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200 00$aUnion heartland$b[electronic resource] $ethe midwestern home front during the Civil War /$fedited by Ginette Aley and J.L. Anderson ; with a foreword by William C. Davis
210   $aCarbondale $cSouthern Illinois University Press$d2013
215   $a1 online resource (223 p.) 
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a0-8093-3264-7 
311   $a1-299-78016-4 
320   $aIncludes bibliographical references and index.
327   $aForeword : Civil War history plows a new field / William C. Davis -- The great national struggle and the midwestern home front : an introductory overview / Ginette Aley and J.L. Anderson -- Captivating captives : an excursion to Johnson's Island Civil War prison / Michael P. Gray -- "Ours is the harder lot" : student patriotism at the University of Michigan during the Civil War / Julie A. Mujic -- The agricultural power of the Midwest during the Civil War / R. Douglas Hurt -- No fit wife : soldiers' wives and their in-laws on the Indiana home front / Nicole Etcheson -- Inescapable realities : rural Midwestern women and families during the Civil War / Ginette Aley -- The vacant chair on the farm : soldier husbands, farm wives, and the Iowa home front, 1861-65 / J.L. Anderson -- Limiting dissent in the Midwest : Ohio Republicans' attacks on the Democratic press / Brett Barker.
606   $aFarmers$xPolitical activity$zMiddle West$xHistory$y19th century
607   $aMiddle West$xHistory$yCivil War, 1861-1865$xSocial aspects
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608   $aElectronic books.
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701   $aAley$b Ginette$f1963-$0900867
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200 10$aIterative Methods for Solving Nonlinear Equations and Systems
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 electronic resource (494 p.)
311   $a3-03921-940-5 
330   $aSolving nonlinear equations in Banach spaces (real or complex nonlinear equations, nonlinear systems, and nonlinear matrix equations, among others), is a non-trivial task that involves many areas of science and technology. Usually the solution is not directly affordable and require an approach using iterative algorithms. This Special Issue focuses mainly on the design, analysis of convergence, and stability of new schemes for solving nonlinear problems and their application to practical problems. Included papers study the following topics: Methods for finding simple or multiple roots either with or without derivatives, iterative methods for approximating different generalized inverses, real or complex dynamics associated to the rational functions resulting from the application of an iterative method on a polynomial. Additionally, the analysis of the convergence has been carried out by means of different sufficient conditions assuring the local, semilocal, or global convergence. This Special issue has allowed us to present the latest research results in the area of iterative processes for solving nonlinear equations as well as systems and matrix equations. In addition to the theoretical papers, several manuscripts on signal processing, nonlinear integral equations, or partial differential equations, reveal the connection between iterative methods and other branches of science and engineering.
610   $aLipschitz condition
610   $aheston model
610   $arectangular matrices
610   $acomputational efficiency
610   $aHull?White
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610   $aweight function
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610   $aFrédholm integral equation
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610   $aKantorovich hypothesis
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610   $aJarratt method
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610   $aNewton?s iterative method
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610   $aNewton?s second order method
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610   $aPicard-HSS method
610   $anonlinear models
610   $athe improved curvature circle algorithm
610   $asplit variational inclusion problem
610   $acomputational order of convergence
610   $awith memory
610   $amultipoint iterative methods
610   $aKung?Traub conjecture
610   $amultiple zeros
610   $afourth order iterative methods
610   $aparametric curve
610   $aoptimal order
610   $anonlinear equation
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702   $aCordero$b Alicia$4auth
702   $aTorregrosa$b Juan R$4auth
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200 00$aMicrostructural parcellation of the human cerebral cortex $efrom Brodmann's post-mortem map to in vivo mapping with high-field magnetic resonance imaging /$fStefan Geyer, Robert Turner, editors
205   $a1st ed. 2013.
210   $aNew York $cSpringer$d2013
215   $a1 online resource (260 p.)
300   $aDescription based upon print version of record.
311   $a3-642-43076-7 
311   $a3-642-37823-4 
320   $aIncludes bibliographical references and index.
327   $apt. 1. "Classical" cyto- and myeloarchitectonic human brain maps -- pt. 2. The challenge of mapping cortical areas noninvasively in living brains -- pt. 3. "In vivo Brodmann mapping" with high-field magnetic resonance imaging.
330   $aUnraveling the functional properties of structural elements in the brain is one of the fundamental goals of neuroscientific research. In the cerebral cortex this is no mean feat, since cortical areas are defined microstructurally in post-mortem brains but functionally in living brains with electrophysiological or neuroimaging techniques ? and cortical areas vary in their topographical properties across individual brains. Being able to map both microstructure and function in the same brains noninvasively in vivo would represent a huge leap forward. In recent years, high-field magnetic resonance imaging (MRI) technologies with spatial resolution below 0.5 mm have set the stage for this by detecting structural differences within the human cerebral cortex, beyond the Stria of Gennari. This provides the basis for an in vivo microanatomical brain map, with the enormous potential to make direct correlations between microstructure and function in living human brains. This book starts with Brodmann?s post-mortem map published in the early 20th century, moves on to the almost forgotten microstructural maps of von Economo and Koskinas and the Vogt-Vogt school, sheds some light on more recent approaches that aim at mapping cortical areas noninvasively in living human brains, and culminates with the concept of ?in vivo Brodmann mapping? using high-field MRI, which was introduced in the early 21st century.
606   $aCerebral cortex$xResearch$xTechnique
606   $aCerebral cortex$xPhysiology
606   $aBrain mapping
606   $aMicrotomy
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