Train the avatar to understand similar movements to humans. Examine how digital creatures learn to move and how they learn to respond physically.
About
Overview Art and artificial intelligence come together in an interactive installation. Innovative art created by Deakin Motion. Lab – Centre for Creative Arts Research (DML-CCAR) premiered in May at Melbourne Knowledge Week and Geelong After Dark, putting on show Deakin researchers’ virtual reality interactive-movement mapping work. “Duet,” a conceptual art installation that advances research in artificial intelligence and participatory performance, was developed by DML-CCAR’s Dr. John McCormick, PhD candidate Stephanie Andrews and DML-CCAR researcher Dr. Jordan Beth Vincent and allowed participants to don a VR headset and physically interact with an artificially intelligent entity. Applications With the headset on, participants could see themselves moving in the visual environment before their movements transferred to the body of the AI entity. First, you see what it is like to be an avatar yourself, then the entity comes in and there is a transfer of movement to symbolize the flow of information from the participant to the digital agent. Both the human participant and the AI avatar become performers, spontaneously improvising with each other and exploring wordless communication. Mechanism As conceptual art, “Duet” incorporates VR, full body motion capture and the AI entity to “explore concepts of embodied knowledge, shared movement poetics and distortions of personal identity. As technology, it adds to knowledge about machine learning, neural networks and how virtual reality might expand the possibilities of human-computer interaction. “Duet’ was an installation looking at how we interact with digital systems. Systems are usually more calculated and pragmatic – there are buttons to push, there’s a cause and effect. Future The AI entity is able to accumulate movement knowledge in a way that mimics human learning. Benenfits This technology can train the avatar to understand similar movements to humans. Examine how digital creatures learn to move and how they learn to respond physically to the environment without having to be preprogramed. The technology has the potential to be used in training robots to move more like humans and also in other areas such as computer generated movie characters.