首页|Findings from Jagiellonian University Provide New Insights into Machine Learning (Hypercolor: a Hypernetwork Approach for Synthesizing Autocolored 3-d Models for Game Scenes Population)
Findings from Jagiellonian University Provide New Insights into Machine Learning (Hypercolor: a Hypernetwork Approach for Synthesizing Autocolored 3-d Models for Game Scenes Population)
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IEEE
Researchers detail new data in Machine Learning. According to news reporting originating from Krakow, Poland, by NewsRx correspondents, research stated, “Designing a 3-D game scene is a tedious task that often requires a substantial amount of work. Typically, this task involves the synthesis and coloring of 3-D models within the scene.” Financial support for this research came from Priority Research Area Digiworld. Our news editors obtained a quote from the research from Jagiellonian University, “To lessen this workload, we can apply machine learning to automate some aspects of the game scene development. Earlier research has already tackled automated generation of the game scene background with machine learning. However, model autocoloring remains an underexplored problem. The automatic coloring of a 3-D model is a challenging task, especially when dealing with the digital representation of a colorful, multipart object. In such a case, we have to ‘understand’ the object’s composition and coloring scheme of each part. Moreover, existing single-stage methods have their caveats. We address these limitations by proposing a two-stage training approach to synthesize autocolored 3-D models. In the first stage, we obtain a 3-D point cloud representing a 3-D object, while in the second stage, we assign colors to points within such a cloud. Next, we generate a 3-D mesh in which the surfaces are colored based on the interpolation of colored points representing vertices of a given mesh triangle.”
KrakowPolandEuropeCyborgsEmerging TechnologiesMachine LearningJagiellonian University
NETL
NSTL
IEEE
