Acoustics of Small Rooms
Auteurs : Kleiner Mendel, Tichy Jiri
Much time is spent working out how to optimize the acoustics of large rooms, such as auditoria, but the acoustics of small rooms and environments can be just as vital. The expensive sound equipment of a recording studio or the stereo in a car or living room is likewise rendered useless if the acoustic environment is not right for them.
Changes in wavelength to room size ratio and the time difference between the direct and reflected sound at the listening location mean that the acoustics of small spaces are quite different to those of large spaces. Tackling these specific aspects of physics, sound perception, and applications for small spaces, Acoustics of Small Rooms brings together important facets of small room acoustics. Divided into clear sections, it covers:
- Sound propagation?the effects of boundaries, sound absorbers, and time conditions
- Physiology and psychoacoustics
- Methods and techniques of room and sound field optimization
- Examples of how these principles apply in real situations
- Measurement and modeling techniques
Physics of Small Room Sound Fields. Sound Fields in Enclosures: Waves. Geometrical Acoustics. Sound Absorbers. Sound Diffusers. The Ear. Psychoacoustics. Spatial Hearing. Sound Reproduction in Small Rooms. Low Frequency Sound Field Optimization. Small Rooms for Voice and Music Practice. Rooms for Sound Reproduction. Modeling of Room Acoustics. Measurement of room acoustics.
Date de parution : 04-2014
15.2x22.9 cm
Date de parution : 03-2017
15.2x22.9 cm
Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).
Prix indicatif 71,13 €
Ajouter au panierThèmes d’Acoustics of Small Rooms :
Mots-clés :
Sound Eld; Reverberation Time; acoustical measurement; Sound Pressure; acoustical modeling; Sound Absorption; audio engineering; Sound Absorptive Material; sound reproduction; Le Ve; practice rooms; Room Impulse Response; control rooms; Geometrical Acoustics; room acoustics; Phantom Sources; sound field optimization; Energy Densities; spatial hearing; Impulse Response; psychoacoustics; Absorption Coefcient; sound diffusion; Omnidirectional Sound Source; MIT Press; Frequency Response Curve; physical acoustics; Helmholtz Resonator; sound fields; Wall Impedance; Anechoic Chamber; Particle Velocity; Ef Fic; Basilar Membrane; Wave Equation; Reflection Free Zone; Pennsylvania State University; Schroeder Diffuser