Like eating and sleeping, exercise was one of the things people still had to do in reality. None of the simulated physical activity you experienced through your ONI headset actually had any real-world effects, like improving your circulation or increasing your muscle tone.
I finished lacing up my vintage Air Jordans and stepped outside onto the balcony, where my usual breakfast was waiting for me. As I took a seat at the table, one of my humanoid service robots, Belvedere, uncovered my omelet and hash browns and poured me a glass of freshly squeezed orange juice. Then he retreated to the corner of the balcony and stood there like a statue, waiting to be of further use.
I’d programmed Belvedere never to speak unless spoken to, because his synthesized voice set me on edge, regardless of how much I tweaked his tone or inflection. Probably because I’d seen too many robot-uprising movies.
There wasn’t any actual chance of my service robots staging a revolt, of course. Like most of the artificial intelligence people interacted with on a daily basis, Belvedere and his fellow household bots were Tier One AI, which was classified as “extremely weak.” Tier One AI was used to operate service robots, drive automated cars, and fly automated planes. All of our OASIS NPCs were Tier Ones.
Tier Two AI was used mostly for science and military applications, and their use and operating parameters were heavily restricted by most world governments. Tier Twos could form short-term memories and had stronger independent learning abilities—but they still did not have the capacity for autonomy, or any sort of identity or self-awareness.
Tier Three AI was the real deal—fully autonomous, self-aware, and conscious. The kind that science fiction films warn you about. This level of artificial intelligence was still theoretical, praise be to Crom. But according to GSS’s top engineers, probably not for much longer. The race to create true artificial intelligence had become like the race to create the atomic bomb. Several different countries—including my own—were working to create full-blown self-aware, as-smart-if-not-smarter-than-the-average-human-being artificial intelligence. Maybe some of them already had, and now it was just a waiting game to see who would unleash it first, probably in an army of sentient aerial drones and battle telebots that said “Roger, Roger” to one another while machine-gunning civilian populations. That was, if we didn’t nuke ourselves into oblivion first.
I ate in silence for a few minutes, staring up at the sky overhead. When I finished my food, I put my AR specs on again and used them to log in to my OASIS account. Then I used a heavily encrypted remote-access code to take control of a telebot—a humanoid telepresence robot—that was located in orbit high above the Earth aboard the Vonnegut. Once my link to the bot was established, my AR specs allowed me to see through its “eyes”—a set of stereoscopic video cameras mounted in its head. I disconnected the telebot from its charging dock, which was anchored to a bulkhead in the ship’s forward cargo hold. This was in the ring-shaped section of the craft, which rotated constantly to generate centripetal force and create simulated gravity.
I piloted the telebot over to a circular observation window set into the outer hull. Then I waited a few seconds for the ring to rotate around, until the luminous blue curve of the Earth came into view, filling my field of vision. The Vonnegut was currently passing over North America, and through a break in the cloud cover I was able to locate the outline of Lake Erie, and then the dense urban grid of Columbus just below it. I stabilized and magnified the image until I had a satellite’s view of my own house and the patio where I was currently sitting. For a second or two, I was able to gaze down at myself through the eyes of a telepresence robot aboard a starship orbiting the Earth.
When the Earth rotated out of view again, I turned the telebot away from the window, then I used it to make a quick circuit of the ship. Dozens of other telebots floated through each of its sections, under the control of the technicians and engineers back on Earth. They were running diagnostic tests on the experimental heavy-duty radiation shielding around the frozen embryo storage compartment. After watching them work for a while, I piloted my telebot into the ship’s Network Operations Center, to check on the ARC@DIA backup servers, and the OASIS uplink from Earth that we used to keep our copy of various planets in the simulation up to date. Everything appeared to be running smoothly. We still had plenty of extra storage space for future ARC@DIA content updates on the Vonnegut’s computer. Its processing power limited us to a maximum of one hundred simultaneous ARC@DIA users, but that was far more than we needed.