🛡️ Does Grounding Help or Hurt During RF Attacks? Scenario Grounding Helps You Grounding Helps Attacker Capacitive coupling (electric fields) ✅ Yes — reduces your body voltage by draining induced charge ❌ No benefit to attacker Magnetic field (inductive) coupling 🚫 No — grounding usually has little to no effect 🚫 No help for attacker
⚡ Flyback Driver as an RF Jammer? Let’s Get Real About Its Capabilities 🔧📡 The flyback driver—commonly found in high-voltage hobbyist circuits—is often hyped as a “cheap RF jammer” in targeted individual communities. But does it really operate in the GHz spectrum? And more importantly, can it jam or interfere with advanced systems like 1.33
Tooth Inspection of 1.33 GHz Comb: Signal Analysis and Interpretation Tools Used: Signal Hound BB60C, FFT Spectrogram, IQ Analysis Software 🔍 Overview During spectral surveillance using a Signal Hound BB60C analyzer, a highly structured signal was observed within the 1.327 to 1.334 GHz band. This band is largely unoccupied by public commercial applications, making anomalies
🛠️ Proposing a New Technical Council for the Targeted Community: Real Solutions Guided by Experts and AI The time has come for a hard reset. The targeted individual (TI) community is suffering—not just from external threats, but from internal collapse due to false claims, fake technology, and weaponized misinformation. People are going to court with
Comprehensive Report on US Patent 6,239,705 B1 – “Intra-oral Electronic Tracking Device” Introduction and Patent Overview Patent Title: Intra-oral Electronic Tracking Device (US 6,239,705 B1)Inventor: Dr. Jeffrey D. Glen (Bala Cynwyd, PA, USA)patentimages.storage.googleapis.com – a dentist and inventor with multiple dental-related patentsdrjdglen.comdrjdglen.com.Filing Date: April 19, 2000patentimages.storage.googleapis.com.Issue Date: May 29, 2001patentimages.storage.googleapis.com.Assignee: Listed as Individual (the patent was held by the inventor, not assigned to a
🔭 The Human Radar: Long‑Range Tracking via Biomarkers, Implants, and Nanotech Advanced tracking technology is no longer limited to satellites and surveillance drones. Today’s frontier lies in more covert, biological, and implantable methods capable of identifying and locating a person at distance. Here’s a comprehensive breakdown: 1. Synthetic Biomarkers & Biology-Based IDs DARPA SNAP Program
Ai Designed these so its probably how they are tracking us. Creating a system for long-range human tracking with unique identification using biomarkers, radar, or other advanced technologies is a complex challenge that requires innovative integration of existing and emerging methods. Below, I propose several novel ideas for achieving this goal, combining detection (long-range) and
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
🛰️🔦 The Truth About Retroreflectors: From Cold War Bugs to Nanotech Implants 🧩 What is a Retroreflector? A retroreflector is a device that reflects energy — such as light, radio waves, or radar — back to the source with minimal scattering. Unlike a mirror that reflects at equal angles, retroreflectors send the signal directly back
🎯 Real-Time Signal Detection with BB60C and CSV Export for FCC Lookup 📡 In the world of RF surveillance, detecting low-SNR or ultra-wideband (UWB) signals is like finding a needle in a haystack—especially when those signals might only appear briefly or blend into the noise floor. That’s where this custom Python script comes in. This
