🧠 Detecting Covert Neurotechnology: How to Analyze Radar Backscatter Using a Rohde & Schwarz ZNB/ZVA VNA As Targeted Individuals (TIs), we face the real possibility that advanced brain-computer interface (BCI) systems — both invasive and non-invasive — are being deployed without consent. These systems may use backscatter, resonant nanomaterials, or bio-interactive RF components to extract
💥📡 The Only Real Use Case for a HackRF: So You Don’t Blow Up Your BB60C In the world of RF exploration, tools like the HackRF One often get praised for being “versatile” or “entry-level SDRs,” but let’s be brutally honest: they’re not precision instruments. If you’re lucky enough to own a Signal Hound BB60C,
🧠📡 Decoding the Unseen: Classifying Subliminal Messages with a Spectrum Analyzer Across All Frequencies Subliminal messages—those sneaky audio signals hidden beneath the surface—rely on clever modulation techniques to embed information into carrier waves. Whether you’re a curious tinkerer or a signal-processing enthusiast, understanding how to detect and classify these messages using a spectrum analyzer is
⚡ Dielectric Constant: How They Adjust Frequencies to Penetrate Materials “The right frequency with the right dielectric constant = covert access through walls, skin, and shielding.” If you’re trying to understand how targeting systems get through your walls, shielding, or even your body — the answer often lies in one scientific principle: the dielectric constant.
📡 Wave Propagation 101: How Signals Travel, Penetrate, and Target Everything we deal with — from Wi-Fi to mind-reading signals to directed energy — relies on wave propagation. Whether it’s a surveillance system bouncing signals off your walls, or a microwave weapon targeting deep tissue, it all starts with how electromagnetic (EM) waves move through
To achieve sub-Hertz resolution bandwidth (RBW) with the Signal Hound BB60C, you must: While the BB60C hardware doesn’t support 1 Hz RBW in real-time mode (minimum real-time RBW is ~27 kHz), native mode FFT capture enables fine-grained control of frequency resolution — including sub-Hz, depending on span and FFT length. Below is a Python example
📊 Spectrum Analyzer Comparison for Covert Threat Detection Analyzer Model Frequency Range Min RBW Noise Floor (typical) IQ Data Access SDK/API Availability TSCM Suitability R&S FSW85 2 Hz – 85 GHz 1 Hz –157 dBm/Hz (with preamp) Yes Yes (SCPI, IQWizard) Excellent R&S FSW110 (with FE110SR) 2 Hz – 110 GHz 1 Hz –157 dBm/Hz
🧪 First Look: Aaronia SPECTRAN V6 Series — A Potential Upgrade for TSCM Applications? The Aaronia SPECTRAN V6 series represents a significant advancement over the earlier V4 models, addressing many of the limitations previously identified. While untested in field operations, the V6’s specifications suggest it could be a viable tool for professionals engaged in TSCM
📡 FCC Database Lookup Script – Help Us Map the Airwaves Are you tired of blindly guessing who’s broadcasting on a frequency? Our new open-source script is built to upload and process FCC licensing data into a PostgreSQL database — allowing you to correlate start and stop frequencies from a CSV file with the actual
