%0 Generic %A Albers, Nele %A Neerincx, Mark A. %A Brinkman, Willem-Paul %D 2022 %T Addressing people’s current and future states in a reinforcement learning algorithm for persuading to quit smoking and to be physically active: Data and analysis code %U https://data.4tu.nl/articles/dataset/Addressing_people_s_current_and_future_states_in_a_reinforcement_learning_algorithm_for_persuading_to_quit_smoking_and_to_be_physically_active_Data_and_analysis_code/21533055/1 %R 10.4121/21533055.v1 %K Persuasion %K Reinforcement Learning %K Behavior change support systems %K smoking cessation support %K Physical activity %K Conversational agent %K Chatbot %K Virtual coach %K eHealth %K Digital Health %X

 This is the data and analysis code underlying the paper "Addressing people’s current and future states in a reinforcement learning algorithm for persuading to quit smoking and to be physically active" by Nele Albers, Mark A. Neerincx, and Willem-Paul Brinkman. This paper proposes a Reinforcement Learning (RL)-algorithm for persuading people in the context of a virtual coach for quitting smoking and becoming more physically active.

Study

The paper is based on a longitudinal study on the crowdsourcing platform Prolific run between 20 May 2021 and 30 June 2021. The Human Research Ethics Committee of Delft University of Technology granted ethical approval for the research (Letter of Approval number: 1523).  

In this study, smokers who were contemplating or preparing to quit smoking interacted with the text-based virtual coach Sam in up to five conversational sessions. In each session, participants were assigned a new preparatory activity for quitting smoking, such as thinking of and writing down reasons for quitting smoking. Since becoming more physically active may make it easier to quit smoking, half of the activities addressed becoming more physically active. The virtual coach chose from five persuasion types to persuade people to do their activity. In the first two sessions, the persuasion type was chosen uniformly at random; in the last three sessions, the persuasion type was determined by a persuasion algorithm. In the next session, participants were asked to indicate the effort they spent on their activity, which served as basis for the reward signal for the persuasion algorithm.


The study was pre-registered in the Open Science Framework (OSF): https://osf.io/k2uac. This pre-registration describes the study design, measures, etc. Note that the data we provide here is only a part of the data collected in the study, namely, the data related to studying the effectiveness of the persuasion algorithm. Data on the acceptance of the virtual coach can be found separately here: https://doi.org/10.4121/19934783.v1; data on users' needs for a digital smoking cessation application can be found here: https://doi.org/10.4121/20284131.v2.

The implementation of the virtual coach Sam is available here: https://doi.org/10.5281/zenodo.6319356

The formulations for the 24 preparatory activities used in the study can be found in the supplementary material of the paper (S8 Appendix).

Data

We collected four main types of data:

Please consult the "Data"-folder for more information on the data we collected.

%I 4TU.ResearchData