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21	Flute acoustics: measurement, modelling and design Dickens, Paul, Physics, Faculty of Science, UNSW January 2007 (has links) A well-made flute is always a compromise and the job of flute makers is to achieve a musically and aesthetically satisfying compromise; a task that involves much trial and-error. The practical aim of this thesis is to develop a mathematical model of the flute and a computer program that assists in the flute design process. Many musical qualities of a woodwind instrument may be calculated from the acoustic impedance spectrum of the instrument. A technique for fast and accurate measurement of this quantity is developed. The technique is based on the multiple-microphone technique, and uses resonance-free impedance loads to calibrate the system and spectral shaping to improve the precision at impedance extrema. The impedance spectra of the flute and clarinet are measured over a wide range of fingerings, yielding a comprehensive and accurate database. The impedance properties of single finger holes are measured using a related technique, and fitformulae are derived for the length corrections of closed finger holes for a typical range of hole sizes and lengths. The bore surface of wooden instruments can change over time with playing and this can affect the acoustic impedance, and therefore the playing quality. Such changes in acoustic impedance are explored using wooden test pipes. To account for the effect of a typical player on flute tuning, an empirical correction is determined from the measured tuning of both modern and classical flutes as played by several professional and semi-professional players. By combining the measured impedance database with the player effects and various results in the literature a mathematical model of the input impedance of flutes is developed and implemented in command-line programs written in the software language C. A user-friendly graphical interface is created using the flute impedance model for the purposes of flute acoustical design and analysis. The program calculates the tuning and other acoustical properties for any given geometry. The program is applied to a modern flute and a classical flute. The capabilities and limitations of the software are thereby illustrated and possible contributions of the program to contemporary flute design are explored. Acoustical engineering. Music -- Acoustics and physics. Flute -- Construction. Woodwind instruments -- Acoustics.
22	A survey of the development of pitch perception theories, their application to bell sounds and an investigation of perceived differences between ringing and chiming bells Botha, Alison January 1998 (has links) A brief overview of the workings of the human auditory system is followed by a review of literature concerning both the theories and experimental investigations of human pitch perception. The application of these theories to the inharmonic complex tones produced by bells is discussed, and further experiments using bell sounds are reviewed. A methodology for psychoacoustic experiments with specific reference to those investigating pitch perception of inharmonic complex tones is presented. This methodology is then implemented in an experimental investigation of pitch perception of ringing and chiming bell sounds. A pitch matching experiment using ringing and chiming sounds from four bells aimed to determine perceived pitch differences between ringing and chiming bells. This experiment was inconclusive because insufficient data was collected. Known experimental results, such as the inability of non-musicians to match the pitches of sounds with different timbres were confirmed. Spectral analyses of the stimuli were performed. The presentation of stimuli at a low level of sensation is questioned, as this might have prevented pseudo high frequency noise resulting from stronger upper partials in the ringing sound from being audible, and hence the pitch differences between ringing and chiming bells would not be observed. Music -- Acoustics and physics Musical pitch Change ringing Chimes Bells
23	An Investigation of the Acoustical Properties of the Trumpet Mouthpiece Lanese, Robert M. (Robert Martin) 08 1900 (has links) The purpose of this study was to present a comprehensive analysis of the acoustical properties of the trumpet mouthpiece. The first section will be concerned with the individual parts of the mouthpiece and their interrelationship. The second portion of the study will be the physical analysis of three commonly used trumpet mouthpieces. For this study, five examples of each size have been selected. The third section will present a tonal analysis of the selected mouthpieces. These investigative procedures will attempt to recognize any relationships between the individual mouthpieces and the resulting tones. trumpet trumpet mouthpieces acoustics and physics Trumpet -- Mouthpieces. Music -- Acoustics and physics.
24	Automatic segmentation in concert recordings Ferguson, Robert W., III January 2004 (has links) No description available. Music -- Acoustics and physics.
25	Improved analysis of musical sounds using time-frequency distributions Kosek, Paul C. January 2005 (has links) No description available. Signal processing. Music -- Acoustics and physics. Sound -- Recording and reproducing.
26	Investigation of a Sweep Technique for Microphone Placement Verster, Charl Pierre Franscois 03 1900 (has links) No description available. Microphone Timbre Sweep Technique UCTD Sound. Recording and reproducing Music. Acoustics and physics Tone colour (Music)
27	Physics of the Violin and Its Defining Influence upon Technic Custer, Judson (Judson Samuel), 1919- 08 1900 (has links) The purpose of this work is to set forth the physical characteristics of the generator and resonator of the violin and to determine in what manner and degree they influence the technic of artistically manipulating the instrument. violin technic violin physics violin techniques music instruction Violin. Violin -- Instruction and study. Music -- Acoustics and physics.
28	Perception of musical intervals : evidence for the central origin of the pitch of complex tones January 1971 (has links) [by] Adrianus J.M. Houtsma and Julius L. Goldstein. / Based on a Ph.D. thesis in the Dept. of Electrical Engineering, 1971, by A.J.M. Houtsma. / Bibliography: p. 71-75. TK7855.M41 R43 no.484 Music Acoustics and physics Musical intervals and scales Statistical decision
29	Pitch detection of polyphonic music using constrained optimization Jeon, Woojay 12 1900 (has links) No description available. Music Data processing Signal processing Music Acoustics and physics Computer-aided transcription systems
30	High-level control of singing voice timbre transformations Thibault, François January 2004 (has links) The sustained increase in computing performance over the last decades has brought enough computing power to perform significant audio processing in affordable personal computers. Following this revolution, we have witnessed a series of improvements in sound transformation techniques and the introduction of numerous digital audio effects to modify effectively the time, pitch, and loudness dimensions of audio signals. Due to the complex and multi-dimensional nature of timbre however, it is significantly more difficult to achieve meaningful and convincing qualitative transformations. The tools currently available for timbre modifications (e.g. equalizers) do not operate along perceptually meaningful axes of singing voice timbre (e.g. breathiness, roughness, etc.) resulting in a transformation control problem. One of the goals of this work is to examine more intuitive procedures to achieve high-fidelity qualitative transformations explicitly controlling certain dimensions of singing voice timbre. Quantitative measurements (i.e. voice timbre descriptors) are introduced and used as high-level controls in an adaptive processing system dependent on the characteristics observed in the input signal. / The transformation methods use a harmonic plus noise representation from which voice timbre descriptors are derived. This higher-level representation, closer to our perception of voice timbre, offers more intuitive controls over timbre transformations. The topics of parametric voice modeling and timbre descriptor computation are first introduced, followed by a study of the acoustical impacts of voice breathiness variations. A timbre transformation system operating specifically on the singing voice quality is then introduced with accompanying software implementations, including an example digital audio effect for the control and modification of the breathiness quality on normal voices. Tone color (Music) Computer sound processing

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