Auswahl der wissenschaftlichen Literatur zum Thema „Regression analysis“

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Zeitschriftenartikel zum Thema "Regression analysis"

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Asakura, Koko, und Toshimitsu Hamasaki. „Regression analysis“. Drug Delivery System 31, Nr. 1 (2016): 72–81. http://dx.doi.org/10.2745/dds.31.72.

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Anthony, Denis. „Regression analysis“. Nurse Researcher 4, Nr. 4 (August 1997): 54–62. http://dx.doi.org/10.7748/nr.4.4.54.s6.

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Anthony, Denis. „Regression analysis“. Nurse Researcher 4, Nr. 1 (Oktober 1996): 318–26. http://dx.doi.org/10.7748/nr1996.10.4.1.318.c6066.

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Munro, Barbara Hazard. „Regression Analysis“. Clinical Nurse Specialist 6, Nr. 2 (1992): 77. http://dx.doi.org/10.1097/00002800-199200620-00006.

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Rawles, John, und J. C. Bignall. „REGRESSION ANALYSIS“. Lancet 327, Nr. 8481 (März 1986): 614–15. http://dx.doi.org/10.1016/s0140-6736(86)92832-1.

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Bland, J. M., und D. G. Altman. „REGRESSION ANALYSIS“. Lancet 327, Nr. 8486 (April 1986): 908–9. http://dx.doi.org/10.1016/s0140-6736(86)91008-1.

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Glaser, Elton. „Regression Analysis“. Missouri Review 27, Nr. 1 (2004): 140–41. http://dx.doi.org/10.1353/mis.2004.0010.

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Lewis, S. „Regression analysis“. Practical Neurology 7, Nr. 4 (01.08.2007): 259–64. http://dx.doi.org/10.1136/jnnp.2007.120055.

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Bolshakova, Lyudmila Valentinovna. „Correlation and Regression Analysis of Economic Problems“. Revista Gestão Inovação e Tecnologias 11, Nr. 3 (30.06.2021): 2077–88. http://dx.doi.org/10.47059/revistageintec.v11i3.2074.

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Srivastava, Vaibhav, Saksham Kaushik und Ujjwal Raj. „Student Placement Package Prediction By Regression Analysis“. International Journal of Research Publication and Reviews 5, Nr. 1 (24.01.2024): 4724–29. http://dx.doi.org/10.55248/gengpi.5.0124.0345.

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Dissertationen zum Thema "Regression analysis"

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Sullwald, Wichard. „Grain regression analysis“. Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/86526.

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Thesis (MSc)--Stellenbosch University, 2014.
ENGLISH ABSTRACT: Grain regression analysis forms an essential part of solid rocket motor simulation. In this thesis a numerical grain regression analysis module is developed as an alternative to cumbersome and time consuming analytical methods. The surface regression is performed by the level-set method, a numerical interface advancement scheme. A novel approach to the integration of the surface area and volume of a numerical interface, as defined implicitly in a level-set framework, by means of Monte-Carlo integration is proposed. The grain regression module is directly coupled to a quasi -1D internal ballistics solver in an on-line fashion, in order to take into account the effects of spatially varying burn rate distributions. A multi-timescale approach is proposed for the direct coupling of the two solvers.
AFRIKAANSE OPSOMMING: Gryn regressie analise vorm ’n integrale deel van soliede vuurpylmotor simulasie. In hierdie tesis word ’n numeriese gryn regressie analise model, as ’n alternatief tot dikwels omslagtige en tydrowende analitiese metodes, ontwikkel. Die oppervlak regressie word deur die vlak-set metode, ’n numeriese koppelvlak beweging skema uitgevoer. ’n Nuwe benadering tot die integrasie van die buite-oppervlakte en volume van ’n implisiete numeriese koppelvlak in ’n vlakset raamwerk, deur middel van Monte Carlo-integrasie word voorgestel. Die gryn regressie model word direk en aanlyn aan ’n kwasi-1D interne ballistiek model gekoppel, ten einde die uitwerking van ruimtelik-wisselende brand-koers in ag te neem. ’n Multi-tydskaal benadering word voorgestel vir die direkte koppeling van die twee modelle.
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Dai, Elin, und Lara Güleryüz. „Factors that influence condominium pricing in Stockholm: A regression analysis : A regression analysis“. Thesis, KTH, Matematisk statistik, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-254235.

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This thesis aims to examine which factors that are of significance when forecasting the selling price of condominiums in Stockholm city. Through the use of multiple linear regression, response variable transformation, and a multitude of methods for refining the model fit, a conclusive, out of sample validated model with a confidence level of 95% was obtained. To conduct the statistical methods, the software R was used. This study is limited to the districts of inner city Stockholm with the postal codes 112-118, and the final model can only be applied to this area as the postal codes are included as regressors in the model. The time period in which the selling price was analyzed varied between January 2014 and April 2019, in which the volatility of the time value of money has not been taken into account for the time period. The final model included the following variables as the ones having an impact on the selling price: floor, living area, monthly fee, construction year, district of the city.
Denna studie ämnar till att undersöka vilka faktorer som är av betydelse när syftet är att förutsäga prissättningen på bostadsrätter i Stockholms innerstad. Genom att använda multipel linjär regression, transformation av responsvariabeln, samt en mängd olika metoder för att förfina modellen, togs en slutgiltig, out of sample-validerad modell med ett 95%-konfidensintervall fram. För att genomföra de statistiska metoderna användes programmet R. Denna studie är avgränsad till de distrikt i Stockholms innerstad vars postnummer varierar mellan 112-118, därav är det viktigt att modellen endast appliceras på dessa områden eftersom de är inkluderade i modellen som regressorer. Tidsperioden inom vilket slutpriserna analyserades var mellan januari 2014 och april 2019, i vilket valutans volatilitet inte har analyserats som en ekonomisk påverkande faktor. Den slutgiltiga modellen innefattar de följande variablerna: våning, boarea, månadsavgift, konstruktionsår, distrikt.
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Zuo, Yanling. „Monotone regression functions“. Thesis, University of British Columbia, 1990. http://hdl.handle.net/2429/29457.

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In some applications, we require a monotone estimate of a regression function. In others, we want to test whether the regression function is monotone. For solving the first problem, Ramsay's, Kelly and Rice's, as well as point-wise monotone regression functions in a spline space are discussed and their properties developed. Three monotone estimates are defined: least-square regression splines, smoothing splines and binomial regression splines. The three estimates depend upon a "smoothing parameter": the number and location of knots in regression splines and the usual [formula omitted] in smoothing splines. Two standard techniques for choosing the smoothing parameter, GCV and AIC, are modified for monotone estimation, for the normal errors case. For answering the second question, a test statistic is proposed and its null distribution conjectured. Simulations are carried out to check the conjecture. These techniques are applied to two data sets.
Science, Faculty of
Statistics, Department of
Graduate
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Ryu, Duchwan. „Regression analysis with longitudinal measurements“. Texas A&M University, 2005. http://hdl.handle.net/1969.1/2398.

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Bayesian approaches to the regression analysis for longitudinal measurements are considered. The history of measurements from a subject may convey characteristics of the subject. Hence, in a regression analysis with longitudinal measurements, the characteristics of each subject can be served as covariates, in addition to possible other covariates. Also, the longitudinal measurements may lead to complicated covariance structures within each subject and they should be modeled properly. When covariates are some unobservable characteristics of each subject, Bayesian parametric and nonparametric regressions have been considered. Although covariates are not observable directly, by virtue of longitudinal measurements, the covariates can be estimated. In this case, the measurement error problem is inevitable. Hence, a classical measurement error model is established. In the Bayesian framework, the regression function as well as all the unobservable covariates and nuisance parameters are estimated. As multiple covariates are involved, a generalized additive model is adopted, and the Bayesian backfitting algorithm is utilized for each component of the additive model. For the binary response, the logistic regression has been proposed, where the link function is estimated by the Bayesian parametric and nonparametric regressions. For the link function, introduction of latent variables make the computing fast. In the next part, each subject is assumed to be observed not at the prespecifiedtime-points. Furthermore, the time of next measurement from a subject is supposed to be dependent on the previous measurement history of the subject. For this outcome- dependent follow-up times, various modeling options and the associated analyses have been examined to investigate how outcome-dependent follow-up times affect the estimation, within the frameworks of Bayesian parametric and nonparametric regressions. Correlation structures of outcomes are based on different correlation coefficients for different subjects. First, by assuming a Poisson process for the follow- up times, regression models have been constructed. To interpret the subject-specific random effects, more flexible models are considered by introducing a latent variable for the subject-specific random effect and a survival distribution for the follow-up times. The performance of each model has been evaluated by utilizing Bayesian model assessments.
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Campbell, Ian. „The geometry of regression analysis“. Thesis, University of Ottawa (Canada), 1989. http://hdl.handle.net/10393/5755.

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Wiencierz, Andrea. „Regression analysis with imprecise data“. Diss., Ludwig-Maximilians-Universität München, 2013. http://nbn-resolving.de/urn:nbn:de:bvb:19-166786.

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Statistical methods usually require that the analyzed data are correct and precise observations of the variables of interest. In practice, however, often only incomplete or uncertain information about the quantities of interest is available. The question studied in the present thesis is, how a regression analysis can reasonably be performed when the variables are only imprecisely observed. At first, different approaches to analyzing imprecisely observed variables that were proposed in the Statistics literature are discussed. Then, a new likelihood-based methodology for regression analysis with imprecise data called Likelihood-based Imprecise Regression is introduced. The corresponding methodological framework is very broad and permits accounting for coarsening errors, in contrast to most alternative approaches to analyzing imprecise data. The methodology suggests considering as the result of a regression analysis the entire set of all regression functions that cannot be excluded in the light of the data, which can be interpreted as a confidence set. In the subsequent chapter, a very general regression method is derived from the likelihood-based methodology. This regression method does not impose restrictive assumptions about the form of the imprecise observations, about the underlying probability distribution, and about the shape of the relationship between the variables. Moreover, an exact algorithm is developed for the special case of simple linear regression with interval data and selected statistical properties of this regression method are studied. The proposed regression method turns out to be robust in terms of a high breakdown point and to provide very reliable insights in the sense of a set-valued result with a high coverage probability. In addition, an alternative approach proposed in the literature based on Support Vector Regression is studied in detail and generalized by embedding it into the framework of the formerly introduced likelihood-based methodology. In the end, the discussed regression methods are applied to two practical questions.
Methoden der statistischen Datenanalyse setzen in der Regel voraus, dass die vorhandenen Daten präzise und korrekte Beobachtungen der untersuchten Größen sind. Häufig können aber bei praktischen Studien die interessierenden Werte nur unvollständig oder unscharf beobachtet werden. Die vorliegende Arbeit beschäftigt sich mit der Fragestellung, wie Regressionsanalysen bei unscharfen Daten sinnvoll durchgeführt werden können. Zunächst werden verschiedene Ansätze zum Umgang mit unscharf beobachteten Variablen diskutiert, bevor eine neue Likelihood-basierte Methodologie für Regression mit unscharfen Daten eingeführt wird. Als Ergebnis der Regressionsanalyse wird bei diesem Ansatz keine einzelne Regressionsfunktion angestrebt, sondern die gesamte Menge aller anhand der Daten plausiblen Regressionsfunktionen betrachtet, welche als Konfidenzbereich für den untersuchten Zusammenhang interpretiert werden kann. Im darauffolgenden Kapitel wird im Rahmen dieser Methodologie eine Regressionsmethode entwickelt, die sehr allgemein bezüglich der Form der unscharfen Beobachtungen, der möglichen Verteilungen der Zufallsgrößen sowie der Form des funktionalen Zusammenhangs zwischen den untersuchten Variablen ist. Zudem werden ein exakter Algorithmus für den Spezialfall der linearen Einfachregression mit Intervalldaten entwickelt und einige statistische Eigenschaften der Methode näher untersucht. Dabei stellt sich heraus, dass die entwickelte Regressionsmethode sowohl robust im Sinne eines hohen Bruchpunktes ist, als auch sehr verlässliche Erkenntnisse hervorbringt, was sich in einer hohen Überdeckungswahrscheinlichkeit der Ergebnismenge äußert. Darüber hinaus wird in einem weiteren Kapitel ein in der Literatur vorgeschlagener Alternativansatz ausführlich diskutiert, der auf Support Vector Regression aufbaut. Dieser wird durch Einbettung in den methodologischen Rahmen des vorher eingeführten Likelihood-basierten Ansatzes weiter verallgemeinert. Abschließend werden die behandelten Regressionsmethoden auf zwei praktische Probleme angewandt.
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Jeffrey, Stephen Glenn. „Quantile regression and frontier analysis“. Thesis, University of Warwick, 2012. http://wrap.warwick.ac.uk/47747/.

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In chapter 3, quantile regression is used to estimate probabilistic frontiers, i.e. frontiers based on the probability of being dominated. The results from the empirical application using an Italian hotel dataset show rejections of a parametric functional form and a location shift effect, large uncertainty of the estimates of the frontier and wide confidence intervals for the estimates of efficiency. Quantile regression is further developed to estimate thick probabilistic frontiers, i.e. frontiers based on a group of efficient firms. The empirical results show that the differences between the inefficient and efficient firms at lower quantiles of the conditional distribution function are from the coefficient (85 percent of the total effect) and the residual effects (25 percent) and at higher quantiles from the coefficient (68 percent) and the regressor effects (22 percent). The results from the Monte Carlo simulations in chapter 4 show that under the correctly assumed stochastic frontier models, the probabilistic frontiers can have the lowest bias and mean squared error of the efficiency estimates. When outliers or location-scale shift effects are included, more preference is towards the probabilistic frontiers. The nonparametric probabilistic frontiers are nearly always preferable to Data Envelopment Analysis and Free Disposable Hull. In chapter 5, a fixed effects quantile regression estimator is used to estimate a cost frontier and efficiency levels for a panel dataset of English NHS Trusts. Waiting times elasticities are estimated from -0.14 to 0.17 in the cross-sectional models and -0.008 to 0.03 in the panel models. Cost minimisation ranged from 33 to 60 days in the cross-sectional model and from 37 to 54 days in the panel model. The results show that the effects of the inputs and control variables vary depending on the efficiency of the Trusts. The efficiency estimates reveal very different conclusions depending on the model choice.
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Ranganai, Edmore. „Aspects of model development using regression quantiles and elemental regressions“. Thesis, Stellenbosch : Stellenbosch University, 2007. http://hdl.handle.net/10019.1/18668.

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Dissertation (PhD)--University of Stellenbosch, 2007.
ENGLISH ABSTRACT: It is well known that ordinary least squares (OLS) procedures are sensitive to deviations from the classical Gaussian assumptions (outliers) as well as data aberrations in the design space. The two major data aberrations in the design space are collinearity and high leverage. Leverage points can also induce or hide collinearity in the design space. Such leverage points are referred to as collinearity influential points. As a consequence, over the years, many diagnostic tools to detect these anomalies as well as alternative procedures to counter them were developed. To counter deviations from the classical Gaussian assumptions many robust procedures have been proposed. One such class of procedures is the Koenker and Bassett (1978) Regressions Quantiles (RQs), which are natural extensions of order statistics, to the linear model. RQs can be found as solutions to linear programming problems (LPs). The basic optimal solutions to these LPs (which are RQs) correspond to elemental subset (ES) regressions, which consist of subsets of minimum size to estimate the necessary parameters of the model. On the one hand, some ESs correspond to RQs. On the other hand, in the literature it is shown that many OLS statistics (estimators) are related to ES regression statistics (estimators). Therefore there is an inherent relationship amongst the three sets of procedures. The relationship between the ES procedure and the RQ one, has been noted almost “casually” in the literature while the latter has been fairly widely explored. Using these existing relationships between the ES procedure and the OLS one as well as new ones, collinearity, leverage and outlier problems in the RQ scenario were investigated. Also, a lasso procedure was proposed as variable selection technique in the RQ scenario and some tentative results were given for it. These results are promising. Single case diagnostics were considered as well as their relationships to multiple case ones. In particular, multiple cases of the minimum size to estimate the necessary parameters of the model, were considered, corresponding to a RQ (ES). In this way regression diagnostics were developed for both ESs and RQs. The main problems that affect RQs adversely are collinearity and leverage due to the nature of the computational procedures and the fact that RQs’ influence functions are unbounded in the design space but bounded in the response variable. As a consequence of this, RQs have a high affinity for leverage points and a high exclusion rate of outliers. The influential picture exhibited in the presence of both leverage points and outliers is the net result of these two antagonistic forces. Although RQs are bounded in the response variable (and therefore fairly robust to outliers), outlier diagnostics were also considered in order to have a more holistic picture. The investigations used comprised analytic means as well as simulation. Furthermore, applications were made to artificial computer generated data sets as well as standard data sets from the literature. These revealed that the ES based statistics can be used to address problems arising in the RQ scenario to some degree of success. However, due to the interdependence between the different aspects, viz. the one between leverage and collinearity and the one between leverage and outliers, “solutions” are often dependent on the particular situation. In spite of this complexity, the research did produce some fairly general guidelines that can be fruitfully used in practice.
AFRIKAANSE OPSOMMING: Dit is bekend dat die gewone kleinste kwadraat (KK) prosedures sensitief is vir afwykings vanaf die klassieke Gaussiese aannames (uitskieters) asook vir data afwykings in die ontwerpruimte. Twee tipes afwykings van belang in laasgenoemde geval, is kollinearitiet en punte met hoë hefboom waarde. Laasgenoemde punte kan ook kollineariteit induseer of versteek in die ontwerp. Na sodanige punte word verwys as kollinêre hefboom punte. Oor die jare is baie diagnostiese hulpmiddels ontwikkel om hierdie afwykings te identifiseer en om alternatiewe prosedures daarteen te ontwikkel. Om afwykings vanaf die Gaussiese aanname teen te werk, is heelwat robuuste prosedures ontwikkel. Een sodanige klas van prosedures is die Koenker en Bassett (1978) Regressie Kwantiele (RKe), wat natuurlike uitbreidings is van rangorde statistieke na die lineêre model. RKe kan bepaal word as oplossings van lineêre programmeringsprobleme (LPs). Die basiese optimale oplossings van hierdie LPs (wat RKe is) kom ooreen met die elementale deelversameling (ED) regressies, wat bestaan uit deelversamelings van minimum grootte waarmee die parameters van die model beraam kan word. Enersyds geld dat sekere EDs ooreenkom met RKe. Andersyds, uit die literatuur is dit bekend dat baie KK statistieke (beramers) verwant is aan ED regressie statistieke (beramers). Dit impliseer dat daar dus ‘n inherente verwantskap is tussen die drie klasse van prosedures. Die verwantskap tussen die ED en die ooreenkomstige RK prosedures is redelik “terloops” van melding gemaak in die literatuur, terwyl laasgenoemde prosedures redelik breedvoerig ondersoek is. Deur gebruik te maak van bestaande verwantskappe tussen ED en KK prosedures, sowel as nuwes wat ontwikkel is, is kollineariteit, punte met hoë hefboom waardes en uitskieter probleme in die RK omgewing ondersoek. Voorts is ‘n lasso prosedure as veranderlike seleksie tegniek voorgestel in die RK situasie en is enkele tentatiewe resultate daarvoor gegee. Hierdie resultate blyk belowend te wees, veral ook vir verdere navorsing. Enkel geval diagnostiese tegnieke is beskou sowel as hul verwantskap met meervoudige geval tegnieke. In die besonder is veral meervoudige gevalle beskou wat van minimum grootte is om die parameters van die model te kan beraam, en wat ooreenkom met ‘n RK (ED). Met sodanige benadering is regressie diagnostiese tegnieke ontwikkel vir beide EDs en RKe. Die belangrikste probleme wat RKe negatief beinvloed, is kollineariteit en punte met hoë hefboom waardes agv die aard van die berekeningsprosedures en die feit dat RKe se invloedfunksies begrensd is in die ruimte van die afhanklike veranderlike, maar onbegrensd is in die ontwerpruimte. Gevolglik het RKe ‘n hoë affiniteit vir punte met hoë hefboom waardes en poog gewoonlik om uitskieters uit te sluit. Die finale uitset wat verkry word wanneer beide punte met hoë hefboom waardes en uitskieters voorkom, is dan die netto resultaat van hierdie twee teenstrydige pogings. Alhoewel RKe begrensd is in die onafhanklike veranderlike (en dus redelik robuust is tov uitskieters), is uitskieter diagnostiese tegnieke ook beskou om ‘n meer holistiese beeld te verkry. Die ondersoek het analitiese sowel as simulasie tegnieke gebruik. Voorts is ook gebruik gemaak van kunsmatige datastelle en standard datastelle uit die literatuur. Hierdie ondersoeke het getoon dat die ED gebaseerde statistieke met ‘n redelike mate van sukses gebruik kan word om probleme in die RK omgewing aan te spreek. Dit is egter belangrik om daarop te let dat as gevolg van die interafhanklikheid tussen kollineariteit en punte met hoë hefboom waardes asook dié tussen punte met hoë hefboom waardes en uitskieters, “oplossings” dikwels afhanklik is van die bepaalde situasie. Ten spyte van hierdie kompleksiteit, is op grond van die navorsing wat gedoen is, tog redelike algemene riglyne verkry wat nuttig in die praktyk gebruik kan word.
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Lo, Sau Yee. „Measurement error in logistic regression model /“. View abstract or full-text, 2004. http://library.ust.hk/cgi/db/thesis.pl?MATH%202004%20LO.

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Thesis (M. Phil.)--Hong Kong University of Science and Technology, 2004.
Includes bibliographical references (leaves 82-83). Also available in electronic version. Access restricted to campus users.
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Kulich, Michal. „Additive hazards regression with incomplete covariate data /“. Thesis, Connect to this title online; UW restricted, 1997. http://hdl.handle.net/1773/9562.

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Bücher zum Thema "Regression analysis"

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Sen, Ashish, und Muni Srivastava. Regression Analysis. New York, NY: Springer New York, 1990. http://dx.doi.org/10.1007/978-1-4612-4470-7.

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Sen, Ashish, und Muni Srivastava. Regression Analysis. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-662-25092-1.

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Lewis-Beck, Michael S. Regression analysis. Thousand Oaks, CA: Sage, 1994.

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Draper, N. R. Applied regression analysis. 3. Aufl. New York: Wiley, 1998.

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1923-, Smith Harry, Hrsg. Applied regression analysis. 3. Aufl. New York: Wiley, 1998.

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Schroeder, Larry, David Sjoquist und Paula Stephan. Understanding Regression Analysis. 2455 Teller Road, Newbury Park California 91320 United States of America: SAGE Publications, Inc., 1986. http://dx.doi.org/10.4135/9781412986410.

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Westfall, Peter H., und Andrea L. Arias. Understanding Regression Analysis. Boca Raton : CRC Press, [2020]: Chapman and Hall/CRC, 2020. http://dx.doi.org/10.1201/9781003025764.

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von Rosen, Dietrich. Bilinear Regression Analysis. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-78784-8.

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Rawlings, John O., Sastry G. Pantula und David A. Dickey, Hrsg. Applied Regression Analysis. New York: Springer-Verlag, 1998. http://dx.doi.org/10.1007/b98890.

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Thrane, Christer. Applied Regression Analysis. Abingdon, Oxon ; New York, NY : Routledge, 2020.: Routledge, 2019. http://dx.doi.org/10.4324/9780429443756.

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Buchteile zum Thema "Regression analysis"

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Arkes, Jeremy. „Summarizing thoughts“. In Regression Analysis, 352–63. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-14.

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Arkes, Jeremy. „Time-series models“. In Regression Analysis, 287–314. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-10.

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Arkes, Jeremy. „Regression analysis basics“. In Regression Analysis, 12–50. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-2.

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Arkes, Jeremy. „Methods to address biases“. In Regression Analysis, 225–65. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-8.

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Arkes, Jeremy. „Introduction“. In Regression Analysis, 1–11. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-1.

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Arkes, Jeremy. „What could go wrong when estimating causal effects?“ In Regression Analysis, 132–207. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-6.

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Arkes, Jeremy. „Strategies for other regression objectives“. In Regression Analysis, 208–24. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-7.

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Arkes, Jeremy. „What does “holding other factors constant” mean?“ In Regression Analysis, 67–89. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-4.

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Arkes, Jeremy. „How to conduct a research project“. In Regression Analysis, 331–42. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-12.

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Arkes, Jeremy. „The ethics of regression analysis“. In Regression Analysis, 343–51. 2. Aufl. London: Routledge, 2022. http://dx.doi.org/10.4324/9781003285007-13.

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Konferenzberichte zum Thema "Regression analysis"

1

Saragih, Jason. „Principal regression analysis“. In 2011 IEEE Conference on Computer Vision and Pattern Recognition (CVPR). IEEE, 2011. http://dx.doi.org/10.1109/cvpr.2011.5995618.

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Chivukula, V. N. Aditya Datta, und Sri Keshava Reddy Adupala. „Music Signal Analysis: Regression Analysis“. In 2nd International Conference on Machine Learning, IOT and Blockchain (MLIOB 2021). Academy and Industry Research Collaboration Center (AIRCC), 2021. http://dx.doi.org/10.5121/csit.2021.111205.

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Machine learning techniques have become a vital part of every ongoing research in technical areas. In recent times the world has witnessed many beautiful applications of machine learning in a practical sense which amaze us in every aspect. This paper is all about whether we should always rely on deep learning techniques or is it really possible to overcome the performance of simple deep learning algorithms by simple statistical machine learning algorithms by understanding the application and processing the data so that it can help in increasing the performance of the algorithm by a notable amount. The paper mentions the importance of data pre-processing than that of the selection of the algorithm. It discusses the functions involving trigonometric, logarithmic, and exponential terms and also talks about functions that are purely trigonometric. Finally, we discuss regression analysis on music signals.
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Khan, Mohiuddeen, und Kanishk Srivastava. „Regression Model for Better Generalization and Regression Analysis“. In ICMLSC 2020: The 4th International Conference on Machine Learning and Soft Computing. New York, NY, USA: ACM, 2020. http://dx.doi.org/10.1145/3380688.3380691.

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Podgurski, Andy. „Session details: Regression testing“. In ISSTA '08: International Symposium on Software Testing and Analysis. New York, NY, USA: ACM, 2008. http://dx.doi.org/10.1145/3260628.

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van Erp, N., und P. van Gelder. „Bayesian logistic regression analysis“. In BAYESIAN INFERENCE AND MAXIMUM ENTROPY METHODS IN SCIENCE AND ENGINEERING: 32nd International Workshop on Bayesian Inference and Maximum Entropy Methods in Science and Engineering. AIP, 2013. http://dx.doi.org/10.1063/1.4819994.

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Krasotkina, O., und V. Mottl. „Adaptive nonstationary regression analysis“. In 2008 19th International Conference on Pattern Recognition (ICPR). IEEE, 2008. http://dx.doi.org/10.1109/icpr.2008.4761666.

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Duller, Christine. „Model selection for logistic regression models“. In NUMERICAL ANALYSIS AND APPLIED MATHEMATICS ICNAAM 2012: International Conference of Numerical Analysis and Applied Mathematics. AIP, 2012. http://dx.doi.org/10.1063/1.4756152.

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Karim, Rezaul, Md Khorshed Alam und Md Rezaul Hossain. „Stock Market Analysis Using Linear Regression and Decision Tree Regression“. In 2021 1st International Conference on Emerging Smart Technologies and Applications (eSmarTA). IEEE, 2021. http://dx.doi.org/10.1109/esmarta52612.2021.9515762.

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Kavitha S, Varuna S und Ramya R. „A comparative analysis on linear regression and support vector regression“. In 2016 Online International Conference on Green Engineering and Technologies (IC-GET). IEEE, 2016. http://dx.doi.org/10.1109/get.2016.7916627.

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Araveeporn, Autcha, und Choojai Kuharatanachai. „Comparing Penalized Regression Analysis of Logistic Regression Model with Multicollinearity“. In the 2019 2nd International Conference. New York, New York, USA: ACM Press, 2019. http://dx.doi.org/10.1145/3343485.3343487.

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Berichte der Organisationen zum Thema "Regression analysis"

1

Burke, Kevin. Regression in Analysis. Fort Belvoir, VA: Defense Technical Information Center, November 2008. http://dx.doi.org/10.21236/ada494895.

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Crowson, Michael. Regression and Moderation Analysis with PROCESS in SPSS. Instats Inc., 2022. http://dx.doi.org/10.61700/7h5yxd5cms1i1469.

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This seminar, taught by Dr. Mike Crowson, is designed to introduce students and researchers to the basics of linear regression analysis using SPSS, including automated moderation analysis (interaction effect tests) using the PROCESS macro. The seminar is designed for anyone who wishes to better understand linear regression concepts and assumptions and how to perform regression analyses involving both quantitative and qualitative predictors with moderation effects. In addition to developing practical skills setting up regression models, testing hypotheses, and generating results, a central focus of the seminar will be on learning how to interpret and communicate results. An official Instats certificate of completion is provided at the conclusion of the seminar. For European PhD students, the seminar offers 2 ECTS Equivalent points.
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Marchese, Malvina. Regression Analysis: Everything You Need to Know. Instats Inc., 2023. http://dx.doi.org/10.61700/758g2bp367fhc469.

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Regression is one of the most important modelling tools used in a variety of different research fields. In many cases, the plausibility of an empirical finding depends on the robustness of the regression results. This two-day seminar offers an in-depth introduction to linear regression models for cross sectional and time series data, covering all aspects of regression modelling, from model and variables selection, to dummy variables and multicollinearity and endogeneity to prediction (in sample and out of sample). An official Instats certificate of completion is provided at the conclusion of the seminar, and European PhD students receive 2 ECTS Equivalent points.
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Marchese, Malvina. Regression Analysis: Everything You Need to Know. Instats Inc., 2023. http://dx.doi.org/10.61700/s16tb8g7d585g469.

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Regression is one of the most important modelling tools used in a variety of different research fields. In many cases, the plausibility of an empirical finding depends on the robustness of the regression results. This two-day seminar offers an in-depth introduction to linear regression models for cross sectional and time series data, covering all aspects of regression modelling, from model and variables selection, to dummy variables and multicollinearity and endogeneity to prediction (in sample and out of sample). An official Instats certificate of completion is provided at the conclusion of the seminar, and European PhD students receive 2 ECTS Equivalent points.
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Landis, Ronald. Regression Analysis for Social and Health Science. Instats Inc., 2023. http://dx.doi.org/10.61700/me4ohse6jsdoy469.

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This comprehensive 2-day workshop will equip PhD students, professors, and professional researchers with the knowledge and skills needed to effectively use multiple regression analysis in their research. Participants will gain a deep understanding of multiple regression, learn how to use R, Excel, and Jamovi for analysis, interpret and report results, handle missing data, and enhance their research capabilities. An official Instats certificate of completion and 2 ECTS Equivalent points are provided at the conclusion of the seminar.
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6

Steed, Chad A., J. Edward SwanII, Patrick J. Fitzpatrick und T. J. Jankun-Kelly. A Visual Analytics Approach for Correlation, Classification, and Regression Analysis. Office of Scientific and Technical Information (OSTI), Februar 2012. http://dx.doi.org/10.2172/1035521.

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Cerulli, Giovanni. Non-Parametric Regression for Prediction and Scenario Analysis. Instats Inc., 2024. http://dx.doi.org/10.61700/h03w8dvg3h26b767.

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This one-day workshop, led by Giovanni Cerulli from the Research Institute on Sustainable Economic Growth, provides a comprehensive understanding of non-parametric regression for prediction and 'scenario analysis' to project the results of policies and interventions. Participants, ranging from PhD students to professional researchers across various disciplines, will gain practical skills in applying non-parametric regression using Stata, enabling them to make accurate predictions and develop scenarios in their own research.
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Hutny, W. P., und J. T. Price. Analysis and regression model of blast furnace coal injection. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1987. http://dx.doi.org/10.4095/304361.

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9

Jacob, Brian, und Lars Lefgren. Remedial Education and Student Achievement: A Regression-Discontinuity Analysis. Cambridge, MA: National Bureau of Economic Research, Mai 2002. http://dx.doi.org/10.3386/w8918.

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Kerr, William, Josh Lerner und Antoinette Schoar. The Consequences of Entrepreneurial Finance: A Regression Discontinuity Analysis. Cambridge, MA: National Bureau of Economic Research, März 2010. http://dx.doi.org/10.3386/w15831.

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