Download PDFOpen PDF in browserMetaverse in InterPlanet Internet: a Time-Dependent Platform for the Robotic-mediated Implementation of Complex Applications in SpaceEasyChair Preprint 913811 pages•Date: October 26, 2022AbstractThe interplanet internet is a conceived computer network in space. These nodes are the planet’s orbiters (satellites) and landers (e.g. robots, autonomous machines, etc.) and the data can be routed through Earth’s internal internet. As resource depletion on Earth becomes real, the idea of extracting valuable elements from asteroids or using space-based resources to build space habitats becomes more attractive, one of the key technologies for harvesting resources is robotic space mining, etc.. The metaverse is essentially a simulated digital environment. The metaverse would be something very similar to real world planetary activities where users( space colonies or internet users on Earth) interact with overlaying objects represented by robots, drones, etc. In this paper, we use information about different time steps as represented by the observation matrix for the presence of the robots in a planetary environment. The observation matrix is a 3-dimensional matrix with time as a third dimension and it encodes the robots presence at different time steps . We then pass this matrix through a 3-dimensional convolution network for deriving additional system information mimicking the real world execution by robots. Here, we present time dependent encoding model and AI concepts to achieve very reliable tracking of the robots and the environment for creating a simulated realistic world for successful execution in a distant planet. The results of the study simulated on existing internet here on Earth show that the real individual behaviour on a distant planet can be achieved provided the interplanet internet is available as pathway communication.. Therefore, connected metaverse with time-dependent encoded layers could be of reality even in interplanet environment. Keyphrases: InterPlanet Internet, Metaverse, Reddy's Encoding Model, Time Step Model
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