Gonzalez Diaz, Carlos and Perry, Phoenix and Fiebrink, Rebecca (2019) Interactive Machine Learning for More Expressive Game Interactions. In: IEEE Conference on Games (GOG) 2019, 20-23 August 2019, London, UK.
Type of Research: | Conference, Symposium or Workshop Item |
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Creators: | Gonzalez Diaz, Carlos and Perry, Phoenix and Fiebrink, Rebecca |
Description: | Videogame systems incorporate varied sensors to increase the range of player interactions and improve player experience. However, implementing robust recognisers for player actions with sensors presents significant challenges to developers. Further, sensor-based controls offer little player customisation compared to traditional input interfaces (gamepads, keyboards and joysticks). Past research on motion-driven music systems has successfully used interactive machine learning (IML) techniques to facilitate the development and customisation of sensor-based interfaces, both by developers and end users. However, existing standalone software tools for IML are not ideal for use in game development and distribution. In order to support more effective and flexible use of sensors by game developers and players, we developed an integrated IML solution for Unity3D in the form of a visual node system supporting classification, regression and time series analysis of sensor data. |
Your affiliations with UAL: | Research Centres/Networks > Institute for Creative Computing |
Date: | 20 August 2019 |
Funders: | Google Artist + Machine Intelligence (AMI) Focused Research Award |
Related Websites: | https://interactml.com/ |
Event Location: | London, UK |
Date Deposited: | 28 May 2021 13:01 |
Last Modified: | 28 May 2021 13:01 |
Item ID: | 16908 |
URI: | https://ualresearchonline.arts.ac.uk/id/eprint/16908 |
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