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A Model-Driven Framework to Support Games Development: An Application to Serious Games

Tang, SOT (2013) A Model-Driven Framework to Support Games Development: An Application to Serious Games. Doctoral thesis, Liverpool John Moores University.

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Model Driven Engineering (MDE) is a software development approach which focuses on the creation of models to represent a domain with the aim of automatically generating software artefact using a set of software tools. This approach enables practitioners to produce a variation of software in by reusing the concepts in the domain model without worrying about the technical intricacies of software development. Therefore, this approach can help to increases productivity and it makes software design easier for the practitioners. The application of this approach into games development domain presents an interesting proposition and could help to simplify production of computer games.Computer games are interactive entertainment software designed and developed to engage users to participate in goal-directed play. Many find computer gaming to be persuasive and engaging, and they believe that through the application of game design and game technology in non-entertainment domains can create a positive impact. Computer games designed primarily for non-entertainment purpose are generally known as serious games. The development of games software, in no relation to the intended purpose of it, is technically complex and it requires specialist skills and knowledge. This is the major barrier that hinders domain experts who intend to apply computer gaming into their respective domains. Much research is already underway to address this challenge, whereby many of which have chosen to use readily available commercial-off-the-shelf games while others have attempted to develop serious games in-house or collaboratively with industry expertise. However, these approaches present issues including appropriateness of the serious game content and its activities, reliability of serious games developed and the financial cost involved. The MDE approach promises new hopes to the domain experts, especially to those with little or no technical knowledge who intend produce their own computer games. Using this approach, the technical aspects of games development can be hidden from the domain experts through the automated generation of software artefact. This simplifies the production of computer games and could provide the necessary support to help non-technical domain experts to realise their vision on serious gaming.This thesis investigates the development of a model-driven approach and technologies to aid non-technical domain experts in computer games production. It presents a novel model-driven games development framework designed to aid non-technical domain experts in producing computer games. A prototype based on the model-driven games development framework has been implemented to demonstrate the applicability of this solution. The framework has been validated through the prototypical implementations and these have been evaluated. A case study has been conducted to present a use-case scenario and to examine if this approach can help non-technical domain experts in producing computer games and also to find out if it would lower the barrier towards adoption of game-based learning as an alternative teaching and learning approach.The work in this thesis contributes to the area of software engineering in games. The contributions made in this research includes (1) a blueprint for model-driven engineering for games development, (2) a reusable formalised approach to document computer game design and (3) a model of game software that is independent of implementation platform.

Item Type: Thesis (Doctoral)
Uncontrolled Keywords: Model-Driven Game Development, Serious Games Development, Game-based learning
Subjects: Q Science > QA Mathematics > QA76 Computer software
Divisions: Computer Science & Mathematics
Date Deposited: 04 Nov 2016 12:39
Last Modified: 03 Sep 2021 23:26
DOI or ID number: 10.24377/LJMU.t.00004493
Supervisors: Hanneghan, Martin and El Rhalibi, Abdennour
URI: https://researchonline.ljmu.ac.uk/id/eprint/4493
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