Listing 1 - 10 of 18 | << page >> |
Sort by
|
Choose an application
SOUND PERCEPTION --- SOUND PRODUCTION --- SOUND TRANSMISSION --- Sound
Choose an application
Choose an application
From a mathematical point of view, acoustics and electromagnetism exhibit similar phenomena and are tackled with the same kind of technique. Jones's exhaustive study is unique in providing a unified treatment of the two fields, bringing out their common and disparate features and showing how they cross-fertilize one another. The book is designed so that the reader with a familiarity with either Maxwell's Equations or the equation of sound waves in fluid dynamics can follow the developments in both fields without difficulty. This is a comprehensive treatment which will provide a needed reference for researchers in applied mathematics and mathematical physics but also caters to the student, who is taken up to the frontiers of research with the help of appropriate exercises. Engineers with any sort of mathematical competence, particularly electrical engineers and those concerned with communications technology, will need to have access to it.
Electromagnetic waves. --- Sound-waves. --- Ondes électromagnétiques --- Ondes sonores --- Electromagnetic waves --- Sound-waves --- 534.86 --- Vibration --- Waves --- Electromagnetic energy --- Electromagnetic radiation --- Electromagnetic theory --- Sound transmission (radio, television, film). Electroacoustics --- 534.86 Sound transmission (radio, television, film). Electroacoustics --- Ondes électromagnétiques
Choose an application
Acoustical engineering --- 534.86 --- Acoustic engineering --- Sonic engineering --- Sonics --- Sound engineering --- Sound-waves --- Engineering --- Sound transmission (radio, television, film). Electroacoustics --- Industrial applications --- 534.86 Sound transmission (radio, television, film). Electroacoustics --- Génie acoustique. --- Acoustique --- Sound --- Électronique --- Électronique --- Génie acoustique.
Choose an application
621.395.6 --- 534.86 --- Telephone apparatus --- Sound transmission (radio, television, film). Electroacoustics --- Elektro-akoestiek --- Elektro-akoestiek. --- 534.86 Sound transmission (radio, television, film). Electroacoustics --- 621.395.6 Telephone apparatus --- Technologie --- Media --- Architectuur --- Fysica --- Akoestiek --- Elektroakoestiek --- 20e eeuw
Choose an application
Experimental data --- Measuring instruments --- Acoustic insulation --- Noise sound --- Noise analyzers --- Shock waves --- Concrete slabs --- Reinforced concrete --- Floors --- Vibration --- Sound transmission
Choose an application
Experimental data --- Measuring instruments --- Acoustic insulation --- Noise sound --- Noise analyzers --- Shock waves --- Concrete slabs --- Reinforced concrete --- Floors --- Vibration --- Sound transmission
Choose an application
Sound --- Fluids --- Stratified flow --- Transmission --- Acoustic properties --- Stratified flow. --- Acoustic properties. --- Transmission. --- Acoustique. --- Son --- Propagation. --- Sound. --- Acoustique --- Sound - Transmission --- Fluids - Acoustic properties --- Equations aux derivees partielles --- Theorie spectrale
Choose an application
534.2 --- 534.86 --- 681.84 --- 681.84 Sound recording and reproduction --- Sound recording and reproduction --- 534.86 Sound transmission (radio, television, film). Electroacoustics --- Sound transmission (radio, television, film). Electroacoustics --- 534.2 Propagation of vibrations. Processes in the acoustic field --- Propagation of vibrations. Processes in the acoustic field --- Vibrations. --- Vibration. --- Électroacoustique. --- Electro-acoustics. --- Acoustique. --- Ondes --- Microphones. --- Microphone. --- Haut-parleurs. --- Loudspeakers. --- Propagation. --- Akoestiek. --- Elektro-akoestiek. --- Luidsprekers. --- Électroacoustique.
Choose an application
This book treats the topic of sound field synthesis with a focus on serving human listeners though the approach can be also exploited in other areas such as underwater acoustics or ultrasonics. The author derives a fundamental formulation based on standard integral equations and the single-layer potential approach is identified as a useful tool in order to derive a general solution. He also proposes extensions to the single-layer potential approach which allow for a derivation of solutions for non-enclosing distributions of secondary sources such as circular, planar, and linear ones. Based on above described formulation it is shown that the two established analytic approaches of Wave Field Synthesis and Near-field Compensated Higher Order Ambisonics constitute specific solutions to the general problem which are covered by the single-layer potential solution and its extensions. The consequences spatial discretization are analyzed in detail for all elementary geometries of secondary source distributions and applications such as the synthesis of the sound field of moving virtual sound sources, focused virtual sound sources, and virtual sound sources with complex radiation properties are discussed. An accompanying website provides MATLAB/Octave scripts for all simulations contained in the book.
Sound. --- Sound -- Transmission. --- Telecommunication systems. --- Sound --- Civil & Environmental Engineering --- Physics --- Physical Sciences & Mathematics --- Engineering & Applied Sciences --- Acoustics & Sound --- Civil Engineering --- Mathematical models --- Transmission --- Acoustical engineering. --- Acoustic engineering --- Sonic engineering --- Sonics --- Sound engineering --- Sound-waves --- Industrial applications --- Engineering. --- Acoustics. --- Engineering Acoustics. --- Engineering --- Acoustics in engineering.
Listing 1 - 10 of 18 | << page >> |
Sort by
|