Direct Footage: Pre-Alpha Technical Flight Tests
Experience the scale of the solar system with zero compromises in precision, powered by NASA-grade orbital mechanics.
Engage with spacecraft systems using a diegetic framework designed for native hand tracking, removing the barrier of traditional controllers.
Transition from orbit to planetary surfaces without loading screens, optimized for maximum fidelity on standalone VR hardware.
Utilizing UE5 Large World Coordinates and implemented double precision to eliminate floating-point jitter, ensuring frame-perfect stability during high-velocity interplanetary transit.
Real-time synchronization with NASA SPICE kernels for mathematically accurate positioning of solar system bodies based on scientific data.
A custom C++ framework engineered to use native hand-tracking inputs directly for virtual cockpit components, ensuring a tactile and physically responsive user experience.
Custom vertex manipulation system for real-time generation of planetary bodies, enabling seamless exploration without traditional level-loading constraints.
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