INTER-NOISE and NOISE-CON Congress and Conference Proceedings

Nordic intensity measurement method
pp. 1239-1242(4)
Authors: Newman, M.J.; Pettersen, O.K.O.; Bing-Jacobsen, H.

It is the Sinc that gives the sink
pp. 1243-1246(4)
Author: Lindblad, Sven

On the measurement of energy flow along liquid filled pipes
pp. 1247-1250(4)
Author: Verheij, Jan W.

The research of corrections for unwanted reflections fro measuring sound power level in general environment
pp. 1251-1254(4)
Authors: Chen, Yeshao; Ma, Desheng

Conditional sampling of sound intensity for in-situ sound power determination with time-varying ambient noise
pp. 1255-1258(4)
Author: Pope, J.

Sound power measurement of moving vehicle
pp. 1259-1262(4)
Authors: Sun, Feng-chun; Zheng, Mu-qiao

Sound power level measurements in general rooms by the diffuse field method
pp. 1263-1266(4)
Authors: Tachibana, Hideki; Yano, Hiroo; Koyasu, Masaru

On a convenient measuring method of noise directivity of moving sources
pp. 1267-1270(4)
Authors: Tanaka, Shouichi; Takenaka, Yuichi

Probability distribution of number of sound intensity measurements for sound power determination
pp. 1271-1274(4)
Authors: Wu, Mei Q.; Crocker, Malcolm J.

The relationship of sound intensity and sound pressure in the far field of random noise sound
pp. 1275-1278(4)
Authors: Wu, Wen-qiu; Sun, Guang-rong

Some experimenta on determination of I.C. engine noise power level by using sound intensity method
pp. 1279-1282(4)
Authors: Yang, Wan-Zhou; Lou, Bing

On the accuracy of bending wave power measurements in beams
pp. 1283-1286(4)
Author: Zhao, Qichang

Sound transmission loss: Comparison of the sound intensity and the conventional methods with the statistical energy analysis model
pp. 1287-1290(4)
Authors: Cops, A.; Minten, M.; Wijnants, F.

Measurement of transmission loss using surface intensity method in building elements
pp. 1291-1294(4)
Authors: Kim, Heung Sik; Sohn, Jang Yeul; Oh, Jae Eung

An identification and the output probability prediction using a time series model of power flow for actual background insulation walls under the contamination of background noise
pp. 1295-1298(4)
Authors: Nakasako, Noboru; Ohta, Mitsuo

Measurement of sound insulation material performance with sound intensity method
pp. 1299-1302(4)
Authors: Okuma, T.; Fukuhara, H.

Laboratory measurements of sound insulation for windows and window panes
pp. 1303-1306(4)
Authors: Olesen, Henrik S.; Kruppa, Per

Estimation of reverberation time and prediction of response probability distribution in a room excited by the road traffic noise - Introduction of the information criteria and an experiment
pp. 1307-1310(4)
Authors: Fujita, Yoshifumi; Ohta, Mitsuo; Hatakeyama, Kasutatsu

Measurement of sound field properties of a room using a synchronous response-multiplication method
pp. 1311-1314(4)
Authors: Yamaguchi, Kiminori; Anzai, Masazo; Ono, Takahiko; Hirata, Yosimune

A PC-aided measurement of absorption coefficients using phase characteristics inside an impedance tube
pp. 1315-1318(4)
Authors: Eun, Hee Joon; Jun, Oh Sung; Lee, Seung Hoon

Noise control by absorbing materials - Requirements on reverberation room measurement
pp. 1319-1322(4)
Author: Goydke, Hans

Diffusion: Its practical importance in the measurement of absorption coefficients
pp. 1323-1326(4)
Authors: Lawrence, Anita; Pollard, H.P.; Rosenberger, R.

Reverberation in enclosures with disproportionate dimensions: Validity of Eyring's formula
pp. 1327-1330(4)
Authors: Sergeyev, M.V.; Kosinova, V.E.

Measurements of oblique sound absorption coefficient and sound transmission loss of materials by complex sound intensity technique
pp. 1331-1334(4)
Authors: Hamada, Yukio; Uchida, Hidenobu; Tachibana, Hideki

Measurement of impulsive noises which apparently sound continuous
pp. 1335-1338(4)
Author: Bruel, Per V.

Measurement of impulsive signals
pp. 1339-1342(4)
Author: Bruel, Per V.

Multiple input model applied to the measurements in real ships
pp. 1343-1346(4)
Author: Dukiewicz, Zygfryd J.

Application of intensity technique for measuring the radiation efficiency of a shuttering structure
pp. 1347-1350(4)
Authors: Fan, Zongxi; Saemann, Ernst Ulrich

Problems of measuring the annoyance of noise
pp. 1351-1354(4)
Author: Genuit, Klaus

A device for measuring loudness and complex acoustical signals
pp. 1355-1358(4)
Authors: Illenyi, A.; Vicsi, K.

Measurements in cars using the RASTI method
pp. 1359-1362(4)
Author: Jacobsen, Torben

Effect of ear protectors on high impulse sound levels
pp. 1363-1366(4)
Authors: Jussi, Pekkarinen; Jukka, Starck; Jukka, Ylikoski

Nonlinearity of dynamic modulus of mineral wool slabs
pp. 1367-1370(4)
Author: Pritz, T.

Damping measurements using intensity techniques
pp. 1371-1374(4)
Author: Rsmussen, Gunnar

Visualization of vibration energy flow in plate - Measurement of vibrational intensity
pp. 1375-1378(4)
Authors: Toshiroi, T.; Tateishi, S.

The use of operational deflection shapes for noise control of discrete tones
pp. 1379-1382(4)
Authors: Thrane, N.; Gade, S.

Complex modulus measurement using wide band random excitation
pp. 1383-1386(4)
Author: Zaveri, K.

Measurement of the real-ear attenuation of hearing protectors by the threshold method
pp. 1387-1390(4)
Authors: Zhong, Xaiangzhang; Wang, Jiqing; Xu, Yipeng

An acoustic rate gyro
pp. 1391-1394(4)
Authors: Bruneau, Michel; Herzog, Phillippe; Leblond, H.

Measuring results and experiences in the building acoustical laboratory in Hungary
pp. 1395-1398(4)
Author: Etelka, Vajda

On the acoustic characteristics of a low cost semi-anechoic room using heat isolation glass wool pipes
pp. 1399-1402(4)
Authors: Noda, Kenji; Takata, Sigetaka; Konishi, Kazuo

The calculation of the sound intensity distribution in a reverberation chamber
pp. 1403-1406(4)
Authors: Li, J. Zeng; Crocker, Malcolm J.

Sound intensity in a reverberation chamber
pp. 1407-1410(4)
Authors: Genhua, Dai; Lijun, Zeng

A study of frequency characteristic of the tapping-form reference noise source
pp. 1411-1414(4)
Author: Maa, Tie-ding

An investigation on the pseudocolor encoding display of noise spectrogram
pp. 1415-1418(4)
Authors: Zheng, Yi; Zhang, Lihe

Noise around industries - Coherent sound pressure for determination of source contributions
pp. 1419-1422(4)
Authors: Nilsson, Nils-Ake; Simonsson, Bengt

Computer acquisition of large data sets
pp. 1423-1426(4)
Authors: Wallis, Alan D.; Luquet, S.P.

The evaluation of low-frequency knock of precise gearbox via spectra distance measure
pp. 1427-1430(4)
Authors: Chang, Hanfu; Qu, Liangshen; Ma, Zhongli

An approach to monitoring welding proceses using acoustic signals
pp. 1431-1434(4)
Authors: Feng, Le-peng; Maa, Dah-You; Wu, Lin

Autoregressive Cepstrum and its application in noise diagnosis of gearboxes
pp. 1435-1438(4)
Authors: He, Zhengjia; Sheng, Yudi; Qu, Liangshen

Qunatitative diagnosis of gear-wear by analysis of noise spectrum
pp. 1439-1442(4)
Authors: Tang, He; Wang, Yuanhui; Ying, Huaiqiao; Zhang, Ce

Identifying gear defects with the method of sound energy position-locked averaging (SEPLA)
pp. 1443-1446(4)
Authors: Wu, Jiang; Sheng, Bo Hao; Pan, Sen Gui

The two methods of locating sound sources using many sensors
pp. 1447-1450(4)
Authors: Abe, Masato; Nagata, Yoshifumi; Kanai, Hiroshi; Kido, Ken'iti

Some problems of noise source localization in industrial plants using the coherence method
pp. 1451-1454(4)
Author: Augusztinovicz, Fulop

The correlation method using for estimation the contribution of each source to the noise field in an underwater structure of multiple-source
pp. 1455-1458(4)
Authors: Li, Qi; He, Zuo-yong

Characterization of ambient noise in industrial environment development of coherence models
pp. 1459-1462(4)
Authors: Marquette, Gabriel; Fumoux, Christine

Comments on jet noise source image obtained by polar correlation
pp. 1463-1466(4)
Authors: Musafir, R.E.; Zindeluk, M.

Identification of industrial noise sources using standard and modified coherence techniques
pp. 1467-1470(4)
Authors: Wagstaff, P.R.; Henrio, J.C.; Le Louarn, R.; Tailleret, D.

Noise sources identification and control of shuttle looms
pp. 1471-1474(4)
Authors: Wang, An-bin; Huang, Xie-qing; Dai, De-pei

The applications of coherence function to sound source identification
pp. 1475-1478(4)
Authors: Xu, Qihong; Shen, Hao; Cheng, Mingkun

The application of partial coherence technique to noise sources identification
pp. 1479-1482(4)
Authors: Xu, Shirong; Dong, Jiandong; Wang, Xuhui

Jitter analysis for the PLL in the baseband signal
pp. 1483-1486(4)
Authors: Ann, Souguil; Ryu, Heunggyoon

Techniques of estimation of the frequency response of a structure in the presence of noise
pp. 1487-1490(4)
Authors: Bouizem, B.; Wagstaff, P.R.; Pasqualini, J.P.

Study of robust spectrum estimation
pp. 1491-1494(4)
Authors: Cao, Chagxiu; Xia, Jiankun

A prediction of output response probability using a wide sense digital filter in a hierarchical form for the indoor and outdoor sound environment
pp. 1495-1498(4)
Authors: Chang, Bing; Ohta, Mitsuo; Hatakeyama, Kazutatsu

A new Cepstrum technique for cancelling the effects of sound reflection
pp. 1499-1502(4)
Authors: Chen, Zhongyi; Lin, Shaoguan

A dynamical method of removing the effect of wind noise in a measurement of low frequency noise by use of a wide sense digital filter
pp. 1503-1506(4)
Authors: Hatakeyama, Kazutstau; Ohta, Mitsuo

A system for picking up speech in noisy environment
pp. 1507-1510(4)
Authors: Kido, Ken'iti; Yuyasa, Akihiro; Shima, Akibiro; Makino, Shozo

A new index usable in establishing the number of averages used for tranfer-function estimation
pp. 1511-1514(4)
Authors: Ono, Takahiko; Kawaura, Jun'ichi; Suzuki, Yoiti

A basic trial on experimental and theoretical methods of removing wind and background noises in the actual measurement of sound propagation
pp. 1515-1518(4)
Authors: Takakuwa, Yoshiaki; Ohta, Mituo

An evaluation method on the arbitrary type probability distribution with a digital level observation and its application to the sound environment based on the S.E.A. method
pp. 1519-1522(4)
Authors: Xiao, Yagui; Ohta, Mitsuo; Hatakeyama, Kazutatsu

On substructure boundary element technique to analyze acoustic properties of air-duct components
pp. 1523-1526(4)
Authors: Terao, Michihito; Sekine, Hidehisa

Acoustic finite element calculation of sound transmission through a double wall and a comparison with experimental data
pp. 1527-1530(4)
Author: Goransson, Peter

Eigenvalue analysis of 2D aircraft fuselage beam model and fuselage air cavity using a symmetric fluid-structure interaction FE formulation
pp. 1531-1534(4)
Author: Davidson, Fredrik

A statistical treatment for non-stationary noise and vibration fluctuation by use of micro-computer technique
pp. 1535-1538(4)
Authors: Yoshino, Nobuyuki; Ohta, Mitsuo; Oshita, Iwao

A practical prediction method of Lx for non-stationaly traffic noise environment under the introduction of AR model
pp. 1539-1542(4)
Authors: Takaki, Naomitsu; Ohta, Mitsuo; Hatakeyama, Kazutatsu

Modelling of noise sources in machines vibroacoustics
pp. 1543-1546(4)
Author: Engel, Zbigniew

High power ultrasonic source for modeling traffic noise
pp. 1547-1550(4)
Authors: Myncke, H.; Jans, A.; Cops, A.

An engineering approach to machinery noise reduction - Some examples of predictive and practical techniques
pp. 1551-1554(4)
Author: Stimpson, G.

Prediction of sound attenuation by trees lining urban roads by computer simulation
pp. 1555-1558(4)
Authors: Tang, S.H.; Ong, P.P.

A study of traffic noise evaluation by scale model
pp. 1559-1562(4)
Authors: Zhang, Changling; Hu, Tianyi

A national standard of China. "The design of noise control for industrial enterprise" and studies on it
pp. 1565-1568(4)
Authors: Fang, Danqun; Chen, Qian

Japanese industrial standard series for the determination of sound power levels of sound sources in various measurement environments
pp. 1569-1572(4)
Authors: Koyasu, M.; Sukuki, S.; Tachibana, H.

Revision of the ISO 3740 series of international standards
pp. 1573-1576(4)
Author: Lang, William W.

Investigation of China urban noise standard
pp. 1577-1580(4)
Authors: Li, Binguang; Cheng, Mingkun

Noise standard and control technique of music room
pp. 1581-1584(4)
Author: Xiang, Duanqi

Confrontation in national regulations/insurance for industrial noise control in E.E.C.
pp. 1585-1588(4)
Author: Baldacconi, Alessandro

Danish regulations for industrial noise exposure, occupational and environmental noise
pp. 1589-1592(4)
Author: Ingerslev, Fritz

Occupational noise legislation in Singapore
pp. 1593-1596(4)
Author: Lim, M.K.

Legislation for industrial noise control
pp. 1597-1600(4)
Author: Powell, Walter

The 4647 industrial noise legislation in Israel
pp. 1601-1604(4)
Author: Schmartz, Aladar E.

New prospects related to assessment of risk from noise under the protection of employer's liability insurance
pp. 1605-1608(4)
Author: Spada, Giuseppe

The law of nuisance control-noise, Municipal approach versus governmental
pp. 1609-1612(4)
Author: Strumpf, F. Michael

An information program for the introduction of new occupational noise legislation in The Netherlands
pp. 1613-1616(4)
Author: Verwijmeren, M.A.P.

Water well drilling site #11
pp. 1617-1620(4)
Author: Brickson, Ellwyn G.

The noise control ordiance of Beijing - Its enactment and implementation
pp. 1621-1624(4)
Author: Yang, Suzhen

Feasibility and efficiency of raising requirements for airborne sound insulation in apartment houses
pp. 1625-1628(4)
Author: Jovicic, Svetozar

Improving ejector pump performance by noise control
pp. 1629-1632(4)
Author: Viets, Hermann

Sound transmission loss of single walls due to an improvement of the coupling loss factor for nonresonant transmission
pp. 1633-1636(4)
Author: Kuroki, Soichiro

Is a cinema activity in Israel on Friday night more annoying than on any other week day?
pp. 1637-1640(4)
Authors: Perry, Dov; Stumpf, Michael