Player behavioural modelling has grown from a means to improve the playing strength of computer programs that play classic games (e.g., chess), to a means for impacting the player experience and satisfaction in video games, as well as in cross-domain applications such as interactive storytelling. In this context, player behavioural modelling is concerned with two goals, namely (1) providing an interesting or effective game AI on the basis of player models and (2) creating a basis for game developers to personalise gameplay as a whole, and creating new user-driven game mechanics. In this article, we provide an overview of player behavioural modelling for video games by detailing four distinct approaches, namely (1) modelling player actions, (2) modelling player tactics, (3) modelling player strategies, and (4) player profiling. We conclude the article with an analysis on the applicability of the approaches for the domain of video games.
When we make games, we have many implicit understandings of what constitutes an interaction from a player and what constitutes their goal for playing; however, in trying to build a method of understanding a simple interaction (such as finding a key to open a gate) numerous limitations of our understanding were revealed. This talk presents Prof. Mata Haggis-Burridge’s and Thomas Buijtenweg’s development of a new model for understanding video games and interactive media: the Journey to Content. The approach looks at core structural elements of digital games and breaks them down into constituents that help us to understand the player, content, gates, and keys. This model presents an unusual and revealing insight into both the structure of existing games and the assumptions that are usually sublimated by creators. Unlike high-level analysis models, such as the MDA Framework and Bartle’s Taxonomy of Players, the Journey to Content model examines the moment-to-moment interactions of players within both the system of the game and their wider societal context. Early application of the concepts from the model have shown that it has practical use for designers, and that it has potential for stimulating new game concepts. The model also has implications for metrics analysis and study/development of interactive systems beyond games. The talk also contains information about four types of ‘immersion’ in video games: systems immersion, spatial immersion, social/empathic immersion, and narrative immersion. It is discussed how these four types can be impacted in a variety of positive and negative ways by an individual change to a game. These four types of immersion are then compared and combined with the Journey To Content model to reveal new research questions.
For over thirty years, there has been a discussion about the effectiveness of educational games in comparison to traditional learning materials. To help further this discussion, we aim to understand ‘how educational games work’ by formalising (and visualising) the educational and motivational aspects of such games. We present a model that focuses on the relationship between three different aspects: user properties, game mechanics, and learning objectives. In two example cases, we have demonstrated how the model can be used to analyse existing games and their game/instructional design, and suggest possible improvements in both motivational and educational aspects based on the model. As such, we introduce a novel approach to analysing educational games and, by inference, a novel design process for designing more effective educational games.
