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208 lines
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Plaintext
208 lines
15 KiB
Plaintext
7 months ago
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{smcl}
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{* 2013}{...}
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{hline}
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help for {hi:validscale}{right:Bastien Perrot}
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{hline}
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{title:Syntax}
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{p 8 14 2}{cmd:validscale} {it:varlist}, {opt part:ition}({it:numlist}) [{it:options}]
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{p 4 4 2}{it:varlist} contains the variables (items) used to compute the scores. The first items of {it:varlist} compose the first dimension, the following items define the second dimension, and so on.
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{p 4 4 2}{cmd:partition} allows defining in {it:numlist} the number of items in each dimension.
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{synoptset 20 tabbed}{...}
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{synopthdr}
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{synoptline}
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{syntab:Options}
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{synopt : {opt scoren:ame(string)}}define the names of the dimensions{p_end}
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{synopt : {opt scores(varlist)}}use scores from the dataset{p_end}
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{synopt : {opt cat:egories(numlist)}}define minimum and maximum response categories for the items{p_end}
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{synopt : {opt imp:ute(method)}}impute missing item responses{p_end}
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{synopt : {help validscale##impute_options:{it:impute_options}}}options for imputation of missing data {p_end}
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{synopt : {opt comps:core(method)}}define how scores are computed{p_end}
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{synopt : {opt desc:items}}display a descriptive analysis of items and dimensions{p_end}
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{synopt : {opt graph:s}}display graphs for items description{p_end}
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{synopt : {opt cfa}}assess structural validity of the scale by performing a confirmatory factor analysis (CFA){p_end}
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{synopt : {help validscale##cfa_options:{it:cfa_options}}}options for confirmatory factor analysis (CFA){p_end}
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{synopt : {opt conv:div}}assess convergent and divergent validities assessment{p_end}
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{synopt : {help validscale##convdiv_options:{it:conv_div_options}}}options for convergent and divergent validities{p_end}
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{synopt : {help validscale##reliability_options:{it:reliability_options}}}options for reliability assessment{p_end}
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{synopt : {opt rep:et(varlist)}}assess reproducibility of scores and items{p_end}
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{synopt : {help validscale##repet_options:{it:repet_options}}}options for reproducibility{p_end}
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{synopt : {opt kgv(varlist)}}assess known-groups validity by using qualitative variable(s){p_end}
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{synopt : {help validscale##kgv_options:{it:kgv_options}}}options for known-groups validity assessment{p_end}
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{synopt : {opt conc(varlist)}}assess concurrent validity{p_end}
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{synopt : {help validscale##conc_options:{it:conc_options}}}options for concurrent validity assessment{p_end}
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{synopt : {opt * }}options from {help sem_estimation_options} command (additional estimation options for {help validscale##cfa_options:{it:cfa_options}}) {p_end}
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{p2colreset}{...}
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{title:Description}
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{phang}{cmd:validscale} assesses validity and reliability of a multidimensional scale. Elements to provide
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structural validity, convergent and divergent validity, reproducibility, known-groups validity, internal consistency, scalability and sensitivity are computed. {cmd:validscale} can be used with a dialog box by typing {stata db validscale}.
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{marker options}{...}
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{title:Options}
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{dlgtab:Options}
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{phang}{opt scoren:ame(string)} allows defining the names of the dimensions. If the option is not used, the dimensions are named {it:Dim1}, {it:Dim2},... unless {opt scores(varlist)} is used.
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{phang}{opt scores(varlist)} allows selecting scores from the dataset. {opt scores(varlist)} and {opt scorename(string)} cannot be used together.
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{phang}{opt cat:egories(numlist)} allows specifying the minimum and maximum possible values for items responses. If all the items have the same response
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categories, the user may specify these 2 values in {it:numlist}. If the items response categories differ from a dimension to another, the user must define the possible minimum and maximum values of items responses for each
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dimension. So the number of elements in {it:numlist} must be equal to the number of dimensions times 2. Eventually, the user may specify the minimum and maximum response categories for each item. In this case, the
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number of elements in {it:numlist} must be equal to the number of items times 2. By default, the minimum and maximum values are assumed to be the minimum and maximum for each item.
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{marker impute_options}{...}
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{phang}{opt imp:ute(method)} imputes missing items responses with Person Mean Substitution ({bf:pms}) or Two-way imputation method applied in each dimension ({bf:mi}). With PMS method, missing data are imputed only if the number of
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missing values in the dimension is less than half the number of items in the dimension.
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{phang2} By default, imputed values are rounded to the nearest whole number but with the {opt nor:ound} option, imputed values are not rounded. If {opt impute} is absent then {opt noround} is ignored.
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{phang}{opt comp:score(method)} defines the method used to compute the scores. {it:method} may be either {bf:mean} (default), {bf:sum} or {bf:stand}(set scores from 0 to 100). {opt comp:score(method)} is ignored
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if the {opt scores(varlist)} option is used.
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{phang}{opt desc:items} displays a descriptive analysis of the items. This option displays missing data rate per item and distribution of item responses. It also computes for each item the Cronbach's alphas
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obtained by omitting each item in each dimension. Moreover, the option computes Loevinger's Hj coefficients and the number of non-significant Hjk. See {help loevh} for details about Loevinger's coefficients.
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{phang}{opt graph:s} displays graphs for items and dimensions descriptive analyses. It provides histograms of scores, a biplot of the scores and a graph showing the correlations between the items.
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{marker cfa_options}{...}
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{phang}{opt cfa} performs a Confirmatory Factor Analysis (CFA) using {help sem} command. It displays estimations of parameters and several goodness-of-fit indices.
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{phang2} {opt cfam:ethod}({it:method}) specifies the method to estimate the parameters. {it:method} may be either {bf:ml} (maximum
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likelihood), {bf:mlmv} ({bf:ml} with missing values) or {bf:adf} (asymptotic distribution free).
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{phang2} {opt cfasb} produces Satorra-Bentler adjusted goodness-of-fit indices using the vce(sbentler) option from sem ({help sem_option_method##vcetype})
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{phang2} {opt cfas:tand} displays standardized coefficients.
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{phang2} {opt cfanocovd:im} asserts that the latent variables are not correlated.
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{phang2} {opt cfac:ovs} option allows adding covariances between measurement errors. The syntax cfacov(item1*item2)
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allows estimating the covariance between the errors of item1 and item3. To specify more than one covariance, the form of the syntax is cfacov(item1*item2 item3*item4).
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{phang2} {opt cfar:msea(#)} option allows adding automatically the covariances between measurement errors found
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with the estat mindices command until the RMSEA (Root Mean Square Error
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of Approximation) of the model is less than #. More precisely, the "basic" model
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(without covariances between measurement errors) is estimated then we add the covariance corresponding to the greatest modification index and the model is re-
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estimated with this extra-parameter, and so on. The option only adds the covari-
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ances between measurement errors within a dimension and can be combined with
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cfacov. The specified value # may not be reached if all possible within-dimension
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measurement errors have already been added.
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{phang2} {opt cfacf:i(#)} option allows adding automatically the covariances between measurement errors found with
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the estat mindices command until the CFI (Comparative Fit Index) of the model
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is greater than #. More precisely, the "basic" model (without covariances between
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measurement errors) is estimated then we add the covariance corresponding to the
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greatest modification index and the model is re-estimated with this extra-parameter,
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and so on. The option only adds the covariances between measurement errors within
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a dimension and can be combined with cfacov. The specified value # may not
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be reached if all possible within-dimension measurement errors have already been
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added.
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{phang2} {opt cfaor} option is useful when both {opt cfar:msea} and {opt cfacf:i} are used. By default, covariances between measurement errors are added and the model is estimated until both RMSEA
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and CFI criteria are met. If cfaor is used, the estimations stop when one of the two
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criteria is met.
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{phang2} {opt *} options from {help sem_estimation_options} (e.g. {opt iterate(#)}, {opt vce(vcetype)}, etc.)
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{marker convdiv_options}{...}
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{phang}{opt conv:div} assesses convergent and divergent validities. The option displays the matrix of correlations between items and rest-scores. If {opt scores(varlist)} is used, then the correlations coefficients are computed between
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items and scores of {opt scores(varlist)}.
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{phang2} {opt tconv:div(#)} defines a threshold for highlighting some values. # is a real number between 0 and 1 which is equal to 0.4 by
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default. Correlations between items and their own score are displayed
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in red if it is less than #. Moreover, if an item has a smaller correlation coefficient with the score of its own dimension than the correlation coefficient computed with other scores, this coefficient is displayed
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in red.
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{phang2} {opt convdivb:oxplots} displays boxplots for assessing convergent and divergent validities. The boxes represent the correlation coefficients between the items of a given dimension and all scores. Thus the
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box of correlation coefficients between items of a given dimension and the corresponding score must be higher than other boxes. There are as many boxplots as dimensions.
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{marker reliability_options}{...}
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{phang}{it:reliability_options} allow defining the thresholds for reliability and scalability indices.
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{phang2} {opt a:lpha(#)} defines a threshold for Cronbach's alpha (see {help alpha}). # is a real number between 0 and 1 which is equal to 0.7
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by default. Cronbach's alpha coefficients less than # are printed in red.
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{phang2} {opt d:elta(#)} defines a threshold for Ferguson's delta coefficient (see {help delta}). Delta coefficients are computed only if {opt compscore}({it:sum}) is used
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and {opt scores}({it:varlist)} is not used. # is a real number between 0 and 1 which is equal to 0.9
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by default. Ferguson's delta coefficients less than # are printed in red.
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{phang2} {opt h(#)} defines a threshold for Loevinger's H coefficient (see {help loevh}). # is a real number between 0 and 1 which is equal to
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0.3 by default. Loevinger's H coefficients less than # are printed in red.
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{phang2} {opt hj:min(#)} defines a threshold for Loevinger's Hj coefficients. The displayed value is the minimal Hj coefficient for a item in the dimension. (see {help loevh}). # is a real number between 0 and 1 which is equal to
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0.3 by default. If the minimal Loevinger's Hj coefficient is less than # then it is printed in red and the corresponding item is displayed.
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{marker repet_options}{...}
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{phang}{opt rep:et(varlist)} assesses reproducibility of scores by defining in {it:varlist} the variables corresponding to responses at time 2 (in the same order than for time 1). Scores are computed according to
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the {opt partition()} option. Intraclass
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Correlation Coefficients (ICC) for scores and their 95% confidence interval are computed with Stata's {help icc} command.
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{phang2} {opt kap:pa} computes kappa statistic for items with Stata's {help kap} command.
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{phang2} {opt ickap:pa(#)} computes confidence intervals for kappa statistics using {help kapci}. # is the number of replications for bootstrap used to estimate confidence intervals if items are polytomous. If they are dichotomous, an analytical method is used. See {help kapci} for more details about
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calculation of confidence intervals for kappa's coefficients. If the {opt kappa} option is absent then {opt ickappa(#)} is ignored.
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{phang2} {opt scores2}({it:varlist}) allows selecting scores at time 2 from the dataset.
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{phang}{opt kgv(varlist)} assesses known-groups validity according to the grouping variables defined in {it:varlist}. The option performs an ANOVA which compares the scores between groups of individuals, constructed with variables in {it:varlist}. A p-value based on a Kruskal-Wallis test is also given.
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{marker kgv_options}{...}
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{phang2} {opt kgvb:oxplots} draws boxplots of the scores split into groups of individuals.
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{phang2} {opt kgvg:roupboxplots} groups all boxplots into one graph. If {opt kgvboxplots} is absent then the {opt kgvgroupboxplots} option is ignored.
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{phang}{opt conc(varlist)} assesses concurrent validity with variables precised in {it:varlist}. These variables are scores from one or several other scales.
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{marker conc_options}{...}
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{phang2} {opt tc:onc(#)} defines a threshold for correlation coefficients between the computed scores and the scores of other scales defined in {it:varlist}. Correlation
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coefficients greater than # (0.4 by default) are displayed in bold.
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{marker examples}{...}
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{title:Examples}
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{phang2}{cmd:. validscale item1-item20, part(5 4 6 5)}{p_end}
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{phang2}{cmd:. validscale item1-item20, part(5 4 6 5) imp graphs cfa cfastand cfacovs(item1*item3 item5*item7 item17*item18) convdiv convdivboxplots kgv(factor_variable) kgvboxplots conc(scoreA-scoreD)}{p_end}
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{phang2}{cmd:. validscale item1-item20, part(5 4 6 5) imp scores(s1-s4) rep(item1bis-item20bis) scores2(s1bis-s4bis) kappa}{p_end}
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{title:References}
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{phang}Blanchette, D. 2010. LSTRFUN: Stata module to modify long local macros. {it:Statistical Software Components}, Boston College Department of Economics.
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{phang}Gadelrab, H. 2010. {it:Evaluating the fit of structural equation models: Sensitivity to specification error and descriptive goodness-of-fit indices.} Lambert Academic Publishing.
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{phang}Hamel, J.-F. 2014. MI TWOWAY: Stata module for computing scores on questionnaires containing missing item responses. {it:Statistical Software Components}, Boston College Department of Economics.
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{phang}Hardouin, J.-B. 2004. LOEVH: Stata module to compute Guttman errors and Loevinger H coeficients. {it:Statistical Software Components}, Boston College Department of Economics.
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{phang}Hardouin, J.-B. 2007. DELTA: Stata module to compute the Delta index of scale discrimination. {it:Statistical Software Components}, Boston College Department of Economics.
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{phang}Hardouin, J.-B. 2013. IMPUTEITEMS: Stata module to impute missing data of binary items.
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{phang}Hardouin, J.-B., A. Bonnaud-Antignac, V. Sbille, et al. 2011. Nonparametric item response theory using Stata. {it:Stata Journal} 11(1): 30.
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{phang}Reichenheim, M. E. 2004. Confidence intervals for the kappa statistic. {it:Stata Journal} 4(4): 421{428(8).
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{title:Author}
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{phang}Bastien Perrot, EA 4275 SPHERE, "methodS in Patient-centered outomes and HEalth ResEarch", University of Nantes, France
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{browse "mailto:bastien.perrot@univ-nantes.fr":bastien.perrot@univ-nantes.fr}{p_end}
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{marker alsosee}{...}
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{title:Also see}
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{p 4 13 2}help for {help alpha}, {help delta}, {help loevh}, {help icc}, {help kapci}.{p_end}
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