The big band : from dance band to jazz orchestra /

Cado, Michael.

January 2004

Thesis (M.A.)--York University, 2004. / Typescript. Includes bibliographical references (p. 100-102).

Big bands Big band music

A band arrangement of Elgar's three Bavarian dances

Elgar, Edward, Beckman, Myron C.

January 1977

Thesis (M.M.)--Wisconsin. / Arrangement for band of nos. 1, 3 and 6 of the composers op. 27, originally for chorus and orchestra. eContent provider-neutral record in process. Description based on print version record.

Band music, Arranged. Dance music

A history of the Northshore Concert Band, Wilmette, Illinois, 1956-1986 the first thirty years /

Carson, William Stuart.

January 1900

Thesis (D.M.A.)--Arizona State University, 1992. / "Biographical sketch": p. [368]. Includes bibliographical references (leaves [288]-327).

Northshore Concert Band Bands (Music)

Rashomon for wind ensemble : a composition and an analytical essay /

Reid, Darlene Joy,

January 2010

Thesis (D. Mus.)--University of Alberta, 2010. / Title from PDF file main screen (viewed on July 8, 2010). "A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Music, Department of Music ... Fall 2010, Edmonton, Alberta". The musical work is for band; duration: 23-25 min. The title comes from the 1950 Japanese movie directed by Akira Kurosawa. Includes score as Appendix A. Includes bibliographical references.

Reid, Darlene Joy, Band music

A conductor's guide to the wind music of Joseph Schwantner with a transcription of the composer's "New mornings for the world"

Pilato, Nikk. Clary, Richard.

January 2007

Dissertation (Ph.D.) Florida State University, 2007. / Advisor: Richard Clary, Florida State University, College of Music. Title and description from dissertation home page (viewed 10-5-2007). Document formatted into pages; contains 127 pages. Includes biographical sketch. Includes bibliographical references and discography.

Schwantner, Joseph C. Band music

Essential excerpts for tuba from original works written for wind ensemble

Harvey, Brent Meadows.

January 1900

Thesis (D.M.A.)--University of North Carolina at Greensboro, 2007. / Title from PDF title page screen. Advisor: Dennis W. AsKew; submitted to the School of Music. Includes bibliographical references (p. 45-48).

Tuba Band music Wind ensembles

Study on partitioning design approach for K-band oscillator design

Cheng, Yan.

January 2005

University, Diss., 2004--Karlsruhe. / Download lizenzpflichtig.

Optical properties of semiconductors at finite temperatures from first principles

Zacharias, Marios

January 2017

In this thesis we develop a new first-principles method for the calculation of optical absorption spectra and band structures in semiconductors and insulators at finite tem- peratures. The theoretical framework of our methodology originates back to 1950s in two pivotal research papers by F. Williams and M. Lax. Here, we expand the scope of the pioneering works by Williams and Lax, and we present a new theory of phonon- assisted optical absorption and temperature-dependent band structures. We demon- strate that our technique is highly efficient and simple to the point that a single calcu- lation is sufficient to capture temperature-dependent absorption coefficients including the effect of quantum zero-point motion. We report calculations of optical absorption spectra and of direct and indirect band gaps of Si, C, GaAs and MAPbI₃ . We obtain good agreement with experiment and with previous calculations. The approach pro- posed in this thesis is highly versatile, and can straightforwardly be combined with improved descriptions of the dielectric function by including electron-hole effects via the Bethe-Salpeter and GW equations. In this thesis we also investigate the underly- ing mechanisms leading to the "inverse Varshni effect" in materials that belong to the family of metal halide perovskites. We show, using the example of MAPbI 3 , that the vibrational modes with metal-halide-metal bending or rocking character are the major cause of the band gap opening with increasing temperature. To this aim we present an approach for elucidating the physics underpinning the changes of the band gap with vibrational motion. Our methodologies developed in this thesis are simple to imple- ment in any electronic structure package as a post-processing step, having the potential to find broad applications in the ab-initio community. We anticipate that our work will open the way to predictive calculations, as well as will contribute to the better under- standing of the optoelectronic properties of solids at finite temperatures.

Delirium

January 2011

abstract: Delirium is a piece for large wind ensemble that synthesizes compositional techniques to generate unique juxtapositions of contrasting musical elements. The piece is about 8:30 long and uses the full complement of winds, brass, and percussion. Although the composition begins tonally, chromatic alterations gradually shift the melodic content outside of the tonal center. In addition to changes in the melody, octatonic, chromatic, and synthetic scales and quartal and quintal harmonies are progressively introduced throughout the piece to add color and create dissonance. Delirium contains four primary sections that are all related by chromatic mediant. The subdivisions of the first part create abrupt transitions between contrasting material, evocative of the symptoms of delirium. As each sub-section progresses, the A minor tonality of the opening gradually gives way to increased chromaticism and dissonance. The next area transitions to C minor and begins to feature octatonic scales, secundal harmonies, and chromatic flourishes more prominently. The full sound of the ensemble then drops to solo instruments in the third section, now in G# minor, where the elements of the previous section are built upon with the addition of synthetic scales and quartal harmonies. The last division, before the recapitulation of the opening material, provides a drastic change in atmosphere as the chromatic elements from before are removed and the tense sound of the quartal harmonies are replaced with quintal sonorities and a more tonal melody. The tonality of this final section is used to return to the opening material. After an incomplete recapitulation, the descending motive that is used throughout the piece, which can be found in measure 61 in the flutes, is inverted and layered by minor 3rds. This inverted figure builds to the same sonority found in measure138, before ending on an F# chord, a minor third away from the A minor tonal center of the opening and where the piece seems like it should end. / Dissertation/Thesis / Midi-generated audio recording / M.M. Music 2011

Music

Band

Composition

Wind Ensemble

Efficient multiband algorithms for blind source separation

Badran, Salah Al-Din Ibrahim

January 2016

The problem of blind separation refers to recovering original signals, called source signals, from the mixed signals, called observation signals, in a reverberant environment. The mixture is a function of a sequence of original speech signals mixed in a reverberant room. The objective is to separate mixed signals to obtain the original signals without degradation and without prior information of the features of the sources. The strategy used to achieve this objective is to use multiple bands that work at a lower rate, have less computational cost and a quicker convergence than the conventional scheme. Our motivation is the competitive results of unequal-passbands scheme applications, in terms of the convergence speed. The objective of this research is to improve unequal-passbands schemes by improving the speed of convergence and reducing the computational cost. The first proposed work is a novel maximally decimated unequal-passbands scheme. This scheme uses multiple bands that make it work at a reduced sampling rate, and low computational cost. An adaptation approach is derived with an adaptation step that improved the convergence speed. The performance of the proposed scheme was measured in different ways. First, the mean square errors of various bands are measured and the results are compared to a maximally decimated equal-passbands scheme, which is currently the best performing method. The results show that the proposed scheme has a faster convergence rate than the maximally decimated equal-passbands scheme. Second, when the scheme is tested for white and coloured inputs using a low number of bands, it does not yield good results; but when the number of bands is increased, the speed of convergence is enhanced. Third, the scheme is tested for quick changes. It is shown that the performance of the proposed scheme is similar to that of the equal-passbands scheme. Fourth, the scheme is also tested in a stationary state. The experimental results confirm the theoretical work. For more challenging scenarios, an unequal-passbands scheme with over-sampled decimation is proposed; the greater number of bands, the more efficient the separation. The results are compared to the currently best performing method. Second, an experimental comparison is made between the proposed multiband scheme and the conventional scheme. The results show that the convergence speed and the signal-to-interference ratio of the proposed scheme are higher than that of the conventional scheme, and the computation cost is lower than that of the conventional scheme.