Technology Stack

Our drones leverage a combination of cutting-edge hardware and software technologies to achieve their capabilities.

Hardware

  • Control Systems

    Arduino & Raspberry Pi Controllers

    Custom PCB designs for specialized functions

    ARM Cortex-M series microcontrollers

  • Sensors

    GPS Modules & IMU Sensors

    LIDAR for obstacle detection

    Camera arrays for computer vision

    Thermal imaging sensors

  • Propulsion

    Brushless Motors & ESCs

    Custom propeller designs for noise reduction

    High-efficiency battery systems

  • Communications

    Encrypted radio links

    Mesh networking capabilities

    Low-probability-of-intercept transmission

Software

  • Operating Systems

    ROS (Robot Operating System)

    Real-time Linux variants

    FreeRTOS for microcontrollers

  • Programming Languages

    Python for high-level control

    C++ for performance-critical components

    CUDA for GPU acceleration

  • Computer Vision

    OpenCV for image processing

    TensorFlow for object recognition

    Custom SLAM implementations

  • Simulation

    Unity for swarm simulation

    Gazebo for physics simulation

    Custom flight dynamics models

Design Tools

  • 3D Modeling

    Fusion 360 for primary design

    FreeCAD for open-source collaboration

    Blender for visualization

  • Simulation

    ANSYS for structural analysis

    OpenFOAM for fluid dynamics

    openEMS for electromagnetic simulation

  • PCB Design

    KiCad for circuit design

    Altium Designer for complex boards

    LTspice for circuit simulation

  • Manufacturing

    Cura for 3D printing slicing

    CAMWorks for CNC machining

    Custom toolpath generators

Stealth Technologies

Radar Cross-Section Reduction

Our drones employ several techniques to minimize their radar signature:

  • Geometric shaping to redirect radar waves away from the receiver
  • Radar-absorbing materials (RAM) applied to key surfaces
  • Edge treatment to reduce diffraction effects
  • Internal component arrangement to minimize reflections

Infrared Signature Management

Thermal emissions are managed through several innovative approaches:

  • Heat-dissipating materials to spread thermal energy
  • Active cooling for high-heat components
  • Exhaust channeling and cooling
  • Surface treatments to equalize temperature distribution

Acoustic Signature Reduction

Minimizing the sound produced by our drones is critical for stealth operations:

  • Custom propeller designs with noise-reducing features
  • Vibration dampening materials throughout the airframe
  • Optimized motor control algorithms for quieter operation
  • Acoustic baffling for internal components

Visual Signature Management

Reducing visual detectability through various techniques:

  • Adaptive camouflage materials for different environments
  • Low-reflectivity coatings to reduce glint
  • Minimal use of high-contrast markings
  • Biomimetic design elements to blend with natural shapes

Autonomous Systems

Navigation

Our drones can navigate without relying on GPS or external signals:

  • Visual-inertial odometry for position tracking
  • Terrain recognition and matching
  • Celestial navigation capabilities
  • Magnetic anomaly mapping

Mission Planning

Sophisticated algorithms enable independent mission execution:

  • Dynamic path planning around obstacles
  • Threat avoidance algorithms
  • Energy-optimal route calculation
  • Mission abort and return protocols

Swarm Intelligence

Multiple drones can coordinate their actions without central control:

  • Distributed decision-making algorithms
  • Formation flight capabilities
  • Task allocation optimization
  • Resilience to individual drone failures

Perception

Advanced sensing capabilities allow drones to understand their environment:

  • Object detection and classification
  • Semantic mapping of environments
  • Anomaly detection in sensor data
  • Multi-sensor fusion for robust perception