PurposeThe engagement–addiction dilemma has been commonly observed in the information technology (IT) industry. However, this issue has received limited research attention in the information system (IS) discipline. Drawing on the stimulus–organism–response (SOR) framework, this study explores the engagement–addiction dilemma in the use of mobile games and highlights the impacts of game design features, namely, mobile user interface and mobile game affordance.Design/methodology/approachThe research model was empirically validated using a longitudinal survey data from 410 mobile game users in China.FindingsThe empirical results offer several key findings. First, mobile user interface and mobile game affordance positively affect telepresence and social presence, which lead to meaningful engagement and mobile game addiction. Second, a high-quality of mobile user interface positively moderates the effects of mobile game affordance on telepresence and social presence.Originality/valueThis study contributes to the literature by theorizing and empirically testing the impacts of game design features on the engagement-addiction dilemma.
O uso de Padrões de Design da Interface do Usuário (User Interface Design Patterns) (UIDP) é visto como uma boa prática para o desenvolvimento de softwares interativos. No entanto, ao aplicar esses padrões, o designer da interface pode introduzir problemas de acessibilidade no software. O objetivo deste trabalho é apresentar o processo de avaliação de um conjunto de recomendações, para uso de UIDP no desenvolvimento de aplicações para dispositivos móveis que evitem a inserção de problemas de acessibilidade.
In view of various shortcomings of the traditional MVC model and PAC model in mobile applications, this paper presents a new type of mobile user interface model named MD to guide the mobile user interface design and prototyping. MD model reasonably distributes the tasks between front-end and back-end: input and output are closely coupled as front code put in the D to achieve macro-communication, application model can be considered as back code put in the M. This model effectively solves the power restricted and other problems of mobile devices. By applying this model to the prototype development of Android-based Interactive Graphics Toolkit—AIGT, we verifies the feasibility and effectiveness of the model.