36,483 research outputs found
Modelling and directionally encoding the acoustics of a room
Geometrical methods are often used to model the acoustic properties of a room, but are valid only for high frequencies. At low frequencies. diffraction and the effects of room modes cannot be neglected. A method for modelling the two-dimensional propagation of sound within an enclosed room is presented which encompasses both of these particular properties by making use of a digital waveguide model
Waveguide physical modeling of vocal tract acoustics: flexible formant bandwidth control from increased model dimensionality
Digital waveguide physical modeling is often used as an efficient representation of acoustical resonators such as the human vocal tract. Building on the basic one-dimensional (1-D) Kelly-Lochbaum tract model, various speech synthesis techniques demonstrate improvements to the wave scattering mechanisms in order to better approximate wave propagation in the complex vocal system. Some of these techniques are discussed in this paper, with particular reference to an alternative approach in the form of a two-dimensional waveguide mesh model. Emphasis is placed on its ability to produce vowel spectra similar to that which would be present in natural speech, and how it improves upon the 1-D model. Tract area function is accommodated as model width, rather than translated into acoustic impedance, and as such offers extra control as an additional bounding limit to the model. Results show that the two-dimensional (2-D) model introduces approximately linear control over formant bandwidths leading to attainable realistic values across a range of vowels. Similarly, the 2-D model allows for application of theoretical reflection values within the tract, which when applied to the 1-D model result in small formant bandwidths, and, hence, unnatural sounding synthesized vowels
Surface settling in partially filled containers upon step reduction in gravity
A large literature exists concerning the equilibrium configurations of free liquid/gas surfaces in reduced gravity environments. Such conditions generally yield surfaces of constant curvature meeting the container wall at a particular (contact) angle. The time required to reach and stabilize about this configuration is less studied for the case of sudden changes in gravity level, e.g. from normal- to low-gravity, as can occur in many drop tower experiments. The particular interest here was to determine the total reorientation time for such surfaces in cylinders (mainly), as a function primarily of contact angle and kinematic viscosity, in order to aid in the development of drop tower experiment design. A large parametric range of tests were performed and, based on an accompanying scale analysis, the complete data set was correlated. The results of other investigations are included for comparison
Ferreting out the Fluffy Bunnies: Entanglement constrained by Generalized superselection rules
Entanglement is a resource central to quantum information (QI). In
particular, entanglement shared between two distant parties allows them to do
certain tasks that would otherwise be impossible. In this context, we study the
effect on the available entanglement of physical restrictions on the local
operations that can be performed by the two parties. We enforce these physical
restrictions by generalized superselection rules (SSRs), which we define to be
associated with a given group of physical transformations. Specifically the
generalized SSR is that the local operations must be covariant with respect to
that group. Then we operationally define the entanglement constrained by a SSR,
and show that it may be far below that expected on the basis of a naive (or
``fluffy bunny'') calculation. We consider two examples. The first is a
particle number SSR. Using this we show that for a two-mode BEC (with Alice
owning mode and Bob mode ), the useful entanglement shared by Alice and
Bob is identically zero. The second, a SSR associated with the symmetric group,
is applicable to ensemble QI processing such as in liquid-NMR. We prove that
even for an ensemble comprising many pairs of qubits, with each pair described
by a pure Bell state, the entanglement per pair constrained by this SSR goes to
zero for a large ensemble.Comment: 8 pages, proceedings paper for an invited talk at 16th International
Conference on Laser Spectroscopy (2003
Preliminary design study - Oxidizer tank helium pressure regulator, Flox-Atlas, airborne Final report
Oxidizer tank helium pressure regulator compatible with fluorine-liquid oxyge
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