SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2788851485> ?p ?o ?g. }

Showing items 1 to 69 of 69 with 100 items per page.

W2788851485 abstract "The thesis investigates possibilities of air-borne sound characterisation of arbitrary sound sources. To this end a particular approach is studied where the source characterisation is done via an interface surface which fully or partially envelopes the physical source. Two frequency dependent descriptors are defined across such a surface: the blocked sound pressure and the source impedance. The former represents the sound pressure created by the operating source which acts on the enveloping surface when this is made immobile. The latter represents the ratio of pressure response amplitudes and normal velocity excitation amplitudes across the surface. The enveloping surface defines an air volume containing the physical source, called the source space. The two source descriptors defined on the source space, the blocked pressure and the source impedance, are shown to be intrinsic to the source, i.e. independent of the surrounding acoustical space. Once defined, these descriptors allow one to find the sound pressure and normal particle velocity at the interface surface when the source space is coupled to an arbitrary receiver space, i.e. a room. This in turn allows for sound prediction in the receiver space. The coupling conditions require that the receiver space is characterised using the same enveloping surface as the source space. Bearing the measurement simplicity in mind, the enveloping surface has been conceived as consisting of one or several rectangular plane surfaces. The research challenge was then to obtain meaningful surface impedance across a (continuous) rectangular plane surface as well as the blocked pressure compatible with impedance formulation. This has led to a spatial decomposition of sound pressure and particle velocity into finite number of components, each defined by a complex amplitude and a particular spatial distribution. In this way the blocked pressure reduces to a vector of complex pressure amplitudes while the impedance becomes a matrix of pressure and velocity complex amplitude ratios. Two decomposition methods have been investigated in detail: the surface harmonic method and the patch method. The former approximates the surface pressure and normal velocity by combinations of 2D trigonometric surface functions while the latter splits the surface into small patches and treats each patch in a discrete way, using patch-averaged values." @default.
W2788851485 created "2018-03-06" @default.
W2788851485 creator A5075620600 @default.
W2788851485 date "2016-03-30" @default.
W2788851485 modified "2023-09-28" @default.
W2788851485 title "Characterisation of air-borne sound sources using surface coupling techniques" @default.
W2788851485 hasPublicationYear "2016" @default.
W2788851485 type Work @default.
W2788851485 sameAs 2788851485 @default.
W2788851485 citedByCount "0" @default.
W2788851485 crossrefType "dissertation" @default.
W2788851485 hasAuthorship W2788851485A5075620600 @default.
W2788851485 hasConcept C111919701 @default.
W2788851485 hasConcept C121332964 @default.
W2788851485 hasConcept C127413603 @default.
W2788851485 hasConcept C131584629 @default.
W2788851485 hasConcept C159447365 @default.
W2788851485 hasConcept C17825722 @default.
W2788851485 hasConcept C17829176 @default.
W2788851485 hasConcept C24890656 @default.
W2788851485 hasConcept C2524010 @default.
W2788851485 hasConcept C2776799497 @default.
W2788851485 hasConcept C2778572836 @default.
W2788851485 hasConcept C33923547 @default.
W2788851485 hasConcept C41008148 @default.
W2788851485 hasConcept C62520636 @default.
W2788851485 hasConcept C68115822 @default.
W2788851485 hasConcept C78519656 @default.
W2788851485 hasConceptScore W2788851485C111919701 @default.
W2788851485 hasConceptScore W2788851485C121332964 @default.
W2788851485 hasConceptScore W2788851485C127413603 @default.
W2788851485 hasConceptScore W2788851485C131584629 @default.
W2788851485 hasConceptScore W2788851485C159447365 @default.
W2788851485 hasConceptScore W2788851485C17825722 @default.
W2788851485 hasConceptScore W2788851485C17829176 @default.
W2788851485 hasConceptScore W2788851485C24890656 @default.
W2788851485 hasConceptScore W2788851485C2524010 @default.
W2788851485 hasConceptScore W2788851485C2776799497 @default.
W2788851485 hasConceptScore W2788851485C2778572836 @default.
W2788851485 hasConceptScore W2788851485C33923547 @default.
W2788851485 hasConceptScore W2788851485C41008148 @default.
W2788851485 hasConceptScore W2788851485C62520636 @default.
W2788851485 hasConceptScore W2788851485C68115822 @default.
W2788851485 hasConceptScore W2788851485C78519656 @default.
W2788851485 hasOpenAccess W2788851485 @default.
W2788851485 hasRelatedWork W1964221716 @default.
W2788851485 hasRelatedWork W1977974312 @default.
W2788851485 hasRelatedWork W2003517368 @default.
W2788851485 hasRelatedWork W2021688759 @default.
W2788851485 hasRelatedWork W2024319505 @default.
W2788851485 hasRelatedWork W2070792523 @default.
W2788851485 hasRelatedWork W2077331496 @default.
W2788851485 hasRelatedWork W2080680405 @default.
W2788851485 hasRelatedWork W2083622243 @default.
W2788851485 hasRelatedWork W2157734389 @default.
W2788851485 hasRelatedWork W2182231511 @default.
W2788851485 hasRelatedWork W2390972908 @default.
W2788851485 hasRelatedWork W2790333333 @default.
W2788851485 hasRelatedWork W2895781935 @default.
W2788851485 hasRelatedWork W2909473896 @default.
W2788851485 hasRelatedWork W2996618317 @default.
W2788851485 hasRelatedWork W3167108463 @default.
W2788851485 hasRelatedWork W3195752756 @default.
W2788851485 hasRelatedWork W2931475496 @default.
W2788851485 hasRelatedWork W3018678232 @default.
W2788851485 isParatext "false" @default.
W2788851485 isRetracted "false" @default.
W2788851485 magId "2788851485" @default.
W2788851485 workType "dissertation" @default.