PX4 MAVLink · Real Hardware Integration

Autonomous Drone
Swarm Simulator
NECM5-18

Professional-grade tactical training platform with live PX4 MAVLink integration, AI-driven swarm coordination, real-time radar detection, and full combat simulation — designed for defense companies, universities, and research institutions.

Request Access → See Interface
64
Max drone units
4 Mbps
Telemetry rate
10
System layers
4
Access tiers
127.0.0.1:8765 — NECM5-18 Simulator
NECM5-18 tactical interface showing drone on satellite map with radar sweep
Live MAVLink Connection Active
Core Capabilities

Everything for tactical drone training

A complete simulation environment from hardware telemetry to AI-driven swarm coordination and after-action reporting.

🛰️
Live PX4 MAVLink Integration

Real bidirectional telemetry via MAVLink v1/v2 over UDP, TCP, or serial. PX4 SITL and hardware-compatible with sub-10ms command latency.

📡
Radar Sweep Detection

360° rotating phased-array radar simulation with dynamic threat classification, signal strength mapping, and real-time contact acquisition on tactical overlay.

🤖
AI Swarm Control Engine

OpenAI Evolution Strategy training loop drives formation management, coordinated attack vectors, RTL sequencing, and adaptive defense postures.

🗺️
Satellite Map + Tactical Overlay

Live satellite, OSM, hybrid, dark, and topo map layers with mission HUD overlays: flight paths, engagement zones, no-fly zones, and weather rendering.

⚔️
Combat & Evasion Simulation

Adversarial unit AI with reactive evasion behavior, coordinated strike planning, EW jamming countermeasures, and full weapon loadout system.

📊
Replay & Telemetry Export

10,000-frame session recording with frame-accurate playback, heatmap generation, JSON telemetry export, and after-action report output.

🌦️
Weather & Digital Twin

Dynamic wind, precipitation, and visibility models affecting drone physics, radar performance, and sensor accuracy. Full GPS-denial simulation.

🎯
Mission Control

Operator-defined waypoints, no-fly zones with geofence enforcement, ROE configuration, multi-wave sequencing, and swarm attack planning.

🔒
Security & Access Control

AES session encryption, role-based access across 4 clearance tiers, rate limiting, injection protection, CORS enforcement, and path validation.

Interface Preview

Every screen, purpose-built

From secure login to satellite tactical maps — a complete operational environment engineered for real-world training workflows.

NECM5-18 secure login screen
AUTHENTICATION
Secure Role-Based Login

AES-encrypted session authentication with 4-tier role selection. Demo accounts available for evaluation. Server address displayed for multi-node deployments.

Drone management settings panel
DRONE MANAGEMENT
Fleet Configuration Panel

Add individual drones or instantly spawn swarms (+3, +5, +10). Configure model type, position (X/Y km), and altitude per unit. Full active-fleet management.

Weapons loadout management screen
WEAPONS SYSTEM
Weapon Loadout Manager

Full armament catalog: MAM-L, MAM-C, Cirit 70mm, KAMA GPS, SOM-J cruise missile, and Bora ballistic. Assign payloads per drone with range, power, and weight specs.

PX4 MAVLink live connection panel
LIVE HARDWARE
PX4 MAVLink Connection

Connect to real PX4 hardware or SITL via UDP (14550), TCP, Pixhawk USB, 3DR SiK, or Linux serial. Full flight mode control: ARM/DISARM, takeoff, RTL, loiter.

Simulation settings and system status
SIM SETTINGS
Backend & Simulation Config

Configure backend URL, map center coordinates, and simulation speed. Live system status: scenario, tick count, AI generation, drone/radar counts. Export telemetry or reset.

User guide showing 10-layer architecture
DOCUMENTATION
Integrated User Guide

Built-in guide covering Getting Started, Drone Control, Combat, Mission, Map, Keyboard shortcuts, and Connection. 10-layer architecture overview included.

Full satellite map view with tactical overlay over Middle East
SATELLITE MAP
Full Satellite Tactical Map — World Coverage

Real-world satellite imagery with tactical HUD overlays. Switch between satellite, Bing, hybrid, dark, OSM, and topo layers instantly. Zoom from world view to meter-level. Place radar stations, no-fly zones, and mission waypoints directly on the map. 300×300 km operation area with real geographic coordinates.

Swarm attack scenario with drones over Turkey map
SWARM OPERATIONS
Multi-Unit Multi-Unit Swarm Attack Scenario — Global Coverage

5-unit swarm (SWARM-01 through SWARM-05) executing coordinated attack scenario over real satellite terrain — deployable anywhere on the globe. Right-click map to place targets: radar station, air defense, command center, fuel depot, armored vehicle, or infantry position. Formation options: V-shape, circle, line, diamond, wing, column. Evasion AI active per unit.

Technical Specifications

Built for real deployment environments

Hardware-grade reliability engineered for defense, university, and research institution requirements.

Communication Protocol
MAVLink Versionv1 / v2 (auto-negotiate)
Transport LayerUDP · TCP · Serial
SITL PortUDP 14550
Telemetry Rate4 Mbps real-time
Command Latency< 10 ms
EncryptionAES session keys
Hardware Compatibility
Flight ControllerPX4 SITL & hardware
ArduPilotSupported via MAVLink
GPSu-blox M8N+ / RTK
RF Link3DR SiK · RFD900
USBPixhawk COM-x · Linux /dev/ttyUSB0
Software Stack
BackendPython 3.11+ asyncio
FrontendVanilla JS — zero dependencies
AI EngineOpenAI Evolution Strategy
Map LayerLeaflet.js + satellite/OSM/topo tiles
RealtimeSSE (Server-Sent Events)
Access ControlRole-based (4 tiers)
Swarm & Recording
Max Simultaneous Units64 drones
Formation PresetsV-shape · Circle · Line · Diamond · Wing · Column
Replay Resolution10,000 frames · 50 Hz
Export FormatsJSON · CSV · MAVLink binary
HeatmapDensity + path visualization
System Architecture

10-Layer architecture

A fully modular, event-driven design built for extensibility, reliability, and hardware-agnostic operation.

Layer 01
Core Engine

Real-time simulation, event-driven architecture, modular design with hot-reload scenario switching.

Layer 02
Swarm Engine

Swarm intelligence, collision avoidance, leader-follower topology, GPS-denied navigation fallback.

Layer 03
Mission Control

High-level mission planning, area scan, formation control, ROE configuration, and waypoint management.

Layer 04
Visualization

2D tactical + real-world map rendering — satellite, OSM, topo, dark — with live overlay drawing.

Layer 05
AI Decision

Threat analysis, route optimization via OpenAI-ES, anomaly detection, and tactical recommendations.

Layer 06
Digital Twin

Full physics simulation, weather modeling, EW effects, GPS denial, and environmental degradation.

Layer 07
Communication

SSE push, MAVLink, SBUS, UDP/TCP, mesh network visualization, and multi-client session management.

Layer 08
Security

Rate limiting, injection protection, CORS policy, path validation, AES encryption, and audit logging.

Layer 09
Drone Integration

PX4, ArduPilot, MAVLink, SBUS — hardware-agnostic platform supporting serial and network connections.

Layer 10
Telemetry

10,000-frame recording, replay engine, heatmap generation, JSON/CSV export, and after-action reporting.

Access Control

Role-based clearance tiers

Hierarchical permission architecture enforces operational security across all simulator functions.

Admin
System Administrator
  • Full system configuration
  • User provisioning & revocation
  • AES key management
  • Hardware diagnostics
  • Audit log & forensics
  • Raw telemetry export
Commander
Mission Commander
  • Mission creation & launch
  • Swarm formation commands
  • ROE configuration
  • No-fly zone enforcement
  • AI strategy selection
  • After-action reports
Operator
Drone Operator
  • Individual unit telemetry
  • Manual override controls
  • Waypoint modification
  • Combat log monitoring
  • Weather layer access
  • Limited replay access
Observer
Observer / Trainee
  • Read-only radar view
  • Swarm status monitoring
  • Training replay playback
  • Performance metrics
  • No command authority
  • Sanitized session export
Request a Demo

See NECM5-18 in action

Fill out the form below to request a live demo. We'll get back to you as soon as possible.

Contact

Get in touch

For questions, collaboration proposals, or access requests, use the channels below.

LinkedIn Profile
Furkan Miraç Yalçın
Send Email
mirfytech@gmail.com
Response Time
Within 24–48 hours
For demo requests and partnership inquiries
Direct Email
FAQ

Frequently Asked Questions

Everything you need to know about NECM5-18 drone swarm simulator

What is NECM5-18?

NECM5-18 is a professional autonomous drone swarm tactical training simulator with real PX4 MAVLink hardware integration, AI-driven swarm control, real-time radar detection, and full combat simulation — built for defense, universities, and research institutions.

Does it support real PX4 hardware?

Yes. NECM5-18 connects to both PX4 SITL and real Pixhawk hardware via MAVLink v1/v2 over UDP (port 14550), TCP, USB serial, and 3DR SiK radio links. Full ARM/DISARM, takeoff, RTL, and flight mode control included.

Who is it designed for?

Defense companies, military training units, universities, research institutions, and Counter-UAS development teams. Role-based access control provides 4 clearance tiers: Admin, Commander, Operator, and Observer.

How does the AI swarm control work?

The OpenAI Evolution Strategy (OpenAI-ES) algorithm optimizes swarm movement in real time. Formation management, attack vectors, evasion AI, and defense postures are all computed dynamically with a population of 128 agents per generation.

How many drones can be simulated?

Up to 64 simultaneous drone units. NECM5-18 includes 12 formation presets (V-shape, circle, line, diamond, wing, column) and records up to 10,000 frames for full session replay and after-action reporting.

What map layers are supported?

Real-world satellite, Bing satellite, hybrid, dark, OSM, and topographic map layers — all switchable live. Supports 300×300 km operation areas with real geographic coordinates, no-fly zones, and tactical overlays.

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