We provide ** gen_syn_data** to generate
synthetic data for CausalGPS package

Input parameters:

** sample_size** Number of data samples

** seed** The seed of R’s random number
generator

** outcome_sd** Standard deviation used to
generate the outcome

** gps_spec** A numerical value (1-7) that
indicates the GPS model used to generate synthetic data. See the
following section for more details.

** cova_spec** A numerical value (1-2) to
modify the covariates. See the code for more details.

We generate six confounders \((C_1,C_2,...,C_6)\), which include a combination of continuous and categorical variables, \[\begin{align*} C_1,\ldots,C_4 \sim N(0,\boldsymbol{I}_4), C_5 \sim U\{-2,2\}, C_6 \sim U(-3,3), \end{align*}\] and generate \(W\) using six specifications of the generalized propensity score model,

\(W = 9 \{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\} +17 + N(0,5)\)

\(W = 15\{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\} + 22 + T(2)\)

\(W = 9 \{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\} + 3/2 C_3^2 + 15 + N(0,5)\)

\(W = \frac{49 \exp(\{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\})}{1+ \exp(\{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\})} -6 + N(0,5)\)

\(W = \frac{42}{1+ \exp(\{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\})} - 18 + N(0,5)\)

\(W = 7 \text{log} ( \{-0.8+ (0.1,0.1,-0.1,0.2,0.1,0.1) \boldsymbol{C}\}) + 13 + N(0,4)\)

We generate \(Y\) from an outcome model which is assumed to be a cubical function of \(W\) with additive terms for the confounders and interactions between \(W\) and confounders \(\mathbf{C}\),

\[Y | W, \mathbf{C} \sim N\{\mu(W, \mathbf{C}),\text{sd}^2\}\]

\[\mu(W, \mathbf{C}) = -10 - (2, 2, 3, -1,2,2)\mathbf{C} - W(0.1 - 0.1C_1 + 0.1C_4 + 0.1C_5 + 0.1C_3^2) + 0.13^2W^3\]