Search results for [Autocorrelation (Statistics)] at NC Cardinal

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The analysis of autonormal models and their correlation structure as applied to uniformity data / by Mohammed, Ali Abulgasim,1938-(CARDINAL)192570; University of North Carolina (System).Institute of Statistics.(CARDINAL)165205; North Carolina State University.(CARDINAL)157604;

Includes bibliographical references (pages 88-89).

Subjects: Correlation (Statistics); Autocorrelation (Statistics);

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Operating characteristic approximations for the analysis of (s, S) inventory systems / by Ehrhardt, Richard.; University of North Carolina at Chapel Hill.School of Business Administration.(CARDINAL)160572;

Includes bibliographical references.Sponsored by U.S. Army Research Office and Office of Naval Research.

Subjects: Inventory control.; Warehouses; Autocorrelation (Statistics); Approximation theory.;

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(s,S) inventory policies for a wholesale warehouse inventory system / by Schultz, Carl Richard.; University of North Carolina at Chapel Hill.School of Business Administration.(CARDINAL)160572;

Includes bibliographical references.Sponsored by Office of Naval Research.

Subjects: Inventory control.; Warehouses; Supply and demand.; Autocorrelation (Statistics);

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Fundamentals of tree-ring research / by Speer, James H.,1971-(CARDINAL)563982;

Includes bibliographical references (pages 291-323) and index.1. Introduction -- Some interesting applications of dendrochronology -- Some basic principles and definitions in dendrochronology -- Subfields of dendrochronology -- Limitations of dendrochronology -- Objective -- Summary -- 2. Some basic principles and concepts in dendrochronology -- Principle of uniformitarianism -- Principle of crossdating -- Principle of limiting factors -- Principle of the aggregate tree growth model -- Concept of autocorrelation -- Concept of ecological amplitude -- Principle of site selection -- Principle of replication -- Concept of standardization -- Summary -- 3. History of dendrochronology -- The early years -- The 1700s and the 1709 frost ring -- The 1800s : tree rings become common knowledge -- The early 1900s, Douglass, and Huber -- The modern era and international organization -- Summary -- 4. Growth and structure of wood -- Tree physiology -- Basic wood structure -- Cell features and types -- Forms of wood structure -- Reaction wood -- Growth initiation and absent rings -- Growth throughout the year -- Ring anomalies -- Summary -- 5. Field and laboratory methods -- Gear -- Field methods -- Site selection -- Random versus targeted sampling -- Plots, transects, or targeted sampling -- Coring a tree -- Testing for a compressed core -- Taking and packaging a core -- Removing an increment borer from the tree -- Spanish windlass technique for retrieving a stuck borer -- Cleaning an increment borer -- Sharpening an increment borer -- Laboratory methods -- Preparing core samples -- Mounting cores -- Untwisting cores -- Sanding cores -- Preparing cross sections -- Analysis of cores and cross sections -- Skeleton plotting -- List method -- Memorization method -- Combining dating methods -- Measuring methods -- Measuring systems -- Measuring rings -- Pith indicators --Work time distribution -- Summary.10. Dendrogeomorphology -- Sources of information -- Reaction wood -- Death dates -- Establishment dates -- Wound events -- Coarse woody debris -- Roots -- Subfields of dendrogeomorphology -- Dendrovolcanolgy -- Dendroglaciology -- Mass movement -- Dendroseismology : plate boundaries, faults, and earthquakes -- Limitations of dendrogeomorphology -- Conclusion -- 11. Dendrochemistry -- Methods of elemental analysis -- Radial translocation -- Other confounding factors -- Event reconstructions -- Elements that are useful in dendrochemistry -- Conclusions on dendrochemistry -- Radiometric isotopes -- Stable isotopes -- Limitations -- Standard procedures -- Fractionation -- Other usable elements -- Conclusion -- 12. Frontiers in dendrochronology -- Stable isotopes -- Multiple proxies -- Image analysis of reflected light -- Wood anatomy -- Tropical dendrochronology -- Unique environments -- Sclerochronology -- Conclusion -- Appendix A. Tree and shrub species that have been used by dendrochronologists -- Appendix. B. Age of the oldest trees per species -- Appendix C. Pith indicators -- Appendix D. Field note cards -- Appendix E. Web resources.6. Computer programs and statistical methods -- Statistics in dendrochronology -- Series intercorrelation -- Mean sensitivity -- Gleichläufigkeit (sign test) -- Running r̄ -- Expressed population signal -- Subsample signal strength -- Measuring programs -- MeasureJ2X -- Keystroke tutorial for measureJ2X -- Dendrochronology program library -- FMT -- COFECHA -- Keystroke tutorial of COFECHA -- Reading the output of COFECHA -- Conclusions on COFECHA -- EDRM -- ARSTAN --Keystroke tutorial for ARSTAN -- Reading the output of ARSTAN -- Regional curve standardization -- YUX -- Climate analysis packages -- PRECON -- DENDROCLIM -- OUTBREAK -- Spectral analysis -- EVENT -- Conclusion -- 7. Dendroarchaeology -- Archaeological methods -- Sample collection -- Chronologies used in dendrochronology to archaeology -- Construction dates -- Dating artifacts -- Climate reconstructions and anthropogenic ecology -- Fire in the Southwestern United States -- Fire in the Eastern United Sates -- Culturally modified trees -- Insct outbreaks -- Mast --Dendrogeomorphology in archaeology -- Future of dendroarchaeology.8. Dendroclimatology -- Methods fo dendroclimatology -- Applications of dendroclimatology -- Climate indices -- Climate gradient studies --Latitudinal gradient --Treeline studies --Dendrohydrology : water table height and flood events -- Segment-length curse -- Archaeological uses of climate reconstructions -- Use of climate reconstructions for future prediction -- 9. Dendroecology -- Methods of dendroecology -- Stand-age structure -- Ring-width analysis -- Tree scars -- Basal area increment -- Applications of dendroecology -- Gap-phase dynamics -- Forest productivity and succession -- Old forests -- Dendropyrochronology -- Surface fire -- Stand-replacing fire -- Ground fire -- Seasonal resolution of fire scars -- Fire in the southwestern United States -- Fire in Scandinavia -- Fire in Canada -- Dendroentomology -- Stem analysis -- Conclusions on dendroentomology -- Wildlife populations and herbivory --Distributional limits of species -- Treeline and subarctic studies -- Interactions of multiple disturbances -- Other applications of dendroecology -- Conclusion.

Subjects: Dendrochronology.; Tree-rings.; Trees; Wood.;

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