Using Tailoring to Increase the Effectiveness of a Persuasive Game-Based Training for Novel Technologies Sofia Fountoukidou, Jaap Ham, Cees Midden, and Uwe Matzat Human-Technology Interaction, Eindhoven University of Technology, P.O. Box 513, 5600 MB, Eindhoven, Netherlands {s.fountoukidou, J.R.C.Ham, C.J.H.Midden,u.matzat}@tue.nl Abstract. A vast majority of people with motor disabilities cannot be part of the today’s digital society, due to the difficulties they face in using conventional interfaces (i.e., mouse and keyboard) for computer operation. The MAMEM pro- ject aims at facilitating the social inclusion of these people by developing a tech- nology that allows computer operation, solely by using the eyes and mind. How- ever, training is one of the key factors affecting the users’ technology acceptance. Game-based computer training including persuasive strategies could be an effec- tive way to influence user beliefs and behaviors regarding a novel system. Tai- loring these strategies to an individual level is a promising way to increase the effectiveness of a persuasive game. In the current paper, we briefly discuss the theoretical development of a persuasive game-based training for the MAMEM technology, as well as how we used tailored communication strategies to further enhance user technology acceptance. The development of such a tailored persua- sive game will be essential for increasing acceptance and usage of assistive tech- nology but also for the scientific insights in personalization of persuasion. Keywords: Persuasion, Tailoring, Technology Acceptance, Assistive Technol- ogy, 1 Introduction Computer technologies have transformed the way we work, stay in touch with family and friends and in general how we spend our free time. However, individuals with mo- tor disabilities (such as people with Parkinson’s disease and tetraplegia) have several problems adapting to the today’s digital society. The common symptom of these disor- ders is the loss of the voluntary muscular control while preserving cognitive functions. This leads to a variety of functional deficits, including the ability to operate computer applications that require the use of a conventional interfaces (i.e., mouse, keyboard and touchscreens). As a result, the affected individuals face the danger of being socially excluded [1]. Copyright © by the paper’s authors. Copying permitted for private and academic purposes. In: R. Orji, M. Reisinger, M. Busch, A. Dijkstra, M. Kaptein, E. Mattheiss (eds.): Proceedings of the Personalization in Persuasive Technology Workshop, Persuasive Technology 2017, Am- sterdam, The Netherlands, 04-04-2017, published at http://ceur-ws.org 92 Using Tailoring to Increase the Effectiveness of a Persuasive Game-Based Training for Novel Technologies Motivated by this, the European project called Multimedia Authoring and Manage- ment using your Eyes and Mind (MAMEM) 1 aims at facilitating the social integration of these people, by increasing their opportunities for employment, social inclusion and independence. Thus, MAMEM delivers a novel technology that allows physically dis- abled people to operate software applications and execute multimedia-related tasks, through eye-movements (using an eye-tracker) and mental commands (using EEG- recorders). Besides potential benefits of computer Assistive Technologies (ATs) like MAMEM, earlier literature warned about high rates of AT non-use, which leads to detrimental effects on both an individual and collective level [2]. Similar to the general population, beliefs and attitudes of individuals with disabilities towards a technology may prevent its acceptance and use [3, 4]. During the initial stage of technology adoption, training has been found as one of the key factors to influence user beliefs and attitudes about the specific technology [5, 6]. This signals the potential of persuasive technologies, embedded in computer and software training interventions, to create or increase favor- able user reactions to new technologies. Studies have shown that persuasive games can be an effective approach to change attitudes and behaviors and has been applied to various domains, such as education, health and sustainability. Persuasive games have been defined as games that are de- signed with the primary purpose of changing a user’s behavior or attitude using various behavior change theories and strategies [7]. Inspired by such empirical evidence, we developed and implemented a game-based training intervention for the MAMEM tech- nology, consisted of various persuasive strategies. Though persuasive technologies can be effective in motivating the desired behavior and attitude change, there are individual differences in the way people are motivated [8]. One of the limitations reported in the area of persuasive game design is that, often- times, persuasive games adopt a one-size-fits-all approach to their intervention [7]. Nu- merous studies, both in the field of persuasive technology and in the gameplay specifi- cally, highlighted the importance of tailoring strategies to an individual level, in order to increase people’s motivation to change their attitudes and/or behaviors [7, 9, and 10]. The focus of the current paper is to provide a description of the tailored, persuasive game-based training for the MAMEM technology, intended to influence users’ tech- nology acceptance beliefs and usage behaviors. Firstly, we briefly introduce the MAMEM technology and then, we briefly describe the persuasive strategies that con- stitute the persuasive game-based training. Afterwards, we go on discussing how we designed our game-based computer training to be tailored to individual users, using both theory and data-driven approach. 1 http://www.mamem.eu/ Using Tailoring to Increase the Effectiveness of a Persuasive Game-Based Training for Novel Technologies 93 2 MAMEM technology MAMEM technology provides novel and natural ways in which people can operate their computers, like using their eyes. As a result, a new web browser has been devel- oped, called GazeTheWeb (GTW). GTW can be controlled solely with the eyes move- ments, which are captured by an eye-tracking device, mounted at the bottom of the computer screen. Training is deemed necessary, in order for the users to become famil- iar with using their eyes to control a computer as well as with learning the functionali- ties of the new web browser (GTW). Hence, the first step was to design the necessary training activities (i.e., using the GTW icons and typing on the virtual keyboard), in order for the user to learn the system. Next, the identified training activities were trans- lated into a gameplay, consisted of a plethora of persuasive strategies and game me- chanics. 2.1 Development of MAMEM persuasive game To date, several persuasive games are based on designers’ intuition, despite substantial research evidence showing the relative superiority of interventions that are based on theories and models of behavior change motivation [7]. Taking into account such a limitation, we carefully selected the persuasive strategies of our game-based training, using Intervention Mapping (IM), a 6-step framework for developing and implementing health interventions [11]. The targeted behavioral variables of our intervention are re- late to the technology acceptance and its determinants, as specified by the Technology Acceptance Model 3, TAM 3 [12] (for an overview see [13]). Furthermore, the derived theoretical interventions were translated into game design specifications, by making use of applied tools, like design patterns, defined in the software engineering domain as a description or template of a general repeatable solution to a commonly occurring problem (for an overview, see [14]). Since a further description of the intervention de- velopment is out of the scope of this paper we only present the core persuasive strate- gies that formed our game-based training method (more information can be found in [13, 14]. Table 1 contains these persuasive strategies accompanied by a brief descrip- tion of their translation into game mechanics. 2.2 Tailored communication of the MAMEM persuasive game One of the characteristics of the MAMEM persuasive game is that it provides influenc- ing strategies, tailored to individual characteristics and learning process. Tailored com- munication is defined as any combination of information or change techniques, in- tended to reach one specific person, based on the characteristics that are unique to that person, related to the outcome of interest, and derided from individual assessment [15] Three categories of tailored communication has been proposed: Personalization, feedback and content matching [15]. These three categories and their related techniques are often used in combination. Each of these categories has been implemented into the 94 Using Tailoring to Increase the Effectiveness of a Persuasive Game-Based Training for Novel Technologies MAMEM persuasive game. Table 2 describes each technique and how it has been tai- lored to relevant user characteristics, as well as how they were applied within the per- suasive game to further enhance the technology acceptance of the MAMEM trainees. Table 1. Overview of the core persuasive strategies for the MAMEM game-based training Persuasive game-based training interventions Selected persuasive Application to the MAMEM game strategies Evaluative feedback System provides frequent user performance evaluation at the end of each level. Factual feedback System tracks and shows user performance in a number of quantifiable (scoreboards) criteria (i.e., cumulative scores of time and errors). Encouragement System provides an encouraging message following low user perfor- mance at the end of a level Suggestion System provides suggestion for repeating a game level when perfor- mance is low Self-monitoring System keeps track of user performance (i.e., time, errors) which are visi- ble to the user throughout the gameplay Social comparison System shows a user’s performance relative to the other users (leaderboards) External rewards System provides virtual trophies and praises users for their performance and praises Liking Game graphics matching the gameplay Levels Game advances through different levels of increasing difficulty Assignments Game contains short-term goals to be achieved by the users Tailoring Personalize interventions based on user characteristics and performance data 3 Conclusion All in all, this paper presents a tailored training program in the form of a persuasive game, with the overall goal to motivate MAMEM trainees to accept and use the system. The game-based training is well grounded in theories and models as well as recent sci- entific insights. A limitation of the intervention is that it has not been tested empirically yet. Currently, we are performing both lab studies and field studies with real patients to examine the effectiveness of the persuasive game-based training on user technology acceptance and performance. Based on the results of such studies we will refine our interventions and we will expand the tailoring of persuasive strategies to other relevant user characteristics (i.e., computer self-efficacy and computer skills). The output of this research project is relevant for increasing acceptance and usage of assistive technology by the MAMEM target groups, but also for the scientific insights in personalization of persuasion. Using Tailoring to Increase the Effectiveness of a Persuasive Game-Based Training for Novel Technologies 95 Table 2. Tailored communication for MAMEM game-based training (adapted from [15]) Tailoring Tailoring Strategy User Application to category strategy Description characteristics MAMEM game The game features user Identification name on the top right of Personaliza- Identifica- of the recipi- Mentioning of the screen; tion tion ent in the user’s name User name is mentioned message in the feedback provision. Game assignments are Frames in- tailored to the culture of Personaliza- Contextual- formation in Use of cultural the MAMEM patient tion ization meaningful ethnicity groups (i.e., Greek and context Hebrew). Individual performance Reports of data (i.e., time and errors) what is are visible to the user Use of User known about during the gameplay, as Feedback Descriptive performance the user also individual cumula- data based on tive scores are provided his/her data at the end of each game level. Contrasts User’s individual perfor- what is mance data is compared known about Use of user Compara- only to that of other user Feedback the recipient group perfor- tive who belong to the same with what is mance data patient group (i.e., Par- known about kinson’s disease group) others Make inter- pretations or System Interpretation of judgements Use of user the user performance data Feedback Evaluative based on performance (i.e., “it only took you 5 what is data minutes to finish the known about level; this is very fast”). the user The content matching Direct mes- messages the MAMEM sages to indi- game provides are based Content vidual status User gender on determinants derived matching on key theo- and age from TAM and two core retical deter- moderators of the model minants (gender and age) 96 Using Tailoring to Increase the Effectiveness of a Persuasive Game-Based Training for Novel Technologies References 1. Caltenco, H.A., Breidegard, B., Jönsson, B., & Andreasen Struijk, L.N.: Understanding computer users with tetraplegia: Survey of assistive technology users. International Journal of Human-Computer Interaction, 28(4), 258-268 (2012). 2. Hurst, A., & Tobias, J.: Empowering individuals with do-it-yourself assistive technology. In: Proceedings of the 13th international ACM conference on computers and accessibility, pp. 11-18. ACM (2011). 3. Wessels, R., Dijcks, B., Soede, M., Gelderblom, G. J., & De Witte, L.: Non-use of provided assistive technology devices, a literature overview. Technology and disability, 15(4), 231- 238 (2003). 4. Kintsch, A., DePaula, R.: A framework for the adoption of assistive technology. SWAAAC 2002: Supporting learning through assistive technology, pp. 1-10 (2002). 5. Venkatesh, V.: Creation of favorable user perceptions: exploring the role of intrinsic moti- vation. MIS quarterly, 239-260 (1999). 6. Verza, R., Carvalho, M.L., Battaglia, M.A., Uccelli, M.M.: An interdisciplinary approach to evaluating the need for assistive technology reduces equipment abandonment. Multiple Sclerosis Journal, 12(1), 88-93 (2006). 7. Orji, R., Mandryk, R.L., Vassileva, J., Gerling, K. M.: Tailoring persuasive health games to gamer type. In: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, pp. 2467-2476. ACM (2013). 8. Orji, R., Mandryk, R.L., Vassileva, J.: Gender, age, and responsiveness to Cialdini’s persua- sion strategies. In: Persuasive Technology, pp. 147-159. Springer (2015). 9. Kaptein, M., De Ruyter, B., Markopoulos P., Aarts E.: Adaptive persuasive systems: a study of tailored persuasive text messages to reduce snacking. ACM Transactions on Interactive Intelligent Systems (TiiS), 2(2),10 (2012). 10. Hirsh, J.B., Kang, S.K., Bodenhausen, G.V.: Personalized persuasion tailoring persuasive appeals to recipients personality traits. Psychological science, 23(6), 578-581 (2012). 11. Eldredge, L.K.B., Markham, C.M., Kok, G., Ruiter, R.A., Parcel, G.S.: Planning health pro- motion programs: an intervention mapping approach. John Wiley & Sons (2016). 12. Venkatesh, V., Bala, H.: Technology acceptance model 3 and a research agenda on inter- ventions. Decision sciences, 39(2), 273-315 (2008). 13. MAMEM Consortium: D5.1- report on persuasive design principles, user models and pro- files, May 2016. http://www.mamem.eu/wp-content/uploads/2016/05/D5.1_Persuasive- DesignPrinciples_final.pdf 14. MAMEM Consortium: D5.2 – Initial Design and Implementation of the Prototype Interface Applications, January 2017. http://mklab.iti.gr/mamem/images/e/e0/D5.2_prototype_inter- face_applications_final.pdf 15. Hawkins, R.P., Kreuter, M., Resnicow, K., Fishbein, M., Dijkstra, A.: Understanding tailor- ing in communicating about health. Health education research, 23(3), 454-466 (2008).