Throughout, this authoritative text provides clear explanations, describes hands-on techniques, and features numerous room designs that can be built as presented, or adapted to your particular needs.
Understand how sound waves travel in free fields and in enclosed spaces Learn how human sound perception and psychoacoustics affect room design Calculate and predict reflections, reverberation times, and room modes Perform acoustical measurements and site surveys, and choose construction materials Design, build, and install treatment modules to optimize early reflections, reverberation, and diffusion Design and build home theaters, home studios, control rooms, recording studios, and other acoustically sensitive spaces Reduce HVAC noise levels, and achieve excellent sound isolation with proven wall, window, and door designs Understand the acoustics of auditoriums and concert halls Utilize the supplied cost-effective plans and specifications for a variety of recording and listening rooms.
This involves serving as an interpreter of major trends and the literature for students and practitioners in the audio field.
Along with covering the more theoretical aspects of acoustics, the book applies the theory to the design of specialized audio spaces such as the home listening room, the control room, and the multi-track-recording studio. Annotation copyrighted by Book News, Inc. Learn how to choose room dimensions, select building materials, construct your own custom treatments, maximize isolation, and generate and analyze response curves. This do-it-yourself guide incorporates decades of roomdesign experience and provides you with the practical knowledge to design and build your own acoustical spaces or improve existing spaces.
Coverage includes: An introduction to room acoustics and acoustical design Reflecting, absorbing, and diffusing materials Room geometry, modes, and treatment Acoustic isolation, site selection, and HVAC design Wall, floor, and ceiling construction Window and door design considerations Reverberation times, early reflections, and psychoacoustics Objective and subjective room evaluation Plans and specifications for 10 recording and listening rooms.
In particular we focus on the evaluation of … Expand. Development and sound absorption of interior adjustable acoustical panels.
Used the small scale listening room as the example, changed the interior sound field required to redecoration entire room also demand more construction budget; so it is important to development a … Expand. A new computer aided method for the complete acoustical design of broadcasting and recording studios. Interference Patterns in Reverberant Sound Fields.
Contour charts are given of the sound fields near one, two, or three reflecting surfaces at right angles, for random sound incidence. Propagation of Sound across Audience Seating. Measurements have been made in four concert halls, and on scale models of the seats alone, of the attenuation of sound passing at grazing incidence over the seating area.
Binaural dissimilarity and optimum ceilings for concert halls: More lateral sound diffusion. These … Expand. This paper describes the mathematical model used for computing both the frequency and angular distribution of the normal modes in rectangular rooms.
The criteria adopted were computed for each … Expand. Sound transmission loss of gypsum wallboard partitions. Report 3. Using the data bank of the acoustics laboratory of Domtar Research, statistical equations based on surface density are derived for predicting the sound transmission class and sound transmission loss … Expand. All issues are approached from the premise that most readers will be more interested in how these things affect their daily lives rather than wishing to make an in-depth study of pure acoustics.
Therefore frequent reference is made to examples of actual studios, their various design problems and solutions. Because of the importance of good acoustics to the success of most studios, and because of the financial burden which failure may impose, getting things right first time is essential.
The advice contained in Recording Studio Design offers workable ways to improve the success rate of any studio, large or small. Handbook of Environmental Acousticssimplifies this decision-making process and provides easy-to-followexplanations of acoustic terminology, noise control design, andregulatory noise issues. A sample municipal noise ordinance helpsthe user to draft an ordinance tailored to the needs of aparticular community.
Avoiding complex mathematics and analyses,Handbook of Environmental Acoustics is a user-friendly manual forurban planners, municipal officials, engineers, attorneys,industrial hygienists, architects, environmental professionals, andstudents in these fields. This reference will play a fundamental role in the sustainable progress of architectural acoustics research and practical applications.
World-renowned experts in the field from both the research and consulting communities contributed to the 15 chapters covering a wide range of sub-fields including computational modeling, noise, vibration controls, and environmental acoustics in the built environment and around buildings.
With information not found anywhere else, this handbook is geared for architectural acoustics research, education in academia, and practical applications among acoustics consultants and industry engineers. Fundamentals of Hearing Author : William A. Fundamentals of Hearing is one of only a few textbooks that covers all of hearing at an introductory level. A meaningful introduction to hearing for students and a wealth of data and facts related to hearing for the professional.
Sound Reflections in Enclosed Spaces Ch Adjustable Acoustics Ch. Control of Interfering Noise Ch. Recording Studio Acoustics Ch. Studio Control Room Acoustics Ch.
Room Optimizer Ch. Desktop Auralization Ch. Electro-Acoustic Software for Engineers.
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