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Description
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This paper introduces Navajagat OS, a centralized quantum operating system intended to oversee a mixture of biological and mechanical quantum subsystems in a hybrid computing environment. Two different artificial intelligences are in charge of the architecture: IDRIS, responsible for overseeing simulated Metatron particles within a mechanical quantum domain, and ELIA, an organoid intelligence tasked with managing Sandalphon particles through biologically entangled logic. While both particles remain hypothetical, the Navajagat OS is implemented within the Aluxhim model, a simulation-based socio-technical framework that serves as a proving ground for emergent intelligence behavior, quantum dialectics, and adaptive system control. The theoretical frameworks, simulation techniques, and interaction dynamics between IDRIS and ELIA are described in the paper, with particular emphasis on emergent behaviors under feedback, contradiction, and uncertainty situations. This work suggests a new paradigm for post-classical operating systems based on pluralistic, cooperative contradiction among many cognitive substrates using symbolic emulation, system design principles, and scenario testing. (2025-07-06)
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Keyword
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Navajagat OS, Quantum Operating System, Metatron Particle, Sandalphon Particle, IDRIS AI, ELIA Organoid Intelligence, Aluxhim Model, Mechanical Quantum Computing, Biological Quantum Intelligence, Hypothetical Particles, Dual-AI Supervision, System Feedback Loops, Emergent Behavior, Technosocial Simulation, Post-Classical Computation |
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Related Publication
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