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Introducing: INTERCEPTIGON. Autonomous aerial and surface one way effectors to give operational users a decisive advantage in defense.
98,216 views • 1 year ago •via X (Twitter)
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The INTERCEPTIGON series of UAVs and USVs can operate independently or as a swarm. Low cost, attritable, and with kinetic payloads, they are concealed until required. They are designed to overwhelm attackers with precise mass.

Recent conflicts have shown that cost-effective, autonomous systems can deliver strategic effects disproportionate to their size and price. We must urgently equip our allies with such systems. INTERCEPTIGON is about readiness, resilience and sovereignty

The system is under development and testing. Final specifications, including payload configurations and swarm logic, are being refined in close alignment with end-user requirements.

Unveiling the Future of Prompt Engineering for Better AI Interactions #tech

στο 00:18 η μεγάλη έκπληξη.....😍

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Εξαιρετικά ευρηματική και πρωτοπόρα η υποβρύχια εκτόξευση usv . Μπράβο για άλλη μια φορά.....

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The chances of hacking or cloning friendly signals (IFF spoofing) in autonomous systems like INTERCEPTIGON are real and serious, especially as these systems scale and are used by more actors. Here's a breakdown of the risks and realities: 🔓 1. Hacking IFF Signals (Intercept & Decode) Risk: High, if encryption protocols are outdated or poorly implemented. Reality: Adversaries can intercept and try to reverse-engineer IFF transponder signals, especially if drones are captured or downed. Mitigation: Militaries use rotating encrypted codes, updated frequently (sometimes hourly), which makes it harder to spoof—but not impossible. 🧪 2. Cloning or Spoofing IFF Signals Risk: Moderate to High, depending on sophistication of the adversary. Reality: If an enemy knows the IFF signal format or obtains a transponder (from wreckage, for example), they can impersonate friendly forces. Known spoofing incidents: In Ukraine, Russian and Ukrainian drones have reused captured tech. In Middle East conflicts, militants have spoofed drones with commercial signals. 🧠 3. Software Vulnerabilities Risk: Critical. Many low-cost autonomous systems rely on off-the-shelf components or open-source code. Reality: Without hardened cybersecurity, drones can be hijacked, jammed, or fed false data (sensor spoofing). 🧩 4. Cloning Swarm Logic (Behavior Spoofing) Emerging threat: If the enemy understands the swarm’s logic or response rules, they can mimic friendly swarm behavior or disrupt coordination. Think: fooling the swarm into thinking the enemy is an ally by replicating its “digital body language.”

