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Defense Management System (DMS)

The Defense Management System is built to unify existing battlefield management systems (BMS) with cutting-edge AI, robotics, and secure multi-channel communications.

DMS Command Center

About

In today’s fast-evolving defense landscape, effective coordination, secure communication, and rapid decision-making are essential for achieving strategic superiority. The Defense Management System (DMS) is next-generation solution that unifies existing modern systems into one integrated, global network. Built on a modular ROS2 architecture, the DMS combines advanced AI analytics, autonomous robotics (including legged robots, hexabots, and anti-drone jammers), and secure multi-channel communications. Our system is not just a concept—it is a future, operational platform designed to meet current military needs and anticipate future innovations.

Why DMS Is Essential

Every military man can say that information is power. This truth is valid from the centuries and will be valid in the future event more when hundreds of thousands of devices will work together. The Defense Management System is designed with the idea of sharing data across all platforms, units, and sensors to create a unified operational picture. This approach ensures that every piece of information is used to its full potential, enabling faster decision-making, better coordination, and ultimately, strategic superiority.

The idea is simple: If we know something let others know about it. This is the core of the DMS. Artificial intelligence supported robotics application will be the future of the military, people are too valid to lose them, let the robots do the dangerous work.

  • Data Fusion: Real-time integration of drones, radars, sensors.
  • Secure Communication: Encrypted channels ensuring reliable command flow.
  • Modular Architecture: ROS2-based, future-proof for emerging tech (e.g., legged robots, AI-driven medical triage).
  • Practical Robotics: Autonomous drones, hexabots, anti-drone jammers and more. All day and night, no need to rest.
  • AI Analytics: To handle the amount of data and to help make the right decisions.

In modern military operations, the ability to share real-time data, coordinate across diverse platforms, and rapidly adjust tactics is paramount. The Defense Management System has been engineered to do just that—integrating existing battlefield management systems (BMS) with state-of-the-art technologies to create an ecosystem where every sensor, unit, and data stream contributes to a unified operational picture.

The DMS offers:

  • Unmatched Situational Awareness: Real-time data fusion from drones, radars, vehicles, robots, other sensors, and communication networks.
  • Enhanced Coordination: Secure, automated command and control across land, air, sea and cosmos.
  • Seamless Integration: A flexible, modular framework that brings together legacy systems with future-ready capabilities from high-end hardware solutions to cutting-edge AI algorithms.
  • Scalability and Flexibility: Easily expandable from local operations to multinational alliances.

2. Ideas and Concepts

2.1. Real-Time Situational Awareness

  • Data Fusion: Integration of multiple data sources—drones, radars, communication systems, sensors, and combat units—to generate a comprehensive battlefield picture. Concept: If you have a data tell other elements that you have it so they can use it when needed.
  • Dynamic Tactical Maps: Real-time mapping with the ability to monitor both friendly and enemy movements.

2.2. Advanced Communication & Coordination

  • Encrypted Channels: Secure, encrypted communication links between ground forces, aerial units, and command centers.
  • Automated Command Flow: Real-time transmission of orders and status updates ensures that the right information reaches the right personnel at the right moment.

2.3. Multi-Element Integration

  • Unified Control: Manage cameras, drones, radars, communication systems, and logistics through one centralized platform.
  • Rapid Compatibility: Designed for seamless integration with existing military infrastructure and tools.

2.4. Resource Management

  • Real-Time Monitoring: Continuous oversight of equipment, ammunition, and logistical supplies.
  • Automated Planning: Dynamic generation of supply, resupply, and evacuation plans based on real-time needs.

2.5. Testing Environment & Simulation

  • Rapid Deployment of Test Environments: Quick implementation of test beds to validate system functionalities before full-scale deployment.
  • Operational Simulations: Realistic training scenarios in virtual (VR/AR) environments to fine-tune system configurations and readiness.

2.6. Data-Driven Decision Support

  • Predictive Analytics: AI-powered algorithms analyze battlefield data to forecast threats and recommend optimal courses of action.
  • Actionable Intelligence: Integration with recommendation systems that suggest tactical adjustments to minimize operational errors.

2.7. Flexibility & Scalability

  • Modular Architecture: Designed for gradual implementation and expansion—from localized operations to multinational deployments.
  • Future-Proof Integration: Beyond current capabilities, the DMS is ready to incorporate emerging technologies such as legged robots, hexabots, anti-drone jammers, and even neural interfaces when they become viable.

3. Functional Areas

3.1. Satellite Communication

The Ukrainian war has shown that satellite communication is a must-have. The DMS integrates satellite communication for global reach and redundancy, ensuring that critical data can be transmitted even in the most challenging environments. The costs are constantly decreasing, and the technology is improving. The DMS is designed to leverage satellite communication in two key phases:

  • Space Communication Phase 1:
    Integration with commercial networks to establish a reliable communication channel (starlink, european space agency).
  • Space Communication Phase 2: Deployment of a scalable satellite constellation to provide global coverage and redundancy without reliance on commercial networks.

3.2. Decentralization & Resilience

  • Autonomous Operation:
    Ensure that combat units can operate independently if communication with the central command is lost.
  • Mesh Networking:
    Data replication across multiple nodes guarantees continuity even if key nodes are destroyed.
  • Dynamic Command Transfer:
    Enable flexible delegation of command—from central to regional or local levels—to maintain control in crisis situations.

3.3. AI Data Filtering

  • Right Data, Right Time:
    Intelligent classification and filtering of information ensure that commanders and soldiers receive only the most critical data.
  • Adaptive Machine Learning:
    Algorithms continuously learn and adjust to the dynamic battlefield, prioritizing high-value targets and alerts (e.g., threats, critical resources).

3.4. Augmented Reality (AR) Interfaces

  • AR Headsets & Helmets:
    Personal AR devices display tactical maps, threat alerts (e.g., “friendly fire” warnings, minefield zones), and live sensor data directly in the soldier’s field of view.
  • Integrated Targeting:
    AR systems work in tandem with target tracking modules to accelerate threat identification and response.

3.5. Data Ecosystem & IoT Integration

  • Centralized & Distributed Data:
    A hybrid architecture that collects, processes, and disseminates data from the battlefield and logistical networks.
  • Multi-Dimensional Data Utilization:
    Different subsystems (intelligence, logistics, threat analysis, medical) access data as needed, with robust access controls ensuring security.
  • IoT and Low-Power Networks:
    Utilize low-range networks (LoRaWAN/NB-IoT) and energy-efficient sensors for long-term environmental monitoring and early anomaly detection.

3.6. Protection and Evacuation of the Injured

  • Wearable Health Monitors:
    Smart wearables track vital signs (heart rate, oxygen saturation, temperature) and relay health status in real time.
  • AI-Driven Medical Triage:
    Algorithms analyze patient data to prioritize evacuations and suggest optimal routes considering current threats and resource availability.
  • Integrated AR Medical Support:
    In emergencies, AR devices guide injured personnel through first aid procedures and communicate directly with MEDEVAC units.

3.7. Unmanned Protection and Reconnaissance

  • Drone Convoys with Active Defense:
    Autonomous drones equipped with active defense systems (similar to Trophy) protect convoys and critical assets.
  • Personal Reconnaissance Drones:
    Compact drones with LiDAR and advanced optical systems provide immediate reconnaissance, relaying real-time data to AR interfaces.
  • AI-Based Image Analysis:
    Automatic analysis of drone-captured imagery detects threats and identifies targets based on pattern recognition.

3.8. Next-Generation Resilient GPS

  • Anti-Jamming & Spoofing:
    Advanced GPS systems with anti-jamming and anti-spoofing capabilities ensure reliable positioning and navigation in contested environments.

3.9. Digital Twins & Training Environments

  • Digital Twin Simulation:
    Real-time digital replicas of the battlefield and operational assets for training, planning, and predictive analysis.
  • Immersive Training Environments: VR/AR simulations that replicate real-world scenarios for training and system stress testing.
  • Cost Reduction:
    Every algorithm, every plan can be tested in a digital twin before it is used in the real world. This saves money and time while increasing the effectiveness of the solution.

4. System Architecture in Detail

The DMS architecture is built on ROS2—a distributed, modular, and scalable framework that serves as the backbone of our solution. The architecture is layered to support robust, fault-tolerant communication and real-time data processing:

  • Core Communication Layer:
    Utilizes ROS2 nodes for inter-module messaging and control, ensuring high availability and failover capabilities.
  • Data Management Layer:
    Handles real-time data aggregation, fusion, and storage across distributed databases and cloud services.
  • Control and AI Layer:
    Implements predictive analytics, sensor data filtering, and autonomous decision-making algorithms.
  • User Interaction Layer:
    Provides interactive, AR/VR-enhanced interfaces that deliver actionable intelligence directly to users in the field.
  • Security and Infrastructure Layer:
    Oversees global deployment, cybersecurity (via DevSecOps), and continuous integration/continuous deployment (CI/CD) pipelines.

5. Team Organization & Beliefs

The greatest victory is that which requires no battle ~ Sun Tzu. We believe that the best defense is one that prevents conflict through superior preparation and readiness. Our team is organized around this principle, with a focus on operational squads and dedicated R&D units that ensure every aspect of the DMS is managed by experts who are passionate about innovation and committed to excellence.

5.1. Operational Squads

Each squad is a tight-knit group of approximately 5 professionals, specialized in their respective modules. The exact number of squads can adjust based on future requirements and issues identified when developing, but our modular approach remains constant.

Example Squad Breakdown:

Squad FocusDescription
Satellite CommunicationDesign and implementation of a single-satellite element and commercial interface
Satellite Constellation StrategyDevelopment of scalable satellite protocols
Internal CommunicationsRobust ROS2 messaging and failover management
Data Aggregation & DatabaseCentralized data fusion and storage
AI & Data FilteringPredictive analytics and sensor data processing
Autonomous Robotics & Drone ControlIntegration of unmanned systems and counter-drone solutions
Unit Performance MonitoringWearable sensor integration and biometric analysis
Visualization & User InterfaceAR/VR dashboards and tactical mapping
Infrastructure, DevOps & SecurityGlobal deployment, CI/CD, cybersecurity
QA & TestingIntegration testing and quality assurance
Legacy BMS IntegrationStandardizing and unifying legacy systems

5.2. R&D & Experimental Modules

We are committed to staying at the forefront of technological innovation. Our R&D efforts focus on:

  • Space-Based Directed Energy Systems (Space Lasers)
  • Anti-EMP Solutions & Next-Generation Resilient GPS
  • Emerging Technologies:
    Keeping a close watch on innovative robotics (legged robots, hexabots), anti-drone jammers, and potential future neural interfaces.

These initiatives are tracked on our radar so when delivered, they can be seamlessly integrated into the DMS.

6. Why we do it?

The Defense Management System (DMS) is a, innovative defense solution that unifies purpose defined battlefield management systems into a single, integrated global network of connected devices. With its modular, ROS 2-based architecture; advanced AI and data fusion; autonomous robotics; and secure, multi-channel communications, the DMS is built for today’s challenges and tomorrow’s opportunities. We invite investors, military leaders, and strategic partners to join us in transforming the future of defense management—delivering operational excellence and technological superiority on a global scale.

The problem of army is that it prepares for the war that was, not for the war that will be. The last conflict was the cold war and a lot of things have changed since then. We are here to help the military to be prepared for the future. Don't want to replace existing companies or systems, we want to help them to be better. The DMS is designed to be a modular system that can be integrated into existing systems and can be expanded with new technologies. Cooperation is the key to success, and we are here to help.