Sci-fi Spacesuits: Protecting the Wearer from the Perils of Space

Space is incredibly inhospitable to life. It is a near-perfect vacuum, lacking air, pressure, and warmth. It is full of radiation that can poison us, light that can blind and burn us, and a darkness that can disorient us. If any hazardous chemicals such as rocket fuel have gotten loose, they need to be kept safely away. There are few of the ordinary spatial clues and tools that humans use to orient and control their position. There are free-floating debris that range from to bullet-like micrometeorites to gas and rock planets that can pull us toward them to smash into their surface or burn in their atmospheres. There are astronomical bodies such as stars and black holes that can boil us or crush us into a singularity. And perhaps most terrifyingly, there is the very real possibility of drifting off into the expanse of space to asphyxiate, starve (though biology will be covered in another post), freeze, and/or go mad.

The survey shows that sci-fi has addressed most of these perils at one time or another.

Alien (1976): Kane’s visor is melted by a facehugger’s acid.

Interfaces

Despite the acknowledgment of all of these problems, the survey reveals only two interfaces related to spacesuit protection.

Battlestar Galactica (2004) handled radiation exposure with simple, chemical output device. As CAG Lee Adama explains in “The Passage,” the badge, worn on the outside of the flight suit, slowly turns black with radiation exposure. When the badge turns completely black, a pilot is removed from duty for radiation treatment.

This is something of a stretch because it has little to do with the spacesuit itself, and is strictly an output device. (Nothing that proper interaction requires human input and state changes.) The badge is not permanently attached to the suit, and used inside a spaceship while wearing a flight suit. The flight suit is meant to act as a very short term extravehicular mobility unit (EMU), but is not a spacesuit in the strict sense.

The other protection related interface is from 2001: A Space Odyssey. As Dr. Dave Bowman begins an extravehicular activity to inspect seemingly-faulty communications component AE-35, we see him touch one of the buttons on his left forearm panel. Moments later his visor changes from being transparent to being dark and protective.

We should expect to see few interfaces, but still…

As a quick and hopefully obvious critique, Bowman’s function shouldn’t have an interface. It should be automatic (not even agentive), since events can happen much faster than human response times. And, now that we’ve said that part out loud, maybe it’s true that protection features of a suit should all be automatic. Interfaces to pre-emptively switch them on or, for exceptional reasons, manually turn them off, should be the rarity.

But it would be cool to see more protective features appear in sci-fi spacesuits. An onboard AI detects an incoming micrometeorite storm. Does the HUD show much time is left? What are the wearer’s options? Can she work through scenarios of action? Can she merely speak which course of action she wants the suit to take? If a wearer is kicked free of the spaceship, the suit should have a homing feature. Think Doctor Strange’s Cloak of Levitation, but for astronauts.

As always, if you know of other examples not in the survey, please put them in the comments.

Colossus Computer Center

As Colossus: The Forbin Project opens, we are treated to an establishing montage of 1970’s circuit boards (with resistors), whirring doodads, punched tape, ticking Nixie tube numerals, beeping lights, and jerking control data tapes. Then a human hand breaks into frame, and twiddles a few buttons as an oscilloscope draws lines creepily like an ECG cardiac cycle. This hand belongs to Charles Forbin, who walks alone in this massive underground compound, making sure final preparations are in order. The matte paintings make this space seem vast, inviting comparisons to the Krell technopolis from Forbidden Planet.

Forbidden Planet (1956)
Colossus: The Forbin Project (1976)

Forbin pulls out a remote control and presses something on its surface to illuminate rows and rows of lights. He walks across a drawbridge over a moat. Once on the far side, he uses the remote control to close the massive door, withdraw the bridge and seal the compound.

The remote control is about the size of a smartphone, with a long antenna extending out the top. Etched type across the top reads “COLOSSUS COMPUTER SYSTEMS.” A row of buttons is labeled A–E. Large red capital letters warn DANGER RADIATION above a safety cover. The cover has an arrow pointing right. Another row of five buttons is labeled SLIDING WALLS and numbered 1–5. A final row of three buttons is labeled RAMPS and numbered 1–3.

Forbin flips open the safety cover. He presses the red button underneath, and a blood-red light floods the bottom of the moat and turns blue-white hot, while a theremin-y whistle tells you this is no place a person should go. Forbin flips the cover back into place and walks out the sealed compound to the reporters and colleagues who await him. 

I can’t help but ask one non-tech narrative question: Why is Forbin turning lights on when he is about to abandon the compound? It might be that the illumination is a side-effect of the power systems, but it looks like he’s turning on the lights just before leaving and locking the house. Does he want to fool people into thinking there’s someone home? Maybe it should be going from fully-lit to an eerie, red low-light kinda vibe.

The Remote Control

The layout is really messy. Some rows are crowded and others have way too much space. (Honestly, it looks like the director demanded there be moar buttins make tecc! and forced the prop designer to add the A–E.) The crowding makes it tough to immediately know what labels go with what controls. Are A–E the radiation bits, and the safety cover control sliding walls? Bounding boxes or white space or some alternate layout would make the connections clear.

You might be tempted to put all of the controls in strict chronological order, but the gamma shielding is the most dangerous thing, and having it in the center helps prevent accidental activation, so it belongs there. And otherwise, it is in chronological order.

The labeling is inconsistent. Sure, maybe A–E the five computer systems that comprise Colossus. Sliding walls and ramps are well labeled, but there’s no indication about what it is that causes the dangerous radiation. It should say something like “Gamma shielding: DANGER RADIATION.” It’s tiny, but I also think the little arrow is a bad graphic for showing which way the safety cover flips open. Existing designs show that the industrial design can signal this same information with easier-to-understand affordances. And since this gamma radiation is an immediate threat to life and health, how about foregoing the red lettering in favor of symbols that are more immediately recognizable by non-English speakers and illiterate people. The IAEA hadn’t invented its new sign yet, but the visual concepts were certainly around at the time, so let’s build on that. Also, why doesn’t the door to the compound come with the same radiation warning? Or any warning?

The buttons are a crap choice of control as well. They don’t show what the status of the remotely controlled thing is. So if Charles accidentally presses a button, and, say, raises a sliding wall that’s out of sight, how would he know? Labeled rocker switches help signal the state and would be a better choice.

But really, why would these things be controlled remotely? It be more secure to have two-handed momentary buttons on the walls, which would mean that a person would be there to visually verify that the wall was slid or the ramp retracted or whatever it is national security needed them to be.

There’s also the narrative question about why this remote control doesn’t come up later in the film when Unity is getting out of control. Couldn’t they have used this to open the fortification and go unplug the thing?

So all told, not a great bit of design, for either interaction or narrative, with lots of improvement for both.

Locking yourselves out and throwing away the key

At first glance, it seems weird that there should be interfaces in a compound that is meant to be uninhabited for most of its use. But this is the first launch of a new system, and these interfaces may be there in anticipation of the possibility that they would have to return inside after a failure.  We can apologize these into believability.

But that doesn’t excuse the larger strategic question. Yes, we need defense systems to be secure. But that doesn’t mean sealing the processing and power systems for an untested AI away from all human access. The Control Problem is hard enough without humans actively limiting their own options. Which raises a narrative question: Why wasn’t there a segment of the film where the military is besieging this compound? Did Unity point a nuke at its own crunchy center? If not, siege! If so, well, maybe you can trick it into bombing itself. But I digress.

“And here is where we really screw our ability to recover from a mistake.”

Whether Unity should have had its plug pulled is the big philosophical question this movie does not want to ask, but I’ll save that for the big wrap up at the end.

Fuel cell

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Just before the spaceship takes off for Fhloston Paradise, the audience gets to see the manual interface that the airport employees use to refuel the ship. On the tarmac beneath the spaceship, the ground crewman plugs in a portable control box to the underside of the plane, and presses a button to open a hatch in the ground, from which a new, glowing green radioactive fuel cell emerges.

One of the crewmen grabs it by its circular handles at the end, removes it from the hatch, and sets it on the ground.

He then uses the plugged-in control box to open a compartment on the underside of the spaceship, from which one of the ground crew removes the spent fuel cell by hand, and inserts it into the still-open hatch.

Finally they pick up the full fuel cell and insert it into the compartment on the plane.

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This scene is there to set up how Cornelius stows away on the craft, but also serves as a cinematic pun when it crosscuts to a scene inside the ship (but which must be seen rather than read to appreciate.) For such a “throwaway” technology, it’s handled really well.

  • The ground affords natural shielding from any collection of radioactive fuel cells.
  • Being circular, the cells and the handles to manipulate the cells are orientation-less.
  • There are familiar black-and-yellow-stripe warnings on the walls of the hatch and the revealed sides of the spaceship compartment. These warnings are only visible when it’s relevant.
  • The radioactivity trefoil symbol has the same colors and appears on the fuel cell, the hatch, and the compartment.
  • Having a portable and wired control box means that it’s not readily available for any passing hackers.
  • The transparent container lets the material act as an additional warning to observers: There is danger here.
  • The transparent container lets the fuel itself tell the ground crew which cell is spent and which one is full.

All told, short of making it automated, this is how it should work.

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