MULTIFILE
Video game designers iteratively improve player experience by play testing game software and adjusting its design. Deciding how to improve gameplay is difficult and time-consuming because designers lack an effective means for exploring decision alternatives and modifying a game’s mechanics. We aim to improve designer productivity and game quality by providing tools that speed-up the game design process. In particular, we wish to learn how patterns en- coding common game design knowledge can help to improve design tools. Micro-Machinations (MM) is a language and software library that enables game designers to modify a game’s mechanics at run-time. We propose a pattern-based approach for leveraging high-level design knowledge and facilitating the game design process with a game design assistant. We present the Mechanics Pattern Language (MPL) for encoding common MM structures and design intent, and a Mechanics Design Assistant (MeDeA) for analyzing, explaining and understanding existing mechanics, and generating, filtering, exploring and applying design alternatives for modifying mechanics. We implement MPL and MeDeA using the meta-programming language Rascal, and evaluate them by modifying the mechanics of a prototype of Johnny Jetstream, a 2D shooter developed at IC3D Media.
The authors define the requirements and a conceptual model for comparative evaluation research of simulation games and serious games (SGs) in a learning context. A first operationalisation of the model was used to comparatively evaluate a suite of 14 SGs on varying topics played between 2004 and 2009 in 13 institutes of higher education in the Netherlands. The questions in this research were: what is the perceived learning effectiveness of the games and what factors explain it? How can we comparatively evaluate games for learning? Data were gathered through pre- and post-game questionnaires among 1000 students, leading to 500 useful datasets and 230 complete datasets for analysis (factor analysis, scaling, t-test and correlation analysis) to give an explorative, structural model. The findings are discussed and a number of propositions for further research are formulated. The conclusion of the analysis is that the students' motivation and attitudes towards game-based learning before the game, their actual enjoyment, their efforts during the game and the quality of the facilitator/teacher are most strongly correlated with their learning satisfaction. The degree to which the experiences during the game were translated back into the underlying theories significantly determines the students' learning satisfaction. The quality of the virtual game environment did not matter so much. The authors reflect upon the general methodology used and offer suggestions for further research and development.
The textile industry is responsible for over 8% of global greenhouse gas emissions and 20% of the world’s wastewater, surpassing the emissions from international flights and shipping combined. In the European Union, textile purchases in 2020 led to around 270 kg of CO₂ emissions per person, yet only 1% of used clothing is recycled into new garments. The municipality of Groningen manages an estimated 950 kilotons of textile waste but is only able to collect, sort, and recycle 250 kilotons. To address these challenges, Textile Hub Groningen (THG) seeks to support small and medium-sized enterprises (SMEs) and stakeholders in creating circular textile value chains. However, designing circular value chains presents challenges, including conflicting interests, knowledge gaps on circular design principles, and inadequate tools for collaborative business model development. Potential stakeholders often find current tools too abstract and not conducive to collaboration, learning, or experimentation. As a result, circular value chains remain difficult to achieve from the perspective of individual stakeholders. Serious games have been employed to simulate and experiment with complex adaptive systems , . Research shows that well-designed playful learning enhances both learning and motivation, particularly when social elements are integrated . This project aims to answer the following research question: How can serious games be leveraged to design circular textile value chains in the region? The expected outcomes are: 1. Serious Game: Design, test, and deliver a serious game to facilitate the joint design of circular textile value chains. 2. Publications: Extract insights from the game’s design and evaluation, contributing to both academic and practical discussions. 3. Consortium for Follow-up: Mobilize partners and secure funding for future projects in related fields. Through game-based collaborative circular value chain and business model design experiences, this project overcomes barriers in designing viable circular value chains in the textile industry
GAMING HORIZONS is a multidisciplinary project that aims to expand the research and innovation agenda on serious gaming and gamification. The project is particularly interested in the use of games for learning and cultural development. Gamification - and gaming more broadly – are very important from a socio-economic point of view, but over the past few years they have been at the centre of critical and challenging debates, which highlighted issues such as gender and minority representation, and exploitative game mechanics. Our project’s key contention is that it is important for the European ICT community to engage with design trends and social themes that have affected profoundly the mainstream and ‘independent’ game development cultures over the past few years, especially because the boundaries between leisure and serious games are increasingly blurred. GAMING HORIZONS is a direct response to the official recognition by the H2020 programme of work that multidisciplinary research can help to advance the integration between Responsible Research and Innovation (RRI) and the Social Sciences and the Humanities (SSH). The project’s objective is to enable a higher uptake of socially responsible ICT-related research in relation to gaming. This objective will be achieved through a research-based exchange between communities of developers, policy makers, users and researchers. The methodology will involve innovative data collection activities and consultations with a range of stakeholders over a period of 14 months. We will interrogate the official ‘H2020 discourse’ on gamification – with a particular focus on ‘gamified learning’ - whilst engaging with experts, developers and critical commentators through interviews, events, workshops and systematic dialogue with an Advisory Board. Ultimately, GAMING HORIZONS will help identify future directions at the intersection of ethics, social research, and both the digital entertainment and serious games industries.EU FundingThe 14-month research project 'Gaming Horizons' was funded by the European Commission through the Horizon 2020 research and innovation programme.
De toepassing van nieuwe technologie biedt veelbelovende mogelijkheden tot productinnovatie voor opleidings- en trainingsbureaus. Om deze kansen te kunnen benutten dienen zij echter wel toegang hebben tot de benodigde kennis, expertise en faciliteiten. Kleine opleidings- en trainingsbureaus hebben daarom behoefte aan een samenwerkingsverband met kennisinstellingen, om kennis, expertise en faciliteiten te kunnen delen en nieuwe producten en diensten te kunnen ontwikkelen, testen en implementeren. Het doel van dit KIEM-project is om een dergelijk samenwerkingsverband op te zetten in de regio Noord-Nederland. Concreet is ons plan om rondom het Simulation & Game-Based Learning Lab (SiGa-Lab) van NHL Hogeschool een samenwerkingsverband van minimaal 30 kleine bureaus op te zetten. Met dit samenwerkingsverband willen we in 2017/2018: - twee-maandelijkse netwerkbijeenkomsten organiseren met presentaties, demonstraties en showcases van nieuwe technologische toepassingen; - van gedachten wisselen over nieuwe ideeën voor technologie-intensieve producten en diensten op het gebied van opleiding & training; - veelbelovende ideeën uitwerken tot (paper)prototypes; - een RAAK MKB-aanvraag voorbereiden (indien meerdere deelnemers willen investeren in het ontwikkelen van een nieuw product). Dit projectvoorstel is voorbereid door tien bedrijven en instellingen die nu al samenwerken rondom het SiGa-Lab van de NHL: - 8D Games - Friesland Boeit - LDC Business - Maarsingh & Van Steijn - Meridio Talent Sharing - NHL Hogeschool - Stark Learning - Syntax Error - TU Delft - Van Hemmen & Partners De totale kosten van het project bedragen €31.900,00. Het aangevraagde subsidiebedrag is €20.000,00. De co-financiering bedraagt €11.900,00.
