151,536 research outputs found

    Electronic motor control system Patent

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    Electronic circuit system for controlling electric motor spee

    Communicating for Wholeness

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    Optical communications system Patent

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    Specifications and drawings for semipassive optical communication syste

    Care Planning and Review for Looked After Children: Fifteen Years of Slow Progress?

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    This Critical Commentary reviews progress in research into planning and reviewing for children in care in England and Wales since the publication of two major studies in the late 1990s (roughly coinciding with the New Labour period). It briefly considers the changing context of law, regulation and guidance and the aims and objectives of the care planning and review system. It then reviews the limited research literature available, in relation to a series of key topics. Consideration is also given to guides for children and practitioners on the subject. The commentary concludes by suggesting that this is an area in which research has failed to keep pace with changes in policy and practice, and recommends a more systematic approach

    Hodge theory and derived categories of cubic fourfolds

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    Cubic fourfolds behave in many ways like K3 surfaces. Certain cubics - conjecturally, the ones that are rational - have specific K3s associated to them geometrically. Hassett has studied cubics with K3s associated to them at the level of Hodge theory, and Kuznetsov has studied cubics with K3s associated to them at the level of derived categories. These two notions of having an associated K3 should coincide. We prove that they coincide generically: Hassett's cubics form a countable union of irreducible Noether-Lefschetz divisors in moduli space, and we show that Kuznetsov's cubics are a dense subset of these, forming a non-empty, Zariski open subset in each divisor.Comment: 37 pages. Applications to algebraic cycles added, and other improvements following referees' suggestions. This is a slightly expanded version of the paper to appear in Duke Math

    Computing the Gamma function using contour integrals and rational approximations

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    Some of the best methods for computing the gamma function are based on numerical evaluation of Hankel's contour integral. For example, Temme evaluates this integral based on steepest-decent contours by the trapezoid rule. Here we investigate a different approach to the integral: the application of the trapezoid rule on Talbot-type contours using optimal parameters recently derived by Weideman for computing inverse Laplace transforms. Relatedly, we also investigate quadrature formulas derived from best approximations to exp(z) on the negative real axis, following Cody, Meinardus and Varga. The two methods are closely related and both converge geometrically. We find that the new methods are competitive with existing ones, even though they are based on generic tools rather than on specific analysis of the gamma function

    Evaluating matrix functions for exponential integrators via Carathéodory-Fejér approximation and contour integrals

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    Among the fastest methods for solving stiff PDE are exponential integrators, which require the evaluation of f(A)f(A), where AA is a negative definite matrix and ff is the exponential function or one of the related ``φ\varphi functions'' such as φ1(z)=(ez−1)/z\varphi_1(z) = (e^z-1)/z. Building on previous work by Trefethen and Gutknecht, Gonchar and Rakhmanov, and Lu, we propose two methods for the fast evaluation of f(A)f(A) that are especially useful when shifted systems (A+zI)x=b(A+zI)x=b can be solved efficiently, e.g. by a sparse direct solver. The first method method is based on best rational approximations to ff on the negative real axis computed via the Carathéodory-Fejér procedure, and we conjecture that the accuracy scales as (9.28903… )−2n(9.28903\dots)^{-2n}, where nn is the number of complex matrix solves. In particular, three matrix solves suffice to evaluate f(A)f(A) to approximately six digits of accuracy. The second method is an application of the trapezoid rule on a Talbot-type contour
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