⚠️ DEFENSE EDITION - EXPORT CONTROLLED ⚠️

DsecOS Enterprise

Autonomous Drone Swarm Control & Defense System
COMMAND. COORDINATE. COUNTER. INSTANTLY.
Edge AI Mission-Critical Air-Gapped NATO Compliant
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Mission Overview

The world's most secure autonomous drone swarm control platform for defense, border security, and critical infrastructure protection. Runs real-time computer vision, swarm coordination, and electronic warfare countermeasures across 100+ drones simultaneously in an air-gapped, zero-trust environment.

Concurrent Drones
500+

Sub-50ms latency

Mission Success
99.99%

GPS-denied environments

Force Multiplier
1:500

Operator to asset ratio

Deployment Time
<30 min

Full edge cluster

Operational Capabilities

  • Real-Time Computer Vision: YOLOv9 threat detection with 99.1% accuracy
  • Autonomous Threat Neutralization: Jamming, intercept, forced landing
  • Full Forensic Chain: Rules of Engagement compliance tracking
  • Network Resilience: Survives total denial via on-board mesh + fallback AI
⚠️ Zero Data Exfiltration: Even if drone is captured, data self-destructs. NATO STANAG 4586 + MIL-STD-810H compliant.
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Technical Foundation

38ms
Control Latency
99.1%
Detection Accuracy
8.4s
Neutralization Time
1,200+
Max Swarm Size
Component Role Security Features
PX4 / ArduPilot Flight control stack Signed firmware, secure boot
YOLOv9 + DeepSORT Real-time threat detection Encrypted weights, GPU memory isolation
ROS 2 Humble Swarm coordination DDS-Security (TLS + GMAC)
MAVLink 2 Telemetry & commands Encrypted + signed packets
AI Commander Autonomous decision engine FIPS 140-3 validated crypto

Platform Hardening

  • Edge Kernel: Hardened 6.5 with real-time PREEMPT_RT patch
  • GPU/TPU Isolation: PCI passthrough + NVIDIA JetPack in drone_t SELinux domain
  • Mesh Networking: BATMAN-adv + zero-trust encrypted tunnels
  • AI Brain: On-board YOLOv9 + reinforcement learning for swarm behavior
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Deployment Architecture

4-Node Ruggedized Cluster (Deployable in 20ft Container)

graph TD subgraph "DsecOS Enterprise Edge Cluster (4 Rugged Nodes)" N1[DsecOS Node 1
Command Center + Ceph MON] N2[DsecOS Node 2
AI Vision GPU + TPU] N3[DsecOS Node 3
Swarm Orchestrator] N4[DsecOS Node 4
Ceph OSD + WORM
Air-Gapped Backup] end subgraph "Swarm Control Stack" PX4["PX4 Autopilot
(500+ Drones)"] ROS["ROS 2 Humble
(DDS-Security)"] YOLO["YOLOv9 + DeepSORT
(Threat Detection)"] AI["AI Commander
(RL Swarm Logic)"] end subgraph "Countermeasures" JAM["Software-Defined Radio
(Jamming / Spoofing)"] MESH["BATMAN-adv Mesh
(Self-Healing)"] end N1 <-->|Corosync HA
Encrypted| N2 N2 <--> N3 N3 <--> N4 N1 --> CEPH[Ceph Air-Gapped Pool
WORM Forensics] PX4 --> N1 ROS --> N3 YOLO --> N2 AI --> N2 JAM --> N2 MESH --> N3 style N1 fill:#121212,stroke:#FF4500,color:#FFF style YOLO fill:#1E1E1E,stroke:#FF4500,color:#FFF style AI fill:#8B0000,color:#FFF
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Autonomous Defense Mission Flow

journey title Drone Swarm Defense Mission Flow section Launch Activate Defense License: 5: Commander Power On Edge Cluster: 5: Operator Connect 500 Drones: 4: Auto-Pairing section Patrol Deploy Swarm Grid: 5: One-Click Real-Time Video Feed: 5: YOLO Overlay AI Detects Intruder: 5: 42ms Alert section Neutralize Execute ROE Playbook: 5: AI Commander Jam GPS + RF: 4: SDR Node Intercept + Force Land: 4: Swarm Maneuver Capture HD Video: 5: WORM Storage section After Action Generate AAR Report: 5: Auto-PDF Cryptographic Sign Evidence: 5: Legal Hold Re-Arm in 3 Minutes: 5: Full Cycle

Rules of Engagement Compliance

Every action is logged with cryptographic timestamps and stored in WORM (Write-Once-Read-Many) storage for legal compliance. The AI Commander executes pre-approved ROE playbooks, ensuring all autonomous decisions are traceable and auditable.

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Deployment Requirements

⚠️ Export Controlled: Requires DsecOS Enterprise Defense Edition license (ITAR/EAR controlled)

Hardware Specifications

Nodes Required
4x

MIL-spec ruggedized servers

Memory
128 GB

RAM per node

GPU
4x

NVIDIA Jetson Orin per node

Storage
8 TB

NVMe per node

Network Configuration

Step 1: Provision Edge Cluster

/scripts/pxe-deploy.sh --cluster drone-defense --nodes 4 --rugged --airgap-mode

⚡ Nodes auto-configure with Ceph + Corosync HA

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Deploy Swarm Stack

Create /templates/stacks/drone-swarm.yml:

version: '3.8'
services:
  px4:
    image: px4io/px4:latest
    privileged: true
    devices:
      - /dev/ttyACM0
    command: px4 -d /dev/ttyACM0

  ros2:
    image: ros:humble-ros-base
    environment:
      - ROS_SECURITY_ENABLE=true
      - ROS_SECURITY_ROOT=/security
    volumes:
      - ceph-swarm:/security

  yolo:
    image: ultralytics/ultralytics:latest
    deploy:
      resources:
        reservations:
          devices:
            - driver: nvidia
              capabilities: [gpu]
    command: yolo detect stream --source rtsp://drones/

  ai-commander:
    image: python:3.12-slim
    volumes:
      - ceph-ai:/models
    command: python /app/commander.py --mode autonomous

  sdr:
    image: sdr:defense-latest
    privileged: true
    devices:
      - /dev/sdr0

volumes:
  ceph-swarm:
    driver: cephfs
  ceph-ai:
    driver: cephfs

Deploy Command

dsecos deploy drone-swarm
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Launch & Test Mission

Launch Patrol Grid

curl -X POST https://node1:9443/api/swarm/launch \
  -H "Authorization: Bearer $JWT" \
  -d '{
    "pattern": "grid",
    "altitude": 120,
    "count": 500
  }'

Threat Simulation Sequence

  1. Detection: AI identifies intruder drone via YOLO in 42ms
  2. Analysis: AI Commander evaluates threat level and selects ROE playbook
  3. Neutralization: Execute jamming + intercept maneuver (8.4s average)
  4. Evidence: HD video captured and stored in WORM with cryptographic signature
  5. Re-arm: Swarm returns to patrol grid in <3 minutes
42ms
Threat Detection
8.4s
Neutralization
<3min
Re-arm Time
9

Security & Compliance

Kill Chain Prevention
100%

Data self-destructs if captured

Evidence Integrity
WORM

Cryptographic timestamping

NATO Compliance
STANAG

4586 certified

Ruggedization
MIL-STD

810H certified

Compliance Framework

  • NATO AQAP-2110: Quality assurance for mission-critical systems
  • MIL-STD-810H: Environmental testing (shock, vibration, temperature)
  • STANAG 4586: Standard interfaces for unmanned control systems
  • ITAR-Ready: Export control compliance for defense technology
  • FIPS 140-3: Cryptographic module validation
Security Feature Implementation Benefit
Data Self-Destruct Hardware-level secure erase on capture Zero data exfiltration
WORM Storage Immutable forensic evidence chain Legal admissibility
Air-Gap Mode Physical network isolation No external attack surface
Encrypted Mesh BATMAN-adv + zero-trust tunnels Survives network denial
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Return on Investment

National Border Force Example

Category Current Costs With DsecOS Swarm Savings
Annual Operating Costs $180,000,000 $42,000,000 $138,000,000
Personnel at Risk High exposure 95% reduction Lives saved
Coverage Area Limited 500x force multiplier Massive expansion
Response Time Minutes to hours 8.4 seconds 99% faster
Total Annual Savings
$138,000,000+
Plus 95% fewer personnel at risk

Additional Value Drivers

  • Scalability: Add 500 drones without linear cost increase
  • 24/7 Operations: No fatigue, continuous surveillance
  • Precision: 99.1% threat detection accuracy reduces false positives
  • Deterrence: Visible swarm presence prevents incidents
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Mission-Critical Use Cases

🛡️

Border Security

Autonomous patrol, intrusion detection, and rapid response across thousands of kilometers

🏭

Critical Infrastructure

Protect power plants, dams, and communications hubs from aerial threats

⚔️

Defense Operations

Force protection, perimeter defense, and counter-UAS operations

🚨

Emergency Response

Disaster assessment, search and rescue coordination, communications relay

Trusted By

  • Defense Contractors: Leading suppliers to military organizations
  • National Security Agencies: Classified counter-terrorism operations
  • Border Forces: Multi-national border protection programs
  • Critical Infrastructure Operators: Energy, water, and communications sectors
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Performance Benchmarks

Metric Value Industry Standard Advantage
Drone Control Latency 38 ms 120-200 ms 5x faster
Threat Detection Accuracy 99.1% 85-92% Higher precision
Neutralization Time 8.4 seconds 30-60 seconds 4-7x faster
Maximum Swarm Size 1,200+ 50-200 10x larger
Deployment Time <30 minutes 4-8 hours 10x faster
Mission Success Rate 99.99% 92-96% Higher reliability
⚡ Real-Time Performance: All benchmarks measured in GPS-denied, contested electromagnetic environments with active jamming.

When Lives Are on the Line

38ms
Latency
1,200+
Drones
99.99%
Success
$138M
Savings
"The Only Platform Trusted When Lives Are on the Line"
ZERO-TRUST AIR-GAPPED AUTONOMOUS NATO COMPLIANT
DsecOS Enterprise Defense Edition
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Next Steps

Getting Started

  1. Security Clearance Verification: Required for Defense Edition access
  2. Technical Assessment: Review your mission requirements with our defense team
  3. Pilot Deployment: 30-day evaluation in controlled environment
  4. Full Production: Scale to operational requirements

Documentation

Classified technical manuals and deployment guides

Training

On-site operator and maintainer certification

Support

24/7/365 mission-critical support with SLA

Updates

Continuous threat intelligence and AI model updates

⚠️ ITAR/EAR Notice: This presentation contains technical data subject to export controls. Distribution to foreign persons or entities requires prior authorization.
Command. Coordinate. Counter. Instantly.