stratEst is a statistical software package for strategy estimation (Dal Bo and Frechette, 2011). The goal of strategy estimation is to explain choices of a sample of individuals by a finite mixture of discrete choice strategies. The discrete choice strategies are deterministic finite state automata that can be customized by the user to fit the structure of the data. The parameters of the strategy estimation model are the relative frequencies and the choice parameters of the strategies. The model can be extended by adding individual level covariates to explain the selection of strategies by individuals. The estimation function of the package uses expectation maximization (Dempster, Laird, and Rubin, 1977) and Newton-Raphson methods to find the maximum likelihood estimates of the model parameters. To speed up the estimation, the package integrates C++ and R with the help of the R packages Rcpp (Eddelbuettel and Francois 2011) and the open source linear algebra library for the C++ language RppArmadillo (Sanderson and Curtin 2016). The package contains additional functions for data processing and simulation, strategy generation, parameter tests, model checking, and model selection.

The most recent CRAN version of stratEst is installed by executing the following command in the R console:

The development version of the package can be installed from GitHub with the help of the package devtools (Wickham, Hester, and Chang 2020):

Fit a strategy estimation model with two strategies to the rock-paper-scissors data of Wang, Xu, and Zhou (2014). The model is a mixture of the Nash strategy and a strategy that imitates the last choice.

```
library(stratEst)
strategies.mixture = list("nash" = strategies.RPS$nash, "imitate" = strategies.RPS$imitate)
model.mixture <- stratEst.model(data.WXZ2014,strategies.mixture)
```

- Dal Bo P, Frechette GR (2011). “The Evolution of Cooperation in Infinitely Repeated Games: Experimental Evidence.” American Economic Review, 101(1), 411-429.
- Dempster A, Laird N, Rubin DB (1977). “Maximum Likelihood from Incomplete Data via the EM Algorithm.” Journal of the Royal Statistical Society Series B, 39(1), 1-38.
- Eddelbuettel D, Francois R (2011). “Rcpp: Seamless R and C++ Integration.” Journal of Statistical Software, 40(8), 1-18.
- Sanderson C, Curtin R (2016). “Armadillo: A Template-Based C++ Library for Linear Algebra.”
- Wang Z, Xu B, Zhou HJ (2014). “Social Cycling and Conditional Responses in the Rock-Paper-Scissors Game.” Scientific Reports, 4(1), 2045-2322.
- Wickham H, Hester J, Chang W (2020). “devtools: Tools to Make Developing R Packages Easier.” R package version 2.3.0.