What if satellites could push shipping containers?
Tomorrow's Infrastructure,
Built Today.
THE RAILROAD OF THE SPACE AGE
H. Industries isn’t imagining the future, we’re building it.
Designed from the ground up with a laser focus on commercial freight shipping in orbit, we are creating the first ISO668 compliant interplanetary logistics network.
Right now, orbital entry is rapidly dropping in price but freight transport in space with liquid fuel rockets is inefficient and requires too much infrastructure to be sustainable for regular use over decades. Today we are early explorers navigating before roads or shipping lanes. We are changing that with an ISO668 compliant solution.
Our system will be the backbone of space freight, moving high-mass cargo between orbital hubs, the Moon, and Mars. It is our vision that by enabling efficient interorbital freight transport, we can invest in long term food and shelter solutions as well as robotised construction to help solve some of the problems here on Earth at the same time as we venture further than ever before.
White paper's available on request.
Timeline
Problem
Earth to orbit is already solved cost effectively, the next big steps in the space industry are in-orbit construction and transport between orbits. Rockets are the answer to getting off the ground but are they the answer for a reusable solution that lives in orbit on solar power?
If we have solved interorbital transport to connect tomorrows world’s, humanities reach could grow exponentially in the years to come.
Solution
A novel electromagnetic propulsion idea dedicated to moving freight between orbits could free up rockets' limited cargo capacity for people and emergencies.
The Founder's PhD research challenges the establishment of Electric Propulsion and orbital vehicular design. He cracked the EMF back force problem by using the distributed nature of a dense swarm of satellites as an inertial anchor, allowing large swarms to transport heavy freight such as mining machinery, raw materials and construction supplies.
H. Industries Satellite Swarm Emergent Architecture will first be deployed in GEO before establishing routine shipping corridors between Lunar, L1 and Martian orbit.
Opportunity
The time is now. The space industry has advanced in leaps and bounds across the past 20 years that are truly unbelievable. The cost of orbital entry is drastically lower, the private space race has outpaced governments around the globe. It has become so easy for universities, businesses and many others to enter orbit that we now have a junkyard problem.
H. Industries can be rapidly scaled up with a mass producible satellite design and deployed quickly in orbit. We are seeking interested investors from mid-2025 to help us build our first prototype. We plan to establish an MVP Lunar service within 3 years of funding which will bootstrap expansion of the service to L1 and Mars.
Technology
Distributed electromagnetic thrust is a novel propulsion method that combines small pushes from stacked layers of satellites fitted with scaled down particle accelerator magnets. Nb3Sn solenoids are ideal in the cold vacuum and can use the abundance of solar energy to generate the highest strength pulsewave. Tethered layers of satellites acting as singular inertial masses is the key that allows us to push large, heavy containers on slow interorbital journeys to other planetary orbits.
The Founders revolutionary space logistics system for commercial freight is based on his innovative research, design and patents for the SSEA (Satellite Swarm Emergent Architecture).The physics of solenoids, superconductivity and the SSEA system's orbital mechanics are fascinatingly detailed in an extensive series of blog articles, research papers and podcasts by the Founder. He is currently studying his PhD in Digital Twins & Quantum Secure Satellite Comms under Professors Carolyn McGregor AM & Paul Kennedy to deliver the cutting edge software that pairs to this novel construction of existing technologies.
Technology
Distributed electromagnetic thrust is a novel propulsion method that combines small pushes from stacked layers of satellites fitted with scaled down particle accelerator magnets. Nb3Sn solenoids are ideal in the cold vacuum and can use the abundance of solar energy to generate the highest strength pulsewave. Tethered layers of satellites acting as singular inertial masses is the key that allows us to push large, heavy containers on slow interorbital journeys to other planetary orbits. The Founders revolutionary space logistics system for commercial freight is based on his innovative research, design and patents for the SSEA (Satellite Swarm Emergent Architecture).
The physics of solenoids, superconductivity and the SSEA system's orbital mechanics are fascinatingly detailed in an extensive series of blog articles, research papers and podcasts by the Founder. He is currently studying his PhD in Digital Twins & Quantum Secure Satellite Comms under Professors Carolyn McGregor & Paul Kennedy to deliver the cutting edge software that pairs to this novel construction of existing technologies.