0 Arboleda Intelligence

Introduction

Arboleda Intelligence is developing a next-generation Unmanned Combat Aerial Vehicle (UCAV) designed for air superiority and national sovereignty missions. The platform features VTOL (Vertical Take-Off and Landing) capability, stealth design, and dual vectorized turbine propulsion, reaching speeds of 500 km/h with a range of 200 km.

At its core, the On-Board Computer (OBC) is powered by NVIDIA AI technology, enabling high-performance computation for real-time environment mapping and decision-making. The OBC processes inputs from 12 cameras and a LiDAR sensor, generating a detailed 3D situational model at high refresh rates for autonomous flight and target tracking.

03 Sovereign Aerospace

This mobile application provides a unified solution for maintenance and operations (M&O) by combining blockchain-secured record management with on-demand 3D part generation. It enables teams to streamline field operations, ensure data integrity, and adapt hardware rapidly to mission requirements.

Every maintenance activity—whether equipment inspection, fault diagnosis, or part replacement—is securely logged on a blockchain ledger. This guarantees immutability, traceability, and shared trust among all participants, eliminating manual paperwork and mitigating risks of data tampering. The app applies Byzantine Fault Tolerant consensus mechanisms (such as PBFT or Proof-of-Authority) to achieve agreement among distributed nodes, ensuring that even in the presence of faulty or compromised actors, all participants share a consistent and verified operational history.This consensus effectively resolves the Byzantine Generals Problem, providing a cryptographically secured single source of truth for all maintenance and operational decisions.

Beyond digital recordkeeping, the app introduces a parametric design and manufacturing feature. Operators can input configuration parameters—such as dimensions, environmental constraints, or payload specifications—directly through the mobile interface. The system automatically generates an STL file from these parameters, ready for 3D printing. This enables technicians to:

• Rapidly produce replacement parts on-site,

• Modify designs to fit specific operational environments,

• Create new subassemblies or payload attachments tailored to mission objectives.

Each generated STL and its associated production record are stored and validated on the blockchain, linking every physical component to its digital twin and ensuring full traceability from design to deployment.

By merging blockchain consensus, digital manufacturing, and mobile accessibility, this solution empowers organizations to achieve:

• Trusted, tamper-proof maintenance logs

• Autonomous, verified decision-making

• Adaptive hardware generation for operational continuity

• End-to-end accountability from design through deployment

This represents a leap toward resilient, decentralized, and adaptive operations, where maintenance, manufacturing, and mission assurance converge in a single secure ecosystem.

Core Team

• NIL Mandri: AI/ML Engineer  & Full stack SW developer. CTO Wipass company

• Jonatan Domenech: Cybersecurity Expert 

• Juan Entrena: System Admin and Blockchain Expert