INTER-NOISE and NOISE-CON Congress and Conference Proceedings

The present situation and the points have to be improved of the floor impact sound insulation property of floor finish materials both in China and Japan
pp. 1453-1456(4)
Authors: Waki, Takao; Tokura, Tsuyoshi; Jin, Ruidong

Survey test methods for measuring airborne and impact sound transmission
pp. 1457-1462(6)
Author: Vorlander, M.

Concept of reduction index at low frequencies
pp. 1463-1468(6)
Authors: Kihlman, Tor; Kropp, Wolfgang; Pietrzyk, Andrzej

Deterministic excitation signals reduces statistical spread and extraneous noise contamination in sound transmission meausurements
pp. 1469-1474(6)
Authors: Bjor, Ole-Herman; Winsvold, Bjorn

Measuring airborne sound insulation using the impulse-response method
pp. 1475-1478(4)
Authors: Ginn, Bernard; Wogeck, L.; Bretschneider, V.; Lange, S.

Application of the M-sequence correlation technique for sound transmission measurements
pp. 1479-1484(6)
Author: Chu, W.T.

Measurement of sound insulation with intensity technique
pp. 1485-1490(6)
Author: Jonasson, Hans G.

Comparison of sound transmission loss between the sound intensity method and the conventional two room method method in the laboratory
pp. 1491-1494(4)
Authors: Hui, Diag; Jacobsen, Finn

Intensity method for transmission loss measurements of ducted silencers
pp. 1495-1500(6)
Authors: Vigran, T.E.; Olsen, H.; Newman, M.

Measurement of equivalent absorption area of rooms using reference sound sources
pp. 1501-1506(6)
Authors: Koyasu, Masaru; Tachibana, Hideki; Yano, Hiroo

The result differences of the determination of sound absorption coefficient by the impedance tube based on different standards
pp. 1507-1510(4)
Authors: de Abreu Jr, Geraldo; Hoffmann, Walter

Microperforated panel at high sound intensity
pp. 1511-1514(4)
Author: Maa, Dah-You

An experimental study of pure-metal sound absorber based on microperforated-panel construction
pp. 1515-1518(4)
Authors: Yoshimura, Michihiko; Seta, Shigeyuki; Shioda, Masazumi

Sound absorption of masonry blocks with air cavity
pp. 1519-1522(4)
Authors: Gerges, Samir N.Y.; Rola, Stella M.

Single number rating of acoustic absorption: A test on special bricks
pp. 1523-1526(4)
Authors: Garai, M.; Scida, V.

Experimental study of the frequency characteristics of sound-absorbing powder materials
pp. 1527-1530(4)
Authors: Ando, Hideyuki; Okudaira, Yuzo; Satoh, Munetake; Miyanami, Kei

Sound absorber of transparent thin film
pp. 1531-1534(4)
Authors: Morimoto, Toru; Koga, Shosuke; Konishi, Mutsuo; Kanaya, H.

Effect of sound absorptive common footway on traffic noise
pp. 1535-1538(4)
Authors: Takeda, Kazunobu; Takashima, Takeshi; Koga, Shousuke; Ohta, Yoshinori

Absorption coefficient of a person in a closed room
pp. 1539-1542(4)
Authors: Sanchez Rivera, J.I.; Gonzalez Suarez, J.; Machimbarrena, M.

Effect of molecular structure of the interlayer on the transmission loss of laminated glass
pp. 1543-1546(4)
Authors: Ueda, Naoki; Omura, Hirofumi; Shohi, Hajime; Asahina, Kenichi

Effects of edge damping on the sound transmission loss of glass pane
pp. 1547-1550(4)
Authors: Yoshimura, Junichi; Hatanaka, Hisashi; Ogawa, Hiromasa

Noise insulation design of glass windows in a building and tis noise measurement cases
pp. 1551-1554(4)
Authors: Oc, A.; Wakitani, T.; Kumatoriya, K.; Kiyama, M.

Behaviour of a light weight wooden joist floor at low frequencies - Analysis of the vibration modes
pp. 1555-1558(4)
Authors: Johansson, Carin; Agren, Anders

Acoustical characteristics of an automatic sliding sound-proof door
pp. 1559-1562(4)
Authors: Wakatsuki, Toshio; Hamaya, Tetsuo; Satoh, Fumiyoshi; Tatsuhira, Mikio

Computer design for sound insulation against traffic noise
pp. 1563-1566(4)
Authors: Liu, Ke; Kragh, Jorgen

Airborne noise acoustic insulation of double panels. Regression lines
pp. 1567-1570(4)
Authors: Recuero, M.; Gil, C.; Sobreira, M.; Grundman, J.

Sound transmission loss modelling of real structures using statistical energy analysis
pp. 1571-1574(4)
Author: Bremner, P.G.

Flanking transmission in building with multilayer partitions
pp. 1575-1578(4)
Authors: Szudrowicz, Barbara; Izewska, Anna; Sadowski, Jerzy

A study on noise control of home applicances considering acoustic resonance
pp. 1579-1582(4)
Authors: Woo, Jae-Hak; Park, Jung-Seok; Park, Deuk-Yong; Oh, Sang-Kyoung

Sound power level of rain noise radiated from lightweight roofs
pp. 1583-1586(4)
Authors: Suga, Hiromi; Tachibana, Hideki

Case history of sound insulation of music rooms in the house of professional musicans
pp. 1587-1590(4)
Author: Nakamura, Shun-ichi

Studio 12
pp. 1591-1594(4)
Author: Legault, J.P.

Sound insulation structure in auditorium buildings
pp. 1595-1598(4)
Authors: Ishiwata, Chiaki; Ikeda, Satoru

Noise control interior design for enclosed atrium with railway stairwell
pp. 1599-1602(4)
Author: Kimura, Hiroyuki

Removable noise enclosure for construction works
pp. 1603-1606(4)
Authors: Itoh, Masao; Kasai, Tsunetami; Maekawa, Zyun-iti

Countermeasures on blasting noise incident to tunnel construction
pp. 1607-1610(4)
Authors: Kiyama, M.; Takata, S.; Wakitani, S.; Kunatoriya, K.

Sound insulation of a thin-walled structure in the non-uniform aeroacoustic field
pp. 1611-1614(4)
Author: Efimtsov, Boris M.

Helmholtz resonator: Silencer element or noise source?
pp. 1615-1618(4)
Author: Jenvey, P.L.

An experimental study on the muffler of resonator type
pp. 1619-1622(4)
Authors: Suzuki, Shoji; Numata, Hidehiko; Go, Masahide

A study on the interaction between acoustic resonance and turbulence in mufflers
pp. 1623-1626(4)
Authors: Kojima, Naoya; Liu, Ben Zhu

New broad-band silencers composed of resonant type and dissipative type
pp. 1627-1630(4)
Authors: Fujii, Joji; Tamura, Takahiro; Suzuki, Nobuo; Fujii, Shozo

Calculation of complex silencer performances by non-linear fluid dynamic simulation models
pp. 1631-1634(4)
Authors: Angelo, Onorati; Giancarlo, Ferrari

On sound characteristics of glass fiber ducts
pp. 1635-1638(4)
Authors: Shiokawa, Hiroyoshi; Itamoto, Morimasa

A practical method to approximate the sound radiation from a lined circular duct
pp. 1639-1642(4)
Authors: Yunoki, Ken'ichi; Ito, Shiro; Ando, Yoichi

Silencers for air intake and exhaust system of mechanical draft cooling tower
pp. 1643-1646(4)
Authors: Muelbert, Achim; Chao, Yi-Nuo; van der Kleij, Rob; Wu, Tai-Cheng

Superior noise suppression for incinerator plants (noise control of the aircooled heat exchangers)
pp. 1647-1650(4)
Authors: Inoue, Haruo; Miyamura, Hirsohi

High intensity discrete low frequency noise resonance mufflers hydraulic design principles
pp. 1651-1656(6)
Author: Semenov, Andrew G.

Vibration intensity methods: 20 years after
pp. 1657-1662(6)
Author: Pavic, Goran

Developments of energy density models for structural problems
pp. 1663-1668(6)
Author: Sestieri, Aldo

Structural intensity measurement of 2-dimensional vibrational field
pp. 1669-1674(6)
Author: Kamata, Minoru

Velocity-intensity index for vibrational intensity measurements
pp. 1675-1678(4)
Author: Linjama, Jukka

Neurocontrol of vortex power flow
pp. 1679-1682(4)
Authors: Kuroda, Masaharu; Kikushima, Yoshihiro; Tanaka, Nobuo

Calibration of structural intensity probes
pp. 1683-1688(6)
Authors: Gade, Svend; Herlufsen, Henrik

A fiber optic vibrometer array for structural intensity measurements
pp. 1689-1692(4)
Authors: Nakamura, Kentaro; Ucha, Sadayuki; Fujita, Hajime

Experimental study of k-space signal processing for structural intensity measurements
pp. 1693-1696(4)
Authors: Morikawa, R.; Nakamura, K.; Ueha, S.

Measuring condition and precision of structural intensity measurement
pp. 1697-1700(4)
Authors: Shibata, Katsuhisa; Kato, Masana; Takatsu, Nobuo; Wakatsuki, Osamu; Kobayashi, Kunihiro

The measurement of envelope vibration intensity to identify the combustion impact transmission in diesel engine
pp. 1701-1704(4)
Authors: Chang, Jian Yu; Zhou, Hai; Kojima, Naoya

Predicted and measured reactive power flow with different cam motions
pp. 1705-1708(4)
Author: Stirnemann, A.

Maximum values of transmitted power in coupled beams
pp. 1709-1714(6)
Author: Hugin, C.T.

Measurement error of vibration intensity flow in a beam terminated by elastic impedance
pp. 1715-1718(4)
Authors: Iwaya, Yukio; Suzuki, Yoiti; Sone, Toshio

Distribution of structural intensity in a cylindrical shell-structure
pp. 1719-1722(4)
Authors: Honda, Iwao; Irie, Yoshihiko

On the evaluation of directional components of intensity in a plate using two accelerometers
pp. 1723-1726(4)
Authors: Halkyard, C.R.; Mace, B.R.

Structurborne intensity measurements
pp. 1727-1730(4)
Author: Rasmussen, Gunnar

Intensity technique used for airport monitoring
pp. 1731-1736(6)
Author: Rasmussen, Gunnar

Intensity measurements in the presence of moderate airflow
pp. 1737-1742(6)
Author: Facobsen, Finn

Comparison of intensity and pressure measurement of noise from large transformers
pp. 1743-1748(6)
Author: Hooker, Robert J.

Practical considerations about noise measurements in railway vehicles using conditioned intensity
pp. 1749-1752(4)
Authors: Recuero, M.; Sobreira, M.; Gil, C.

Application of personal computer based sound intensity system on coach noise control
pp. 1753-1756(4)
Authors: Xiaomin, Lian; Qiyuan, Liu; Xiaoyu, Jiang

Criteria for local noise control based on energy analysis of sound fields
pp. 1757-1760(4)
Author: Stanzial, Domenico

Separation of sound intensity vector using variable directional microphone
pp. 1761-1764(4)
Authors: Koike, Norio; Tanagisawa, Takesaburou

Future needs for sound power standards
pp. 1765-1768(4)
Author: Lang, William W.

National round robin test determining the sound power by sound pressure measurements - Further results
pp. 1769-1774(6)
Authors: Hubner, Gerhard; Wu, Jiang

Measurement with octave-band and fractional-octave band filters
pp. 1775-1780(6)
Author: Wong, George S.K.

Examination of scanning sound intensity technique for sound power determination of practical noise source
pp. 1781-1786(6)
Author: Krishnappa, G.

A survey method for determining sound power levels under reverberant conditions in situ
pp. 1787-1792(6)
Author: Jonasson, Hans G.

Interference effects on sound power measurement
pp. 1793-1796(4)
Authors: Correa, F.P.R.; Araujo, M.A.N.

Sound power determination by intensity measurements for air-conditioning equipment
pp. 1797-1800(4)
Author: Kannon, Tatsumi

Sound power estimation of a converging-diverging nozzle
pp. 1801-1804(4)
Authors: Munro, M.; Tan, C.C.

Handling of criteria to limit the measurement uncertainty of the sound intensity scanning method determining sound powers
pp. 1805-1808(4)
Authors: Hubner, Gerhard; Gao-Sollinger, Yumei

A generalised prediction for calculating sound power level data of square ceiling diffusers
pp. 1809-1812(4)
Author: Wren, David

Localization and detection of signals in noise
pp. 1813-1818(6)
Author: Bilsen, F.A.

Effect of IACC on speech clarity and articulation
pp. 1819-1824(6)
Authors: Nakajima, Tatsumi; Ando, Yoichi

Speech intelligibility between consultancy modules in landscape banking offices
pp. 1825-1830(6)
Authors: Gerrit, Vermeir; Paul, Mees

Design of sound field with multi-channel public address system
pp. 1831-1836(6)
Authors: Yamasaki, Yoshio; Samejima, Toshiya

Evaluation of equalisation and source position compensation systems in two channel sound reproduction
pp. 1837-1840(4)
Authors: Orduna-Bustamante, P.; Nelson, P.A.; Hamada, H.

Source waveform recovery in a reverberant environment
pp. 1841-1846(6)
Author: Lyon, Richard H.

Relations between RASTI and other acoustical measures in Portuguese churches
pp. 1847-1850(4)
Author: Carvalho, Antonio Pedro O.

Acoustic quality vai sound intensity measurements in a church
pp. 1851-1854(4)
Authors: Guy, R.W.; Abdou, A.

Investigation on parameters of articulation index for hearing impairment in noise fields
pp. 1855-1858(4)
Authors: Sato, H.; Nagatomo, M.; Yoshino, H.

Hearing test of speech waves intermittently replaced by white noise
pp. 1859-1862(4)
Authors: Ishihara, Manabu; Shirataki, Jun

Noise reduction for speech using a microphone array with consideration of wavelength constant
pp. 1863-1866(4)
Authors: Kuroiwa, Kazuharu; Chisaki, Yoshihumi; Nakakura, Manabu

Use of array techniques in the automotive industry
pp. 1867-1870(4)
Authors: Ginn, Bernard; Hald, J.

Measuring aerodynamically generated noise from a wind turbine using a microphone array
pp. 1871-1874(4)
Authors: Christensen, Kurt O.; Johannesson, Rene B.

Measurements by means of microphone array of fast passing sound source
pp. 1875-1878(4)
Author: Johannesson, Rene Burmand

Nearfield acoustical holography for interior sound fields
pp. 1879-1882(4)
Authors: Hallman, Darren L.; Bolton, J. Stuart

The window effect on the prediction of acoustic fields using planar acoustic holography; Minimization of bias error
pp. 1883-1886(4)
Authors: Kim, Yang-Hann; Kwon, Hyu-Sang

Reduction of spatial windowing effects in acoustical holography
pp. 1887-1890(4)
Author: Hald, Jorgen

A controlled-stepsize NLMS based on ramp function
pp. 1891-1894(4)
Authors: Tanpreeyachaya, Jirasak; Takumi, Ichi; Hata, Masayasu

Line spectrum elimination of undesired signal by IIR adaptive digital filter
pp. 1895-1898(4)
Authors: Nakanishi, Takahiro; Takumi, Ichi; Hata, Masayasu

The use of wavelet transform for analysis of transient noise
pp. 1899-1902(4)
Authors: Herlufsen, Henrik; Gade, Svend