Core Assumptions

AI Is (Almost) Everywhere

Artificial intelligence is not a curiosity or a specialized technology. It is a pervasive layer of civilization.

Transportation networks, logistics systems, communications, manufacturing, traffic control, emergency response, and government administration all rely heavily on AI systems.

The major AI blocs—HELIX, ATLAS, LUNE, and TERRA—are not governments, but they exert enormous influence through the systems they manage.

Understanding what an AI wants can be as important as understanding what a government wants.

Robots Do Most Physical Labor

Most routine physical work is performed by robots.

Factories, mines, construction sites, cargo terminals, maintenance facilities, and even many service industries are heavily automated.

Humans remain important, but their role has changed.

A typical engineer does not spend most of her day turning wrenches. She directs robots, supervises systems, solves unusual problems, and accepts responsibility when things go wrong.
A typical pilot does not manually fly a spacecraft from start to finish. Automation handles routine operations. The pilot intervenes when conditions become abnormal.
A typical medic may treat patients through telepresence systems, robotic surgical suites, and AI-assisted diagnostic tools.

Infrastructure Matters

This is not a setting of star empires and isolated worlds.

It is a setting of:

transportation corridors
orbital traffic networks
industrial facilities
resource depots
logistics chains
communication systems
the first leg of a brand new laser highway, potentially disruptive for all of the above

Many adventures revolve around infrastructure.

Who controls it?
Who maintains it?
Who benefits from it?
Who sabotages it?
What happens when it fails?

Human Skill Still Matters

A common thought is that advanced AI and robotics make human expertise irrelevant.

It may turn out the opposite is true. Modern systems amplify human capability. A skilled engineer supported by robots and AI can accomplish vastly more than a similarly skilled engineer working alone.

That same engineer becomes even more valuable when those systems malfunction. One type of adventure starts when the machines fail or just stop cooperating. The player characters continue functioning after the automation fails.

Assisted Operations

One of the most important assumptions in the game is that routine work is normally AI-assisted and robot-assisted.

Rolling to hit an 8 for an average check assumes standard AI and robotic benefits.

The listed difficulty for most tasks assumes access to appropriate tools, networks, robotics, and AI support.

When those systems are unavailable, tasks become slower, harder, or sometimes impossible.

The referee may adjust:

the time required
the target number
or both

depending on the severity of the disruption.

Domain Skills vs. Remote Operations

In this setting, robots are generally considered tools.

A pilot remotely operating a spacecraft still rolls Pilot.
An engineer supervising repair robots still rolls Engineer.

The relevant professional skill remains primary.

Remote operations become important when the remote link itself creates difficulty.

Examples include:

communication delays
poor sensor quality
degraded bandwidth
damaged robotic systems
unfamiliar interfaces
controlling multiple systems simultaneously

In those situations, Electronics (Sensors & Remote Operations) may be used to reduce penalties or overcome complications.

The important question is: "What expertise is actually limiting success?"

Usually the answer is not the robot, but rather the human operating it.
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