the two microphone method
pp. 1115-1120(6)
Author: Pascal, J.C.

Statistical errors in sound power determination by intensity measurement
pp. 1121-1124(4)
Author: Pepin, H.

On rotationality of acoustic intensity fields
pp. 1125-1128(4)
Authors: Pesonen, Kari; Uosukainen, Seppo

Phase correction methods for two microphone acoustic intensity probe
pp. 1129-1132(4)
Authors: Phan, T.M.; Pascal, J.C.; Carles, C.

Practical application of intensity measurements
pp. 1133-1138(6)
Author: Rasmussen, Gunnar

Errors due to scattering effects in multiple microphone intensity probes
pp. 1139-1142(4)
Authors: Steyer, Glen; Singh, Rajendra; Houser, Donald R.

Intensity measurement errors in a reactive environment
pp. 1143-1148(6)
Authors: Thompson, J.K.; Huynh, T.

Basic intensity flow measurements in acoustic fields
pp. 1149-1154(6)
Author: Tichy, Jiri

Noise generation study of synchronous belts using acoustic intensity mapping
pp. 1155-1160(6)
Authors: Birembaut, Y.; Deschamps, M.; Tourret, J.

Direct measurement of the effects of interference between the microphones of an acoustic intensity probe
pp. 1161-1164(4)
Authors: Wagstaff, P.R.; Henrio, J.C.; Pech, R.

Comparison of conventional transmission loss measurements with intensity measurements
pp. 1165-1168(4)
Authors: Halliwell, R.E.; Warnock, A.C.C.

A portable acoustic intensity meter made as a trial
pp. 1169-1172(4)
Authors: Yano, Hiroo; Tachibana, Hideki; Ishii, Kiyoteru

Some remarks on the continuous sweeping method in sound power determination
pp. 1173-1176(4)
Author: Bockhoff, Michael

In-place dynamic sound power test method
pp. 1177-1180(4)
Author: Flint, Walker H.

Preliminary measurements of pressure, intensity and total energy density in a reverberant sound field
pp. 1181-1184(4)
Author: Hixson, Elmer L.

Accurate sound power measurements in situ?
pp. 1185-1188(4)
Author: Jonasson, Hans G.

Differences in the acoustic power levels of small equipment measured by various methods
pp. 1189-1192(4)
Authors: Okuma, T.; Koshiroi, T.; Magaki, Y.

Acoustic intensity measurements and their applications to the "partial" sound transmission losss of facade-elements and walls "in situ"
pp. 1193-1196(4)
Authors: Cauberg, J.J.M.; Puts, B.H.C.M.

The niche effect in sound transmission loss measurements - A comparison between the intensity and the two-room method
pp. 1197-1202(6)
Authors: Cops, A.; Minten, M.

Sound intensity used for sound transmission measurements
pp. 1203-1208(6)
Authors: Rasmussen, Gunnar; Rasmussen, Per

A probabilistic evaluation of sound energy fluctuations in a room affected by the time constant of the instrumentation and various absorption materials
pp. 1209-1212(4)
Authors: Iwashige, Hirofumi; Ohta, Mitsuo; Mitani, Yasuo

A practical method for systematically evaluating and eliminating the effects of instrument time constant on the measurement of reverberation time
pp. 1213-1216(4)
Authors: Yamada, Hiroshi; Ohta, Mitsuo; Kuwahara, Shinya

Absorption measurements using the two microphone intensity technique
pp. 1217-1220(4)
Authors: Gerges, Samir N.Y.; de Araujo, Marco A.N.; ed Andrade, Ednardo B.

Measurement of sound absorption coefficient in an office using sound intensity
pp. 1221-1224(4)
Authors: Sato, T.; Ishikawa, M.; Wada, S.; Koyasu, M.

Correction method for the effect of air absorption on sound absorption coefficients measured in reverberation rooms
pp. 1225-1228(4)
Authors: Tachibana, Hideki; Yoshihisa, Koichi; Hidaka, Yoshito; Ishii, Kiyoteru

Matrix printer acoustical noise reduction and measurement techniques
pp. 1229-1234(6)
Author: Andrews, Donald A.

Fan noise as related to applications in computers and business equipment
pp. 1235-1238(4)
Author: Boggess, Andrew L.

Acoustic performance and noise control for personal computers
pp. 1239-1240(2)
Author: Bonnet, D. Scott

On dual channel measurements in noise and vibration studies
pp. 1241-1244(4)
Author: Broch, Jens Trampe

Printer noise - Noise control before the source?
pp. 1245-1250(6)
Author: Burkewitz, Bart L.

Measurement of surface acoustic impedance by use of a pulse discharge sound source
pp. 1251-1254(4)
Authors: Fukunaga, K.; Shibayama, H.; Kido, K.

Measurement of high frequency noise in heme-anechoic chambers and reverberations rooms
pp. 1255-1260(6)
Authors: Gaunt, David S.; Woehrle, Kurt K.

Inter-laboratory variability in the measurement of sound emissions from computers and business equipment
pp. 1261-1266(6)
Author: Hellweg Jr, Robert D.

Requirements and measurements of noise emission from computer and business equipment
pp. 1267-1272(6)
Author: Johasson, Hans G.

New developments in printer noise control
pp. 1273-1276(4)
Authors: Kirschner, Francis; Koch, John; Lee, Eric

Influence of the standard test table when measuring sound power of table-top printers or copiers in a free-field over a reflective plane
pp. 1277-1280(4)
Author: Lachance, Benoit

Influence of measurement instruments on accuracy of noise emission measurements for computer equipment
pp. 1281-1286(6)
Author: Luttrell, Lyle F.

Scaling of emission and immission levels
pp. 1287-1290(4)
Author: Nordby, Knut S.

On the measurement of loss factors and modal densities in pipeline systems
pp. 1291-1294(4)
Authors: Norton, M.P.; Greenhalgh, R.; Ronowski, D.

A new pulse discharge sound source and its application to the measurement of acoustic diffraction
pp. 1295-1298(4)
Authors: Shibayama, H.; Fukunaga, K.; Kido, K.

Prediction of installation noise level
pp. 1299-1304(6)
Authors: Woehrle, Kurt K.; Kaiser, Lutz

Standards for the determination of the sound power of sources from the measurement of sound intensity
pp. 1305-1310(6)
Author: Crocker, Malcolm J.

Current status of work in ANSI S1.12 on specification and calibration of instruments to measure acoustic intensity
pp. 1311-1316(6)
Authors: Krishnappa, G.; Seybert, A.F.

ASTM committee E-33 standards using two microphone techniques
pp. 1317-1322(6)
Author: Lang, Mark A.

Development of standards for measuring the phase response of microphones
pp. 1323-1328(6)
Author: Nedzelnitsky, Victor

Standards using two-microphone techniques
pp. 1329-1334(6)
Author: Rasmussen, Gunnar

Periodic pseudo-random sequence as a multitone signal for the qualification of reverberation rooms
pp. 1335-1338(4)
Author: Chu, W.T.

Correlation of sound fields varied with diffuser rotation in a reverberation room
pp. 1339-1342(4)
Authors: Imai, Akihisa; Konishi, Mutsuo

Outdoor experiments on the direction and spectra of incident sound using composite complex sinusoidal modal
pp. 1343-1346(4)
Authors: Abe, Masato; Kido, Ken'iti

Representaton of an acoustic field with an expansion in series of spherical harmonics. Applications
pp. 1347-1350(4)
Authors: Piraux, Joel; Mazzanti, Silvio

Analysis of a moving sound source by cross-spectral technique - A reduction method of the Doppler effect
pp. 1351-1354(4)
Authors: Usagawa, Tsuyoshi; Ebata, Masanao; Okda, Josuke

Flaw detection and discrimination of ball bearings by vibration analysis
pp. 1355-1358(4)
Authors: Kanai, Hiroshi; Abe, Masato; Kido, Ken'iti

Machine noise as a means of tool wear monitoring in adaptive control process
pp. 1359-1362(4)
Authors: Yap, K.T.; Lim, M.K.

Detection and location of noise source in a space using cross spectra between waves at many points
pp. 1363-1366(4)
Authors: Noto, Hiroyuki; Abe, Masato; Shima, Akihiro; Kido, Ken'iti

An experimental acoustical modal analysis technique for the evaluation of cavity characteristics
pp. 1367-1370(4)
Authors: Cafeo, John A.; Trethewey, Martin W.

A simplified evaluation method of the statistical distribution of peaks and level - Crossing of random noise and vibration waves fluctuating over the positive region
pp. 1371-1374(4)
Authors: Minamihara, Hideo; Ohta, Mitsuo

A statistical estimation of spectral noise level distribution form based on partially observed data under the existence of background noise
pp. 1375-1378(4)
Authors: Yamaguchi, Shizuma; Ohta, Mitsuo

Prediction of outdoor noise with a personal computer
pp. 1379-1382(4)
Author: Hatfield, Joseph R.

A dynamic state estimation method for the stochastic environmental noise system under an arbitrary background noise based on moving average time series model
pp. 1383-1386(4)
Authors: Hatakeyama, Kazutatsu; Ohta, Mitsuo; Hakamura, Kasumasa

An easy auditory simulation system for assessing noise control
pp. 1387-1390(4)
Authors: Tanioku, Youichi; Takata, Shigetaka; Nagakura, Eriko

A nonlinear state estimate for the nonstationary stochastic sound system with varying S/N ratio and its application to the indoor/outdoor living environments
pp. 1391-1398(8)
Authors: Uchino, E.; Ohta, M.; Takakuwa, Y.

Evaluation of an indoor noise standard to limit maximum sound levels generated by aircraft and railroad noise sources
pp. 1399-1402(4)
Author: Greve, Fred

Santa Monica airport noise control program - A new concept in airport noise ordinances
pp. 1403-1406(4)
Author: Mestre, Vincent

Industrial noise: Rules and proposals related to the evaluation of risk of noise-induced deafness
pp. 1407-1410(4)
Authors: Bladacconi, A.; Spada, G.

The industrial noise campaign in the UK
pp. 1411-1416(6)
Authors: Greenwood, J.H.F.; Miles, B.E.

Technical activities of the Institute of Noise Control Engineering of the U.S.A.
pp. 1417-1426(10)
Author: Lang, William W.