Future Projects.

Future Projects.

Pushing boundaries in orbital technology.

Pushing boundaries in orbital technology.

Upcoming Initiatives

Orbital Locker leads new frontiers in orbital logistics and infrastructure. Our mission is to modernize space operations with scalable, modular industrial platforms engineered for reliability, safety, and cost optimization in the high-demand space arena.

Our future-facing roadmap focuses on networked modular lockers across orbital zones and the creation of a first-ever automated lunar station for in-situ resource delivery. These programs will set new benchmarks for rapid mission preparation, streamlined resupply chains, and universal access for both crewed and robotic missions.

Each initiative is designed to reinforce mission resilience, reduce operational friction, and elevate performance across commercial, scientific, and government sectors, ensuring the next era of space enterprise is built on precision, security, and rapid scalability.

Space Debris Collection Initiative

Launching with industry partners, select orbital lockers will carry advanced debris capture systems. This capability is dedicated to removing defunct satellites and active fragments, reducing collision risk, and safeguarding critical orbital paths for present and future missions in low-Earth orbit.

ORDerv™ - The Space Jellyfish

An autonomous drone system designed for real-time orbital debris retrieval. The Space Jellyfish employs adaptive carbon-fiber tendrils with aerogel-magnetic interfaces to capture debris without generating new fragments. Its proprietary matching algorithms ensure contact is soft and precise, securing hazardous objects for direct delivery to orbital processing stations, enabling a continuous, sustainable clean-up protocol for the orbital environment.

OREcycle™ - The Orbital Recycling Module

All retrieved debris is repurposed via autonomous in-orbit recycling. The OREcycle module uses vacuum induction melting and centrifugal extraction to produce high-grade metal ingots from salvaged material. This supports the buildout of orbital infrastructure, drives costs down, and helps sustain a closed-loop industrial ecosystem in space.

Orbital Utility Facility - Orbital AI Data Centre

Purpose-built modular data centre for cislunar operations. 10-metre cubic design houses up to 8.2MW of AI compute, cooled by our heat sink - the OREcycle and powered by in-orbit reactors and solar arrays. Offers persistent, secure cloud compute, independent of Earth’s grid, with ultra-scalability for mission-critical AI workloads. Concept independently conceived before subsequent industry announcements.

ORAmd™ - The Orbital Resource Extraction Drone

Smart autonomous mining droid purpose-built for asteroid material extraction. Deployed in intelligent swarms, ORAmd™ units use adaptive extraction methods (drill, ablation, plasma micro-jet) combined with anchoring and advanced AI navigation systems. Harvests metal and water ice for industrial feedstock, enabling a stepwise transition to a space-based resource economy.

ORRV™ - Orbital Rapid Response Vehicle

Reusable, high-agility spaceplane for rapid orbital intervention. Hybrid propulsion, modular payload capabilities, and AI-driven guidance enable real-time asset servicing, debris interception, and emergency response across all orbital regimes. Secure communications and rapid deployment cycles protect the infrastructure that powers the orbital economy.

Contact

Where Architecture Meets Infinity

Where Architecture Meets Infinity