Programs releases
Releases of programs for implementing modelling analyses.
Releases of programs for implementing modelling analyses.
Releases of subroutines used in modelling analyses.
We created a basic synthetic dataset of to represent a clinical youth mental health sample.
Programs are used to generate and report a model analysis.
Subroutines perform part of an analysis and reporting algorithm.
Replication programs for designing, analysing and reporting discrete choice experiments.
Replication programs for constructing synthetic populations.
Replication programs for developing, finding and applying utility mapping algorithms.
The code used when applying ready4 to a number of real world youth mental health policy and research projects is publicly available.
Sub-routine programs can be used to automatically generate standardised reports of analyses undertaken with ready4.
Using modules from the scorz R package, individual responses to a multi-attribute utility instrument survey can be converted into health utility total scores. This tutorial describes how to do for adolescent AQoL-6D health utility.
Using modules from the specific R package, it is possible to undertake an exploratory utility mapping analysis. This tutorial illustrates a hypotehtical example of exploring how to map to EQ-5D health utility.
Using modules from the TTU R package, it is possible to implement a fully reproducible utility mapping study. This tutorial illustrates the main steps using a hypothetical AQoL-6D utility mapping study.
Using tools (soon to be formalised into ready4 modules) from the youthu R package, it is possible to find and deploy relevant utility mapping algorithms. This tutorial illustrates the main steps for predicting AQoL-6D utility from psychological and functional measures collected on clinical samples of young people.
We used functions (soon to be formalised into ready4 modules) from the mychoice R package to design to a discrete choice experiment.
Using tools (soon to be formalised into ready4 framework modules) from the mychoice R package, it is possible to develop choice models from responses to a discrete choice experiment survey.
Using tools (soon to be formalised into ready4 framework modules) from the youthu R package, it is possible to use utility mapping algorithms to help implement cost-utility analyses. This tutorial illustrates the main steps for doing so using psychological and functional measures collected on clinical samples of young people.
Using functions (soon to be formalised into ready4 framework modules) from the mychoice R package, it is possible to develop choice models from responses to a discrete choice experiment survey.
Using modules from the TTU, youthvars, scorz and specific libraries, we developed utility mapping algorithms from a sample of young people attending primary mental health care services.
Using functions (soon to be formalised into ready4 framework modules) from the youthu R package, we predicted health utility for a synthetic population of young people attending primary mental health care services.
Executables (programs and sub-routines) are used to apply computational models to data and to report the resulting analyses.
A template subroutine for generating a scientific manuscript for use with the ready4show library.
A subroutine for a summary of the main results from a Discrete Choice Experiment implemented with the mychoice library.