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200 10$aIEEE Std 977-2010 (Revision of IEEE Std 977-1991) $eIEEE Guide to Installation of Foundations for Transmission Line Structures /$fInstitute of Electrical and Electronics Engineers
210  1$aNew York, NY, USA :$cIEEE,$d2011.
215   $a1 online resource (ix, 76 pages) $cillustrations
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330   $aVarious approaches to good construction practices that could improve the installation of transmission line structure foundations are presented. Spread foundations, drilled shaft foundations, pile foundations, and anchors are treated. This guide is intended to be used as a reference source for those involved in the ownership, design, and construction of transmission structures.
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517   $aIEEE Std 977-2010 
606   $aElectric lines$xPoles and towers
606   $aElectric circuits
606   $aElectric networks
615  0$aElectric lines$xPoles and towers.
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615  0$aElectric networks.
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200 00$aScientific computing in electrical engineering /$fJan Sykulski, editor
210  1$aBradford, [England] :$cEmerald Insight,$d2014.
210  4$d2014
215   $a1 online resource (417 p.)
225 0 $aCOMPEL - The international journal for computation and mathematics in electrical and electronic engineering,$x0332-1649 ;$vVolume 33, Number 4
300   $aDescription based upon print version of record.
311   $a1-78350-762-4 
320   $aIncludes bibliographical references.
327   $aCover; Editorial advisory board; Editorial; A reduced basis method for microwave semiconductor devices with geometric variations; Broadband surface impedance boundary conditions for higher order time domain discontinuous Galerkin method; Polynomial fitting of nonlinear sources with correlating inputs; Multiscale simulation of organic heterojunction light harvesting devices; Index-aware model order reduction: LTI DAEs in electric networks; Dielectric breakdown simulations of an OLTC in a transformer ; Robust DC and efficient time-domain fast fault simulation
327   $aEfficient convolution based impedance boundary conditionsOptimal frequency sweep method in multi-rate circuit simulation; Heat generation in silicon nanometric semiconductor  devices; An efficient algorithm for a certain class of robust optimization problems; Quasi 3D modelling and simulation of axial flux machines; Convergence behaviour of coupled pressure and thermal networks; Extended Brauer model for ferromagnetic materials: analysis and computation; Analyzing distortion contributions in a complex device model; Modeling of streamers in transformer oil using OpenFOAM
327   $aBack-reflector design in thin-film silicon solar cells by rigorous 3D light propagation modeling A novel and fast voltage estimation scheme for assessment of power system component outages; A two-step model to optimise transcutaneous electrical stimulation of the human upper arm; A multi-valve controlled saturable reactor and its harmonic optimization; Distorted constriction contact resistance between clamped slabs; Efficient evaluation of the earth return mutual impedance of overhead conductors over a horizontally multilayered soil
327   $aSimulation of charge packet formation in layered polymer filmIso-geometric shape optimization of magnetic density separators; Design and performance analysis of live model of Bessel beamformer for adaptive array system; Control of limit cycles in buck converters; Through silicon vias: from a physical point of view to a compact models initiation
330   $aThe Scientific Computing in Electrical Engineering (SCEE) 2012 conference was held September 11-14, 2012 in Zu?rich Switzerland.The focus of SCEE is on the following topics, with an emphasis on communicating new ideas and algorithms for numerical simulations: computational electromagnetics; circuit and device modelling and simulation; coupled problems; mathematical and computational methods; and model order reduction.Seventeen selected contributions to the conference are published in this ebook of COMPEL and were subject to the journal's regular peer-reviewing procedures.
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606   $aElectrical engineering$xData processing
606   $aElectrical engineering
610   $aElectric Engineering
610   $aTechnology & Engineering
615  0$aElectrical engineering$xData processing.
615  0$aElectrical engineering.
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