Means of simulation and of computation for acoustic prediction

The old experience in the field of soundproofing in all sectors of activity has enabled the development of predicting acoustic calculation software capitalizing on the expertise of human resources of ITS.

ITS is thus equipped with means of simulations suitable for the most common and other more complex acoustic computation and prediction issues.

useful for various phases of projects including: diagnosis of a situation in terms of acoustic, search for solutions in relation to a situation in terms of acoustics
founding the crucial phase of projects that is the performance of soundproofing equipment sizing sheets
allowing the selection of products and construction systems optimized with respect to the data and constraints taken into account and to the objective of result in terms of acoustics

The means of simulation of ITS are the basis of technological choices the most appropriate to the considered situation and base the acoustic guarantee that is attached to the supply of soundproofing equipment, their installation or the execution of acoustic insulation .

Most of the software allowing acoustic predicting computation at ITS have been developed internally, which allows the integration of experience data complementing the best theoretical approaches of all times carefully selected in order to base the simulation models.^{(1) (2) (3) (4)}

¹ in terms of acoustics essentially ² acoustic multilayered structures: partitions or absorbent linings and dissipative silencers: low or high temperature ... ³ enclosures, screens, laggings, suspended acoustical ceilings, wall cladding for reverberation treatment of rooms... ⁴ calculations of sound propagation indoor or outdoor, and between inside and outside of a building ...

See the list of means of analysis and of simulation of ITS

acoustic measurements analysis

calculations in relation to the determination of sound insulation performances of enclosures: according to measurements on site
calculations in relation to the determination of sound power levels of facilities for the evaluation of sound pressure levels in the environment
calculations in relation to the determination of sound power levels emitted by noise sources from the sound pressure
calculations in relation to the determination of spatial sound decay in industrial premises, tertiary premises and in subsets of buildings
calculations in relation to the determination of reverberation time in industrial premises, tertiary premises and in subsets of buildings
calculations in relation to the measurement of sound absorption in a reverberation room
calculations in relation to the measurement of sound insulation in buildings and of building elements
calculations in relation to the measurement of the performance of ducted silencers: insertion loss, flow noise and total pressure loss

computations

calculation of the attenuation of sound during propagation outdoors (including: calculation of atmospheric attenuation)
calculation of the acoustic performance in buildings from the performance of elements: acoustic absorption of rooms and enclosed spaces
calculation of the acoustic performance in buildings from the performance of elements: sound insulation between premises
calculation of the acoustic performance in buildings from the performance of elements: insulation from noise coming from outside
calculation of the acoustic performance in buildings from the performance of elements: transmission of indoor sound to the outside
determination of the levels of emission sound pressure at the workplace and at other specified positions from the sound power level
calculations in relation to the determination of sound power levels of facilities for the evaluation of sound pressure levels in the environment
calculations in relation to the determination of sound power levels emitted by noise sources from the sound pressure
calculation of sound propagation and noise prediction in workrooms
calculation of the spatial sound decay of industrial premises, tertiary premises or of subsets of buildings
calculation of the reverberation time of industrial premises, tertiary premises or of subsets of buildings
prediction of sound impact of aeraulic systems

sizing

calculation of the performance of an acoustic screen
prediction of the performance of dissipative silencers: insertion loss, flow noise and total pressure loss
prediction of the performance of resonnant: insertion loss, flow noise and total pressure loss
prediction of the sound reduction index of ducts (ducts and pipes)
prediction of the sound reduction index of multilayered partitions: plane or orthotropic
prediction of the sound absorption coefficient for normal incidence of multilayered partitions: plane or orthotropic
prediction of the Sabine's factor of multilayered partitions: plane or orthotropic

end faq

ITS has means for simulation & for computation (claculation, modelling) in acoustics (industry, building) for the generation, propagation and reduction of noise. Commercial software (based on sound ray tracing for the study of sound propagation in rooms, based on finite element calculations for the study of sound propagation in ducts and silencers) and software developed in-house SILDIS^®: cf . link below) are available for the experienced human resource of ITS.

Computer Aided Design end faq