Induction into isolated meshes.


How do you penetrate isolated networks that are cut off from the outside world?

The solution is very simple: induction.

Artificial intelligence (AI) will make it possible to create models for capacitors and technical circuits.


Using these models, a computer can e.B. trigger voltage peaks on disem and influence a cable lying next to it. The USB logs are known.

The AI model only needs to trigger voltage spikes that can be interpreted as signals from a USB device on the receiver USB cable and on the target computer.

It should be noted that the range is extremely low.

But there are other factors, such as isolation.

A 5 volt USB transmitter can trigger only low voltage peaks. The situation is different for Powerline devices with 220V. These have a higher range.

A 10kV cable can be overloaded much more. Pulses with e.B. 100kV or even e.B. 1gV would be possible. Which significantly increases the range.

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The first laboratory tests were probably successful as researchers from Ben Gurion University were able to prove:

The first news about this is from approx. 15.12.2020:

Academics turn RAM into Wi-Fi cards to steal data from air-gapped systems | ZDNet

La RAM si trasforma in scheda WIFI, l'esperimento dei ricercatori irsraeliani (

Malware: Forscher machen aus RAM-Riegel einen WLAN-Sender - Hardwareluxx

RAM-Generated Wi-Fi Signals Allow Data Exfiltration From Air-Gapped Systems | SecurityWeek.Com

Elektro Eisenbahnschienen mit Stromleitung, Perfekt um per Induktion alle Smartphones zu infiltrieren.