TY - BOOK ID - 33202217 TI - Smoothing techniques for curve estimation AU - Gasser, Th. AU - Rosenblatt, M. PY - 1979 VL - 757 SN - 0387097066 0387097074 3540097066 3540384758 9780387097060 PB - New York (N.Y.): Springer DB - UniCat KW - 519.22 KW - Curve fitting KW - -Estimation theory KW - -Estimating techniques KW - Least squares KW - Mathematical statistics KW - Stochastic processes KW - Fitting, Curve KW - Numerical analysis KW - Smoothing (Numerical analysis) KW - Statistics KW - 519.22 Statistical theory. Statistical models. Mathematical statistics in general KW - Statistical theory. Statistical models. Mathematical statistics in general KW - Congresses KW - Graphic methods KW - Estimation theory KW - Industrial engineering KW - Parallel algorithms KW - Parallel processing (Electronic computers) KW - Congresses. KW - Mathematics KW - Industrial applications KW - Numerical approximation theory KW - Approximation numérique. KW - -Congresses KW - Approximation numérique KW - Numerical analysis. KW - Statistique non paramétrique KW - -Fitting, Curve KW - Estimating techniques KW - Approximation et developpements UR - https://www.unicat.be/uniCat?func=search&query=sysid:33202217 AB - This work introduces new developments in the construction, analysis, and implementation of parallel computing algorithms. This book presents 23 self-contained chapters, including surveys, written by distinguished researchers in the field of parallel computing. Each chapter is devoted to some aspects of the subject: parallel algorithms for matrix computations, parallel optimization, management of parallel programming models and data, with the largest focus on parallel scientific computing in industrial applications.Key features include: construction and analysis of parallel algorithms for linear algebra and optimization problems; different aspects of parallel architectures, including distributed memory computers with multicore processors; a wide range of industrial applications: parallel simulation of flows through oil filters as well as in porous and gas media, jet aerodynamics, heat conduction in electrical cables, nonlinear optics processes in tapered lasers, and molecular and cell dynamics. ER -