This updated version introduces a validated framework for detecting and modeling planetary bodies using time-density perturbations, grounded in Chronos Theory. Unlike traditional detection methods reliant on light-based observation, this approach treats time as a structured, energetic field shaped by gravitational motion. Chronos Orbital Mapping enables researchers to locate hidden or non-luminous planetary bodies by identifying rhythmic distortions in the surrounding time field. New in v2.0 is an empirical demonstration using real observational data from the anomalous star KIC 8462852 (Tabby’s Star). By extracting oscillatory features from telescope analysis and translating them into Chronos-compatible time-density values, the method reconstructs stable planetary orbit candidates—including one predicted body not currently registered in exoplanet databases. This version includes: A full walkthrough for integrating telescope data into the Chronos system An open-access Code Ocean capsule for 3D orbital reconstruction A proof-of-concept planetary map derived from real-world star data The framework establishes time-density modeling as both a predictive and diagnostic tool, capable of discovering gravitational structures invisible to conventional photometric or radial velocity techniques. With this update, Chronos Theory transitions from theoretical architecture into an applied gravitational detection method.