5281/zenodo.19699847 CFT-MANUAL-XX — Adaptive Infrasonic Defense System for Infrastructure Protection and Threat Neutralization (Infrastich) This work is part of the Coherent Field Theory (CFT) framework developed by Sergey Dzhumaev. CFT is a unified mathematical and systems framework for modeling decision-making, coherence, and stability in distributed intelligent systems. It extends classical probabilistic approaches by introducing coherence fields, adaptive control, and multi-layer integration across physical, informational, and distributed system domains. Core documents: CFT Foundations: https://doi.org/10.5281/zenodo.19678512 Ariadne’s Thread: https://doi.org/10.5281/zenodo.19670642 NonsenseShield: https://doi.org/10.5281/zenodo.19679037 Document Series: CFT-MANUAL This publication contributes to the following layers of the framework:infrastructure protection / infrasonic defense / adaptive signal processing / swarm-enabled sensing / non-lethal neutralization This work presents an adaptive infrasonic defense system operating in the 1–100 Hz range for the protection of critical infrastructure against airborne, ground-based, and electromagnetic threats. The system integrates a hexagonal phased-array antenna with adaptive beamforming, real-time FFT signal processing, and machine learning–assisted classification to detect, map, and respond to infrasonic anomalies in complex environments. Core operational modes include: passive monitoring of infrasonic signatures (0.5–50 Hz) from drones, vehicles, and subsurface activity, active frequency sweeps (2–20 Hz) for real-time 3D mapping of threats with spatial resolution up to ±1 meter, targeted non-lethal neutralization via resonant frequencies (e.g., 88 Hz) for disruption of electronic systems such as UAV gyroscopes, energy saturation protocols using multi-frequency bursts for temporary disorientation of hostile devices. The system architecture further incorporates: GNSS and satellite synchronization (GPS/GLONASS/Inmarsat) for coordinated deployment and timing accuracy, EMI-hardened design for operation in radio-frequency–contested environments, energy-efficient operation (1–10 W) with optional harvesting modules, scalable configurations ranging from portable units to fixed installations and swarm-based UAV deployments. Compared to conventional radar and RF-based countermeasures, the system provides superior penetration through dense media (concrete, foliage, soil), low detectability, reduced energy consumption, and significantly lower cost, enabling widespread deployment for civil defense, disaster response, and infrastructure protection. This work extends and complements prior infrasonic system developments, forming part of a broader technological stack that includes environmental monitoring, geosurvey, communication systems, and plasma-enhanced propagation within the CFT ecosystem. All works are interconnected and form a single research system. Author:Sergey Dzhumaev (ORCID: https://orcid.org/0009-0004-1979-3730) #hashtags#CoherentFieldTheory #InfrasonicDefense #InfrastructureProtection #SwarmSystems #SignalProcessing #AdaptiveSystems #NonLethalTechnology #Geolocation #AIControl #DistributedSystems #ExtremeEnvironments
Sergey Dzhumaev (Wed,) studied this question.