In choi-phd/TestDesign: Optimal Test Design Approach to Fixed and Adaptive Test Construction
Introduction
This document explains how to create constraints data for loadConstraints(). Automated test assembly in practice is often desired to assemble a test so that its contents adhere to a test blueprint, which asserts various requirements the assembled test should satisfy. As of TestDesign version 1.1.0, constraints can be read in from data.frame objects or .csv spreadsheet files. The input data is expected to be in the following structure:
library(knitr)
library(kableExtra)
library(TestDesign)
constraints_science_data[is.na(constraints_science_data)] <- ""
constraints_reading_data[is.na(constraints_reading_data)] <- ""
constraints_fatigue_data[is.na(constraints_fatigue_data)] <- ""
constraints_bayes_data[is.na(constraints_bayes_data)] <- ""
knitr::kable(constraints_science_data[1:5, ]) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Constraints data must have seven columns, named as CONSTRAINT_ID, TYPE, WHAT, CONDITION, LB, UB, ONOFF on the first row. Beginning from the second row, each row must have corresponding values for each column. A convenient way for working with constraints is to use a spreadsheet application (e.g. Excel) and work on the content from there.
Readers are also encouraged to tinker with example constraints included in the package:
constraints_science_data (all discrete items)constraints_reading_data (set-based blueprint)constraints_fatigue_data (uses enemy items)constraints_bayes_data (uses word count constraints)
Content balancing with shadow-test approach
This section aims to provide context on why the constraints input format does not have a column for weights.
The TestDesign package performs content balancing using the shadow-test approach (van der Linden & Reese, 1998). This means that the test will be assembled in a way that strictly satisfies all constraints with no violations. The reader may be familiar with the use of weights in test blueprints for indicating which constraints should be prioritized. These constraint-wise weights are mainly needed when traditional content balancing methods are used, where items are selected one by one. When items are selected one by one, there is a fundamental limitation that there is no guarantee that the resulting test will satisfy all constraints. For this reason, weights are used as supplements to traditional content balancing to work around this limitation, to guide the item selection process in a way that the number of violated constraints is minimized.
Unlike with traditional content balancing methods, the shadow-test approach operates without needing weights. This is because the shadow-test approach directly finds a combination of items that satisfies all constraints, and therefore has no need to prioritize certain constraints to satisfy, as would be needed in traditional content balancing methods that select items one by one.
Required columns
Column 1: CONSTRAINT_ID
This column specifies the identifier of each constraint. Character values can be used as long as the values are unique.
Column 2: TYPE
This column specifies the type of constraint. Following values are expected: Number, Order, Enemy, Include, Exclude, AllorNone.
Number specifies the constraint to be applied to the number of selected items (if WHAT column is Item), or to the number of selected item sets (if WHAT column is Stimulus). For example, the following row tells the solver to select a total of 30 items.
knitr::kable(constraints_science_data[1, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Sum specifies the constraint to be applied to the sum of attributes of selected items (if WHAT column is Item), or of selected item sets (if WHAT column is Stimulus). For example, the following row tells the solver to keep the sum of WORDS between 500--600.
tmp <- constraints_bayes_data[2, ]
tmp$ONOFF <- ""
knitr::kable(tmp, row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Order specifies the selection to be made in ascending order. The following row tells the solver to select the items in ascending LEVEL, based on supplied attributes.
knitr::kable(constraints_science_data[32, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Enemy specifies the items (or item sets) matching the condition to be treated as enemy items. To tell the solver to select at most one of the two items:
knitr::kable(constraints_science_data[33, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Include specifies the items matching the condition to be always included in selection. For example, the following row tells the solver to include items SC00003 and SC00004:
knitr::kable(constraints_science_data[34, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Exclude specifies the items matching the condition to be always excluded from selection. The following row tells the solver to exclude items that match PTBIS < 0.15, based on supplied item attributes.
knitr::kable(constraints_science_data[35, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
AllOrNone specifies the items matching the condition to be either all included or all excluded. To tell the solver to either select items SC00005 and SC00006 at the same time or exclude them at the same time:
knitr::kable(constraints_science_data[36, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em", background = "cyan") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Column 3: WHAT
This column specifies the unit of assembly the constraint uses. Expected values are Item or Stimulus.
Column 4: CONDITION
This column specifies the condition of the constraint. An R expression returning logical values (TRUE or FALSE) is expected. The variables supplied in item attributes can be used in the expression as variable names.
Some examples are:
"STANDARD %in% c(2, 4)" tells the solver to select when STANDARD is either 2 or 4."STANDARD %in% c(2, 4) & DOK >= 3" tells the solver to select when STANDARD is either 2 or 4, and also DOK is at least 3.!is.na(FACIT) tells the solver to select when FACIT is not empty.- Leave it empty to not specify any condition. This is useful in constraining the total number of items.
For TYPE == SUM, using a variable name imposes the constraint on the sum of the variable. The following row tells the solver to keep the sum of WORDS between 500--600.
tmp <- constraints_bayes_data[2, ]
tmp$ONOFF <- ""
knitr::kable(tmp, row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em", background = "cyan") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
For TYPE == SUM, constraints on conditional sums can be imposed by using a variable name, placing a comma, and then giving an R expression returning logical values. The following row tells the solver to keep the sum of WORDS within DOK == 1 items between 50--80.
tmp <- constraints_bayes_data[3, ]
tmp$ONOFF <- ""
knitr::kable(tmp, row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em", background = "cyan") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
In set-based assembly, Per Stimulus can be used to specify the number of items to select in each stimulus. For example, the following row tells the solver to select 4 to 6 items per stimulus:
knitr::kable(constraints_reading_data[3, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em", background = "cyan") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em")
Column 5-6: LB and UB
These two columns specify lower and upper bounds on the number of selected items. These must be specified when TYPE is Number, and otherwise must be left empty.
Some example rows are provided.
- To select a total of 12 items:
knitr::kable(constraints_fatigue_data[1, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em", background = "cyan") %>%
column_spec(6, "3em", background = "cyan") %>%
column_spec(7, "3em")
- To select 15 to 30 items satisfying
DOK >= 2:
knitr::kable(constraints_reading_data[17, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em", background = "cyan") %>%
column_spec(6, "3em", background = "cyan") %>%
column_spec(7, "3em")
Column 7: ONOFF
Set this to OFF to turn off the constraint from being applied. ON or leaving it blank applies the constraint. The following example specifies the order constraint to be not applied.
knitr::kable(constraints_reading_data[18, ], row.names = FALSE) %>%
kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>%
column_spec(1, "5em") %>%
column_spec(2, "5em") %>%
column_spec(3, "5em") %>%
column_spec(4, "10em") %>%
column_spec(5, "3em") %>%
column_spec(6, "3em") %>%
column_spec(7, "3em", background = "cyan")
References
van der Linden W. J., Reese L. M. (1998). A model for optimal constrained adaptive testing. Applied Psychological Measurement, 22(3), 259-270. https://doi.org/10.1177/01466216980223006
choi-phd/TestDesign documentation built on Oct. 1, 2024, 2:37 a.m.
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Introduction
This document explains how to create constraints data for loadConstraints(). Automated test assembly in practice is often desired to assemble a test so that its contents adhere to a test blueprint, which asserts various requirements the assembled test should satisfy. As of TestDesign version 1.1.0, constraints can be read in from data.frame objects or .csv spreadsheet files. The input data is expected to be in the following structure:
library(knitr) library(kableExtra) library(TestDesign) constraints_science_data[is.na(constraints_science_data)] <- "" constraints_reading_data[is.na(constraints_reading_data)] <- "" constraints_fatigue_data[is.na(constraints_fatigue_data)] <- "" constraints_bayes_data[is.na(constraints_bayes_data)] <- ""
knitr::kable(constraints_science_data[1:5, ]) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Constraints data must have seven columns, named as CONSTRAINT_ID, TYPE, WHAT, CONDITION, LB, UB, ONOFF on the first row. Beginning from the second row, each row must have corresponding values for each column. A convenient way for working with constraints is to use a spreadsheet application (e.g. Excel) and work on the content from there.
Readers are also encouraged to tinker with example constraints included in the package:
constraints_science_data(all discrete items)constraints_reading_data(set-based blueprint)constraints_fatigue_data(uses enemy items)constraints_bayes_data(uses word count constraints)
Content balancing with shadow-test approach
This section aims to provide context on why the constraints input format does not have a column for weights.
The TestDesign package performs content balancing using the shadow-test approach (van der Linden & Reese, 1998). This means that the test will be assembled in a way that strictly satisfies all constraints with no violations. The reader may be familiar with the use of weights in test blueprints for indicating which constraints should be prioritized. These constraint-wise weights are mainly needed when traditional content balancing methods are used, where items are selected one by one. When items are selected one by one, there is a fundamental limitation that there is no guarantee that the resulting test will satisfy all constraints. For this reason, weights are used as supplements to traditional content balancing to work around this limitation, to guide the item selection process in a way that the number of violated constraints is minimized.
Unlike with traditional content balancing methods, the shadow-test approach operates without needing weights. This is because the shadow-test approach directly finds a combination of items that satisfies all constraints, and therefore has no need to prioritize certain constraints to satisfy, as would be needed in traditional content balancing methods that select items one by one.
Required columns
Column 1: CONSTRAINT_ID
This column specifies the identifier of each constraint. Character values can be used as long as the values are unique.
Column 2: TYPE
This column specifies the type of constraint. Following values are expected: Number, Order, Enemy, Include, Exclude, AllorNone.
Numberspecifies the constraint to be applied to the number of selected items (ifWHATcolumn isItem), or to the number of selected item sets (ifWHATcolumn isStimulus). For example, the following row tells the solver to select a total of 30 items.
knitr::kable(constraints_science_data[1, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Sumspecifies the constraint to be applied to the sum of attributes of selected items (ifWHATcolumn isItem), or of selected item sets (ifWHATcolumn isStimulus). For example, the following row tells the solver to keep the sum ofWORDSbetween 500--600.
tmp <- constraints_bayes_data[2, ] tmp$ONOFF <- "" knitr::kable(tmp, row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Orderspecifies the selection to be made in ascending order. The following row tells the solver to select the items in ascendingLEVEL, based on supplied attributes.
knitr::kable(constraints_science_data[32, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Enemyspecifies the items (or item sets) matching the condition to be treated as enemy items. To tell the solver to select at most one of the two items:
knitr::kable(constraints_science_data[33, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Includespecifies the items matching the condition to be always included in selection. For example, the following row tells the solver to include itemsSC00003andSC00004:
knitr::kable(constraints_science_data[34, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Excludespecifies the items matching the condition to be always excluded from selection. The following row tells the solver to exclude items that matchPTBIS < 0.15, based on supplied item attributes.
knitr::kable(constraints_science_data[35, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
AllOrNonespecifies the items matching the condition to be either all included or all excluded. To tell the solver to either select itemsSC00005andSC00006at the same time or exclude them at the same time:
knitr::kable(constraints_science_data[36, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em", background = "cyan") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Column 3: WHAT
This column specifies the unit of assembly the constraint uses. Expected values are Item or Stimulus.
Column 4: CONDITION
This column specifies the condition of the constraint. An R expression returning logical values (TRUE or FALSE) is expected. The variables supplied in item attributes can be used in the expression as variable names.
Some examples are:
"STANDARD %in% c(2, 4)"tells the solver to select whenSTANDARDis either 2 or 4."STANDARD %in% c(2, 4) & DOK >= 3"tells the solver to select whenSTANDARDis either 2 or 4, and alsoDOKis at least 3.!is.na(FACIT)tells the solver to select whenFACITis not empty.- Leave it empty to not specify any condition. This is useful in constraining the total number of items.
For TYPE == SUM, using a variable name imposes the constraint on the sum of the variable. The following row tells the solver to keep the sum of WORDS between 500--600.
tmp <- constraints_bayes_data[2, ] tmp$ONOFF <- "" knitr::kable(tmp, row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em", background = "cyan") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
For TYPE == SUM, constraints on conditional sums can be imposed by using a variable name, placing a comma, and then giving an R expression returning logical values. The following row tells the solver to keep the sum of WORDS within DOK == 1 items between 50--80.
tmp <- constraints_bayes_data[3, ] tmp$ONOFF <- "" knitr::kable(tmp, row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em", background = "cyan") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
In set-based assembly, Per Stimulus can be used to specify the number of items to select in each stimulus. For example, the following row tells the solver to select 4 to 6 items per stimulus:
knitr::kable(constraints_reading_data[3, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em", background = "cyan") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em")
Column 5-6: LB and UB
These two columns specify lower and upper bounds on the number of selected items. These must be specified when TYPE is Number, and otherwise must be left empty.
Some example rows are provided.
- To select a total of 12 items:
knitr::kable(constraints_fatigue_data[1, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em", background = "cyan") %>% column_spec(6, "3em", background = "cyan") %>% column_spec(7, "3em")
- To select 15 to 30 items satisfying
DOK >= 2:
knitr::kable(constraints_reading_data[17, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em", background = "cyan") %>% column_spec(6, "3em", background = "cyan") %>% column_spec(7, "3em")
Column 7: ONOFF
Set this to OFF to turn off the constraint from being applied. ON or leaving it blank applies the constraint. The following example specifies the order constraint to be not applied.
knitr::kable(constraints_reading_data[18, ], row.names = FALSE) %>% kableExtra::kable_styling(bootstrap_options = c("striped", "hover", "condensed", "responsive")) %>% column_spec(1, "5em") %>% column_spec(2, "5em") %>% column_spec(3, "5em") %>% column_spec(4, "10em") %>% column_spec(5, "3em") %>% column_spec(6, "3em") %>% column_spec(7, "3em", background = "cyan")
References
van der Linden W. J., Reese L. M. (1998). A model for optimal constrained adaptive testing. Applied Psychological Measurement, 22(3), 259-270. https://doi.org/10.1177/01466216980223006
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