Atomistic Simulation Techniques to Model Hydrogen Segregation and Hydrogen Embrittlement in Metallic Materials

Abstract

Interactive art has emerged as a distinctive genre in media art that relies on digital contents to express the artist's message. Situated within this field, this work presents an approach to multimedia storytelling that allows audience members to control separate but overlapping parts of the story chapters. We believe that the system engages its audience with a high level of immersion due to its combination of digital computation and tangibility; the tangible system supports a stronger connection to the storytelling than traditional screen-based systems, helping to bridge the gap between the physical world and cyberspace within the field of multimedia storytelling 1]. Consequently, it offers significant potential to share storytelling among a group based its immersive environment and support for embodied interaction paradigms