Twopit

Challenge n. 1

Video Url: https://fincantieri.twopit.com/video/TITAN.mp4
Presentation: https://fincantieri.twopit.com/presentation.key

TITAN Maritime C2 DSS

Maritime Security Hackathon 2026

TITAN Maritime C2 DSS is an integrated Command, Control and Decision Support System designed for maritime security operations, single-operator supervision, autonomous asset monitoring and real-time operational decision support.

The platform combines Mission Control, AI Decision Support, Digital Twin visualization, maritime monitoring, smart-glasses integration and proprietary telecommunications capabilities into a single operational environment.

The demonstrator has been prepared for the Maritime Security Hackathon 2026 and is intended to show how a single operator can supervise complex maritime scenarios through a unified interface, reducing cognitive workload and improving situational awareness.

1. Project Identification

Project Name: TITAN Maritime C2 DSSEvent: Maritime Security Hackathon 2026Operational Domain: Maritime Security, Command & Control, Autonomous Systems, Human-Machine TeamingPrimary Demonstration Dashboard: https://fincantieri.twopit.com/Local Demo: Available on-site during evaluationLocal Network SSID: Fincantieri MasterNetwork Access: Credentials are provided directly on-site to authorised evaluators only.

2. Executive Summary

Modern maritime security operations require operators to monitor multiple assets, interpret heterogeneous data streams, react to dynamic threats and coordinate decisions under time pressure.

TITAN Maritime C2 DSS addresses this challenge by providing a unified operational platform where mission planning, real-time telemetry, digital twin visualization, decision support and wearable display technologies are integrated into one coherent Command & Control environment.

The system is designed around the concept of Single Operator Operations, enabling one operator to supervise autonomous maritime assets, evaluate alerts, receive AI-assisted recommendations and maintain a common operational picture.

The platform is modular and can be extended toward real maritime assets, operational sensors, command infrastructures and partner systems.

3. Team

Team Name: Twopit

The team is composed of five members with complementary technical, design, operational and business expertise.

NameRoleContribution

The team combines capabilities in software engineering, telecommunications, real-time systems, artificial intelligence, visualization technologies, operational simulation, project management and maritime-oriented Command & Control interfaces.

4. Challenge Fit

TITAN Maritime C2 DSS is aligned with maritime security and autonomous operations scenarios requiring:

• Single-operator supervision
• Maritime domain awareness
• Autonomous asset coordination
• Real-time telemetry
• Decision support
• Threat monitoring
• Human-Machine Teaming
• Critical infrastructure protection
• Operational simulation
• Rapid mission assessment

The platform demonstrates how multiple operational layers can be integrated into a single environment to support faster, clearer and more reliable decision-making.

5. Operational Concept

The system simulates a maritime operational environment in which an operator can:

• Access a Command & Control dashboard
• Monitor maritime assets
• Visualize telemetry
• Supervise mission status
• Receive alerts
• Evaluate route and mission conditions
• Interact with decision-support modules
• View mission data through Vuzix smart glasses
• Use integrated maritime monitoring systems such as Sistema Dante and Poseidon

The objective is not to present three separate projects, but a single integrated operational platform composed of coordinated modules.

6. Main Modules

6.1 Mission Control

Mission Control is the primary operational interface.

Capabilities:

• Interactive operational dashboard
• Asset supervision
• Mission status monitoring
• Waypoint management
• Operational alert management
• No-Go Area representation
• ETA visualization
• Route monitoring
• Operator-oriented interface

6.2 AI Decision Support System

The AI Decision Support System assists the operator by analysing simulated mission conditions and producing operational recommendations.

Capabilities:

• Threat assessment
• Mission success estimation
• Route recommendation
• Risk classification
• Priority evaluation
• Decision-support messages
• Operational scenario interpretation

6.3 Digital Twin & Telemetry

The Digital Twin layer provides a visual representation of assets and mission state.

Capabilities:

• 3D asset visualization
• Heading display
• Speed display
• Battery status
• Telemetry dashboard
• Sensor status representation
• Mission phase visualization

6.4 Wearable Mission View

The wearable layer supports mission data visualization through Vuzix smart glasses.

Capabilities:

• Operator field-of-view data
• Mission status display
• Alert visualization
• Reduced screen dependency
• Hands-free situational awareness

7. Integrated Systems

Sistema Dante

Sistema Dante is used as an operational communication and monitoring environment within the project scenario.

It supports the representation of mission communication, operator interaction and operational monitoring.

Poseidon

Poseidon is used as a maritime monitoring and situational awareness component.

It supports vessel detection, maritime area supervision and scenario monitoring.

Vuzix Smart Glasses

Vuzix smart glasses are used to provide an immersive operator interface where selected mission data, alerts and telemetry can be displayed directly to the operator.

Twopit Telecommunications Technology

Twopit is a proprietary telecommunications technology protected by patent rights and pre-existing intellectual property.

Within this demonstrator, Twopit is referenced as a strategic communication layer. Proprietary algorithms, implementation details and confidential methods are not included in the public evaluation repository.

8. Technologies Used

Frontend

• HTML5
• CSS3
• JavaScript
• jQuery
• Three.js

Backend

• PHP
• Python
• JSON
• WebSocket

Visualization

• Three.js
• Digital Twin visualization
• Real-time dashboards
• Smart-glasses interface

Communication and Data Exchange

• WebSocket
• JSON messaging
• Local network demonstration
• Twopit telecommunications layer

9. Demonstration Access

Online Command & Control Dashboard

https://fincantieri.twopit.com/

Local Demonstration

A local demo will run on-site during evaluation.

Local Intranet Network

SSID: Fincantieri MasterPassword: Provided on-site to authorised Jury members only.

Credentials are intentionally not included in this repository for security reasons.

10. Demonstration Scenario

The demonstration shows an integrated maritime Command & Control workflow:

1. The operator accesses the TITAN dashboard.
2. Maritime assets and operational areas are displayed.
3. Telemetry is visualized in real time.
4. Poseidon contributes maritime monitoring information.
5. Sistema Dante supports the operational scenario.
6. AI Decision Support generates recommendations.
7. Digital Twin visualization shows asset state.
8. Vuzix smart glasses provide an immersive mission view.
9. The operator receives alerts, mission status and recommended actions.

The demonstration is designed to be understandable in a short jury session and to show the operational value of the platform without requiring complex installation.

11. Technology Readiness Level

Declared TRL: TRL 7

Definition: System prototype demonstration in an operationally relevant environment.

The submitted demonstrator represents an integrated system prototype combining:

• Command & Control dashboard
• Mission monitoring
• Maritime situational awareness
• Digital Twin visualization
• AI-assisted decision support
• Smart-glasses integration
• Local network demonstration
• Real-time communication layers

The current TRL declaration refers to the demonstrator being shown in an operationally relevant simulation and evaluation environment during the hackathon.

Further work is required for full production deployment, including:

• Field validation with real maritime assets
• Extended cybersecurity validation
• Maritime operational testing
• Hardware hardening
• Integration with certified operational systems
• Long-duration reliability testing
• Procurement and certification assessment

12. Deployment Statement

The current deployment consists of:

• Web-based Command & Control dashboard
• Local offline demo environment
• Real-time telemetry simulation
• Digital Twin interface
• AI-assisted decision-support module
• Vuzix smart-glasses visualization
• Maritime monitoring scenario modules
• Local intranet access for evaluation

Deployment Model

The system can operate in two modes:

1. Online Mode

   • Access through the hosted Command & Control dashboard.
   • Suitable for demonstration, remote review and presentation.

2. Local Mode

   • Local intranet-based demonstration environment.
   • Suitable for on-site evaluation and offline presentation.

Current Integration Gaps

• Real maritime asset integration
• Direct operational sensor integration
• Full production cybersecurity hardening
• Certification for operational maritime deployment
• Extended field testing
• Long-duration stress testing

Blocking Dependencies

• Availability of real maritime assets for field tests
• Operational data access
• Hardware integration approvals
• Security and compliance validation
• Partner-side integration specifications

13. Bill of Materials

Software Components

ComponentPurposeNotes

Hardware Components

ComponentPurpose

System Components

SystemRole

14. AI Disclosure

Artificial Intelligence tools were used during development for:

• Code cleanup
• Debugging assistance
• Error identification
• Refactoring suggestions
• Documentation drafting
• Interface refinement support

AI was not used to replace the Team’s engineering responsibility, system ownership or final technical validation.

The Team remains fully responsible for all submitted materials, design choices, technical claims and final deliverables.

15. Background IP and Know-How Notice

This repository may reference pre-existing Background IP owned by the Team.

In particular, Twopit Telecommunications Technology constitutes proprietary know-how and patent-protected Background IP.

The following components are intentionally excluded from this repository:

• Proprietary telecommunications algorithms
• Confidential signal-processing methods
• Internal optimization logic
• Sensitive implementation details
• Private deployment scripts
• Credentials, passwords, API keys and infrastructure secrets
• Non-public technical know-how

Where necessary, protected components are represented through:

• Simulation layers
• Mock services
• Interface abstractions
• Demonstration modules
• Documented operational behaviour

This approach preserves the Team’s Background IP while allowing the Jury to evaluate the system architecture, operational workflow, integration logic and demonstrator functionality.

16. Originality Statement

The submitted demonstrator represents work prepared for the Maritime Security Hackathon 2026 and integrates both hackathon-developed Foreground IP and pre-existing Background IP.

Any pre-existing know-how used as part of the concept is declared as Background IP and remains owned by the respective rights holders.

The repository does not transfer ownership of proprietary technologies, algorithms or confidential methods.

17. Repository Purpose

This repository is provided for evaluation purposes during the Maritime Security Hackathon 2026.

It is intended to demonstrate:

• System architecture
• Operational workflow
• User experience
• Technical feasibility
• Human-Machine Teaming
• Maritime situational awareness
• Decision-support capability
• Integration potential

The repository is not intended to disclose confidential know-how, protected methods or production-ready proprietary source code.

18. How to Run the Demo

Online Demo

Open:

https://fincantieri.twopit.com/

Local Demo

The local demo is executed on-site by the Team.

No proprietary drivers, special hardware setup or confidential credentials are required from the Jury unless explicitly provided during the evaluation session.

19. Security Notes

The repository does not include:

• Passwords
• API keys
• Private tokens
• TURN credentials
• WebSocket secrets
• Infrastructure credentials
• Confidential datasets
• Protected implementation methods

Any required access credentials are provided only to authorised evaluators during the event.

20. Future Development Roadmap

Future development may include:

• Real asset integration
• Live maritime sensor feeds
• Operational Poseidon expansion
• Enhanced AI decision-support models
• Full Vuzix mission overlay
• Advanced cybersecurity hardening
• Multi-asset command orchestration
• Edge deployment
• Integration with maritime command infrastructures
• Field testing with operational partners

21. Contact

Project: TITAN Maritime C2 DSSCommand & Control Dashboard: https://fincantieri.twopit.com/Event: Maritime Security Hackathon 2026

All Rights Reserved.