0000000000336059

AUTHOR

Jaime Ramis

showing 4 related works from this author

Technical Note: Prediction Models of Airborne Sound Insulation of Multilayer Materials with Viscoelastic Thin Sheets

2008

The growing introduction of new insulation materials in building acoustics has caused an increase of the importance of the prediction tools. Appropriate simulations allow strictly necessary laboratory measurements to be identified. In this way, costs are reduced. The demands of new legislation has resulted in the appearance of various software designed to facilitate prediction. The prediction models are based on different hypotheses: adaptation of impedances, spatial behaviour of spectral components, statistical energy distribution, the Finite Element Method (FEM), etc. Each of these models and methods offer advantages and contain limitations. In this paper, different models for prediction…

Acoustics and UltrasonicsComputer sciencebusiness.industryMechanical EngineeringAcousticsMechanical engineeringTechnical noteBuilding and ConstructionViscoelasticityFinite element methodSoundproofingSoftwarebusinessAdaptation (computer science)Electrical impedancePredictive modellingBuilding Acoustics
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Technical Note: Airborne Sound Insulation of Hollow Brickwork

2007

This paper reports on the uncertainty of in situ measurements of the airborne sound insulation of hollow-brick walls in different housing plans, with emphasis on the influence of expansion joints. The mean and standard deviation of multiple measurements are obtained, which show significant differences in insulation values despite the fact that the same construction was used in each case.

SoundproofingAcoustics and Ultrasonicsbusiness.industryMechanical EngineeringAcousticsTechnical noteBuilding and ConstructionStructural engineeringExpansion jointbusinessBrickworkStandard deviationGeologyBuilding Acoustics
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Characterization of impervious layers using scale models and an inverse method

2009

We describe a novel procedure that uses an inverse method to determine unknown parameters for impervious layers used in multilayer structures. The proposed model of the multilayer structure is limited to an ideal double plate separated by an unbonded, fibrous, sound-absorbing material. Experimental data were obtained by nearfield acoustic holography for the calculation of the transmission loss of various multilayer structures mounted in a window in a wooden box designed specifically for this purpose. We used the Trochidis and Kalaroutis forecast model of acoustic insulation for multilayer structures, which is based on a spatial Fourier transform. The experimental pressure and velocity data …

Inverse methodsEngineeringAcoustics and UltrasonicsAcousticsImpedance couplingHolographyExperimental dataMultilayer structuresAnalysis modelslaw.inventionScale modelssymbols.namesakeOpticsUnknown parameterslawInput dataObservational errorSound absorbing materialsNearfield Acoustic Holographybusiness.industryTransmission lossMechanical EngineeringNumerical analysisSpatial Fourier TransformFORECAST modelAcoustic holographyInverse problemCondensed Matter PhysicsImpervious layersFourier transformMechanics of MaterialsFISICA APLICADAsymbolsbusinessStructural acousticsPosition sensorJournal of Sound and Vibration
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Acoustic Environmental Monitoring System for Acoustic Maps

2008

In this work, it is developed a data acquisition and analysis system for the monitoring of acoustic environmental noises and the elaboration of dynamic acoustic maps. This project is based on the obtaining of acoustic data in different measure points, and it is formed by a mesh of connections based on GPRS NODES and a Software Server for the administration and control of the data.

Measure (data warehouse)Computer sciencebusiness.industryReal-time computingCondition monitoringNoiseData acquisitionSoftwareEmbedded systemGround-penetrating radarEnvironmental monitoringComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMSGeneral Packet Radio Servicebusiness2008 The Second International Conference on Mobile Ubiquitous Computing, Systems, Services and Technologies
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