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200 10$aGeneralized vectorization, cross-products, and matrix calculus /$fDarrell A. Turkington
205   $a1st ed.
210  1$aCambridge :$cCambridge University Press,$d2013.
215   $a1 online resource (xi, 267 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 24 Feb 2016).
311 08$a1-107-44872-7 
311 08$a1-107-03200-8 
320   $aIncludes bibliographical references and index.
327   $a1. Mathematical prerequisites -- 2. Zero-one matrices -- 3. Elimination and duplication matrices -- 4. Matrix calculus -- 5. New matrix calculus results -- 6. Applications.
330   $aThis book presents the reader with new operators and matrices that arise in the area of matrix calculus. The properties of these mathematical concepts are investigated and linked with zero-one matrices such as the commutation matrix. Elimination and duplication matrices are revisited and partitioned into submatrices. Studying the properties of these submatrices facilitates achieving new results for the original matrices themselves. Different concepts of matrix derivatives are presented and transformation principles linking these concepts are obtained. One of these concepts is used to derive new matrix calculus results, some involving the new operators and others the derivatives of the operators themselves. The last chapter contains applications of matrix calculus, including optimization, differentiation of log-likelihood functions, iterative interpretations of maximum likelihood estimators and a Lagrangian multiplier test for endogeneity.
517 3 $aGeneralized Vectorization, Cross-Products, & Matrix Calculus
606   $aMatrices
606   $aVector analysis
615  0$aMatrices.
615  0$aVector analysis.
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700   $aTurkington$b Darrell A.$0266648
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200 00$aBiological barriers to cellulosic ethanol /$fErnest V. Burkheisser, editor
205   $a1st ed.
210   $aNew York $cNova Science Publishers$dc2010
215   $a1 online resource (265 p.)
225 1 $aRenewable energy : research, development and policies series
300   $aDescription based upon print version of record.
311 08$a1-60692-203-3 
320   $aIncludes bibliographical references and index.
327   $a""BIOLOGICAL BARRIERSTO CELLULOSIC ETHANOL""; ""BIOLOGICAL BARRIERS  TO CELLULOSIC ETHANOL""; ""TABLE OF CONTENTS""; ""PREFACE""; ""INTRODUCTION""; ""JOINT WORKSHOP CHALLENGES BIOFUEL SCIENCE ANDTECHNOLOGY COMMUNITIES""; ""AMERICAa???S ENERGY CHALLENGES""; ""The Promise of Biofuels""; ""A GROWING MANDATE FOR BIOFUELS: POLICY,LEGISLATIVE, AND OTHER DRIVERS""; ""BENEFITS OF BIOFUELS""; ""National Energy Security Benefits""; ""Economic Benefits""; ""Environmental Benefits""; ""Climate Change""; ""Other Environmental Benefits""; ""FEASIBILITY OF BIOFUELS""; ""Land Availability""
327   $a""A BILLION-TON ANNUAL SUPPLY OF BIOMASS: SUMMARY OFPOTENTIAL FOREST AND AGRICULTURAL RESOURCES""""Agricultural Sustainability of Biomass Production""; ""Today a??? Fuel Ethanol Production from Corn Grain (Starch Ethanol)""; ""Tomorrow a??? Biorefinery Concept to Produce Fuel Ethanol from CellulosicBiomass""; ""Ethical, Legal, and Social Issues (ELSI)""; ""EERE OBP PLATFORM FOR INTEGRATED BIOREFINERIES""; ""ETHICAL, LEGAL, AND SOCIAL ISSUES FOR WIDESPREADDEVELOPMENT OF CELLULOSIC BIOFUELS""; ""DOE OFFICE OF SCIENCE PROGRAMS""
327   $a""BIOMASS TO BIOFUELS WORKSHOP: CREATING A COMMONRESEARCH AGENDA TO OVERCOME TECHNOLOGY BARRIERS""""CITED REFERENCES""; ""BACKGROUND READING""; ""TECHNICAL STRATEGY: DEVELOPMENTOF A VIABLE CELLULOSIC BIOMASSTO BIOFUEL INDUSTRY""; ""RESEARCH PHASE (WITHIN 5 YEARS)""; ""Feedstock Use and Optimization""; ""Deconstruction""; ""Fermentation and Recovery""; ""TECHNOLOGY DEPLOYMENT PHASE (WITHIN 10 YEARS)""; ""Feedstocks""; ""Deconstruction""; ""Fermentation and Recovery""; ""SYSTEMS INTEGRATION PHASE (WITHIN 15 YEARS)""; ""Integration and Consolidation""
327   $a""SYSTEMS BIOLOGY TO OVERCOME BARRIERS TOCELLULOSIC ETHANOL""""LIGNOCELLULOSIC BIOMASS CHARACTERISTICS""; ""Makeup, Structure, and Processability""; ""IMAGE ANALYSIS OF BIOENERGY PLANT CELL SURFACES AT THEOBP BIOMASS SURFACE CHARACTERIZATION LAB (BSCL)""; ""STRUCTURE AND ASSEMBLY OF CELL WALLS""; ""OPTIMIZING LIGNIN COMPOSITION FOR MORE EFFICIENTBIOETHANOL PRODUCTION""; ""FACTORS IN RECALCITRANCE OF LIGNOCELLULOSEPROCESSING TO SUGARS""; ""Plant Architecture""; ""Cell-Wall Architecture""; ""Molecular Structure""; ""OPTIMIZING HEMICELLULOSE ACETYLATION IN CELL WALLS""
327   $a""Hemicellulose Acetylation Degradation Products Are Toxic to Microbes""""OPTIMIZATION OF PLANT CELL WALLS""; ""Understanding Cell-Wall Structure and Function""; ""Control of Lignin Synthesis and Structure""; ""IMPROVED METHODS, TOOLS, AND TECHNOLOGIES""; ""Technical Milestones""; ""Within 5 years""; ""Within 10 years""; ""Within 15 years""; ""CITED REFERENCES""; ""FEEDSTOCKS FOR BIOFUELS""; ""THE ARGUMENT FOR PERENNIAL BIOMASS CROPS""; ""CREATION OF A NEW GENERATION OF LIGNOCELLULOSICENERGY CROPS""; ""Maximizing Biomass Productivity""; ""Domestication of Energy Crops""
327   $a""ENHANCING POPLAR TRAITS FOR ENERGY APPLICATIONS""
330   $aDefines barriers and challenges to a rapid expansion of cellulosic-ethanol production and determine ways to speed solutions through concerted application of modern biology tools as part of a joint research agenda.
410  0$aRenewable energy.
606   $aCellulose$xBiotechnology
606   $aBiomass energy
615  0$aCellulose$xBiotechnology.
615  0$aBiomass energy.
676   $a662/.88
701   $aBurkheisser$b Ernest V$01864011
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996   $aBiological barriers to cellulosic ethanol$94470709
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