π§ π‘ Experimental Setup Design: Capturing Skull Pulses & Knuckle Cracking Effects π§ A. Sensor Modalities to Use Sensor Type What It Captures Placement Piezoelectric film / contact mic Vibration / pressure pulse Knuckles, over ear, behind skull MEMS accelerometers Very fine skull movement (Β΅g) On skin near ear, cheekbone, knuckle Laser Doppler Vibrometer Surface motion
π§ π‘ Synthetic Telepathy & Signal Intelligence Toolkit A New Forensic Framework for Covert Signal Detection and Brainwave Correlation Are you being targeted by directed energy weapons, strange bursts of RF signals, or suspected synthetic telepathy attacks? Most technical surveillance countermeasure (TSCM) tools stop short β identifying “signals of interest” without proof or correlation. Thatβs why
π‘οΈ How to Build a Radar-Absorbing Coating to Shield Your Home from Surveillance and Attacks Radar powers military surveillance, synthetic aperture imaging, and even directed-energy weapons. This guide walks you through creating a radar-absorbing material (RAM) coating to make your home nearly invisible to radar-based threats across 1β40 GHz. Using real electromagnetic science, this coating
DIY Non-Linear Junction Detector (NLJD) for Nanotech Detection Introduction: Why Nanotech Detection? Non-Linear Junction Detectors (NLJDs) identify hidden electronics by transmitting a clean RF signal (e.g., 915 MHz) and detecting harmonic reflections at multiples (2f: 1830 MHz, 3f: 2745 MHz) caused by nonlinear junctions in semiconductors or corroded metals. For nanotech detection, we need to
Advanced Detection of Retroreflectors: Exposing the Invisible Echo Retroreflectors are passive devices that reflect incident energy (RF, microwave, ultrasound, or optical) back to its source, often modulated to carry data like audio, pressure, or biochemical signals. Their lack of active power sources makes them invisible to traditional bug sweepers, which rely on detecting emissions. Detection
π Build a Capacitive Contact Pad for Covert Signal Detection β οΈ Warning: Don’t Connect Raw Pads Directly to Your Analyzer β Never connect a raw contact pad (like an EEG electrode or copper plate) directly to the BB60C or any spectrum analyzer.β
These sensors can carry DC bias, high impedance, and even static discharge that
π Focused Ultrasound Jamming Collar: 40kHz vs 300kHz Deep Analysis for TI Countermeasures π Introduction The idea of using a Focused Ultrasound Jamming Collar to disrupt hypothetical subvocal implants has gained attention in the TI (Targeted Individual) community. This concept is rooted in both real military research and speculative technology. Recent research suggests that 300
π§ How to Build a V2K Resonant Frequency Detector with Vibration Sensors Capture the 1.33 GHz comb signal resonating on your body β and record the proof. βοΈ Overview This device isnβt a normal SDR or spectrum analyzer. It’s a resonance-coupled, field-based sensor that detects microwave signals resonating on or in your body β specifically
π‘οΈ How to Jam Subvocal Implants: 3 Realistic TI Countermeasure Methods π Introduction With official programs like the U.S. Armyβs 2019 “Neural Enhancement & Jamming Countermeasures” confirming the viability of neural disruption, it’s time to bring real DIY countermeasures into the hands of Targeted Individuals (TIs). π₯ Below are 3 powerful methods you can build
π How to Detect Micro Implants and Titanium Fibers in the Body: A TI Field Guide π― The Mission If you suspect you have a micro-implant or titanium fiber embedded in your jaw, throat, or elsewhere, this guide will show you exactly how to detect it β using tools you can either build yourself or
