A method, device and equipment for dynamically editing military simulation deduction supporting running state rule reconstruction and a storage medium

By performing pre-deduction and hierarchical conflict assessment of new rules in the shadow space, atomically replacing behavioral rules, and weighted smoothing of state data flow during the transition period, the crash and state transition problems of military simulation simulation systems during rule replacement are solved, and reliable simulation data output is achieved.

CN122173120BActive Publication Date: 2026-07-14XIAMEN YUANTING INFORMATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
XIAMEN YUANTING INFORMATION TECH CO LTD
Filing Date
2026-05-11
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing military simulation systems are prone to crashing when running rules are replaced. The entity state vectors undergo a step jump at the moment of switching, causing the simulation data to lose its scientific credibility.

Method used

By pre-deducing and hierarchically evaluating new rules in the shadow space, atomically replacing the behavior rule calculation handle, and weighted smoothing and correcting the state data flow during the transition period, a unified closed-loop control over rule replacement is achieved.

Benefits of technology

This effectively prevents simulation system crashes, eliminates step jumps in entity state vectors, and ensures the reliability and real-time performance of simulation data.

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Abstract

The application provides a kind of dynamically editable military simulation deduction method, device, equipment and storage medium supporting running state rule reconstruction, by the state snapshot of affected entity set is transmitted to the shadow space isolated from main loop memory, to provide independent verification environment for new rules;In the shadow space, pre-deduce new rules based on the snapshot and perform hierarchical conflict assessment, complete isolated safety verification before loading, and quantify the difference between new and old rules with conflict residual;In the simulation step gap, the behavior rule calculation handle is replaced at atomic level in response to switching enable signal and the switching completion timestamp is recorded, the timing of the replacement action is controlled, and the state data stream is weighted and smoothed based on the conflict residual in the transition period from the switching completion timestamp, eliminating the state vector step jump, thereby integrating the above three links into a unified closed-loop control, solving the problem of step jump.
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