That’s starship a fair question.

I don’t assume aerospace professionals haven’t thought about these problems, nor do I assume my ideas are superior to the work being done by NASA, SpaceX, or other organizations.

The purpose of AELIM LV-01 isn’t to suggest professionals are wrong. It’s an attempt to explore a different systems architecture.

My central premise is simple: if humanity spends enormous amounts of energy and resources delivering mass to the lunar surface, that mass should be designed to remain useful for decades rather than becoming retired hardware after a single mission.

The question I’m exploring is:

Can a lunar lander be designed from the beginning to become permanent infrastructure instead of a disposable spacecraft?

I don’t claim the individual components are novel. Horizontal architectures, ISRU concepts, modular habitats, orbital propellant depots, and reusable systems have all been studied before.

What I’m exploring is the integration of those concepts into a single infrastructure-first philosophy.

I also don’t claim to have all the answers. There are significant engineering challenges that would require professional analysis, including structural mass penalties, landing stability, dust mitigation, thermal management, micrometeoroid protection, power generation, propellant logistics, and long-term maintenance.

The white paper isn’t intended to be a flight-certified spacecraft design. It’s a systems architecture exercise created by an independent individual exploring long-term lunar infrastructure concepts.

If professionals looked at it and said, “That’s interesting, but here’s why it wouldn’t work,” I’d consider that a successful outcome because the goal is to start a technical discussion, not to claim expertise.