![Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping](https://cncm.som.uci.edu/files/2021/11/2.jpg)
Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping
![Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping](https://cncm.som.uci.edu/files/2021/11/3.png)
Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping
![Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping](https://cncm.som.uci.edu/files/2021/11/4.png)
Beyond t test and ANOVA: applications of mixed-effects models for more rigorous statistical analysis in neuroscience research – UCI Center for Neural Circuit Mapping
![r - Effect size derived from LME longitudinal model: the statistical findings projected back down onto a group of people - Cross Validated r - Effect size derived from LME longitudinal model: the statistical findings projected back down onto a group of people - Cross Validated](https://i.stack.imgur.com/xXwFW.png)