Monday, October 20, 2014

Beyond Human Science

A short story by Hugo and Nebula winner Ted Chiang. See also A Modern Borges? and Genius (Nautilus magazine article).
The Evolution of Human Science

It has been twenty-five years since a report of original research was last submitted to our editors for publication, making this an appropriate time to revisit the question that was so widely debated then: What is the role of human scientists in an age when the frontiers of scientific inquiry have moved beyond the comprehension of humans?

No doubt many of our subscribers remember reading papers whose authors were the first individuals ever to obtain the results they described. But as metahumans began to dominate experimental research, they increasingly made their findings available only via DNT (digital neural transfer), leaving journals to publish secondhand accounts translated into human language. Without DNT humans could not fully grasp prior developments nor effectively utilize the new tools needed to conduct research, while metahumans continued to improve DNT and rely on it even more. Journals for human audiences were reduced to vehicles of popularization, and poor ones at that, as even the most brilliant humans found themselves puzzled by translations of the latest findings.

No one denies the many benefits of metahuman science, but one of its costs to human researchers was the realization that they would likely never make an original contribution to science again. Some left the field altogether, but those who stayed shifted their attention away from original research and toward hermeneutics: interpreting the scientific work of metahumans.

Textual hermeneutics became popular first, since there were already terabytes of metahuman publications whose translations, while cryptic, were presumably not entirely inaccurate. Deciphering these texts bears little resemblance to the task performed by traditional paleographers, but progress continues: recent experiments have validated the Humphries decipherment of decade-old publications on histocompatibility genetics.

The availability of devices based on metahuman science gave rise to artifact hermeneutics. Scientists began attempting to "reverse engineer" these artifacts, their goal being not to manufacture competing products, but simply to understand the physical principles underlying their operation. The most common technique is the crystallographic analysis of nanoware appliances, which frequently provides us with new insights into mechanosynthesis.

The newest and by far the most speculative mode of inquiry is remote sensing of metahuman research facilities. A recent target of investigation is the ExaCollider recently installed beneath the Gobi Desert, whose puzzling neutrino signature has been the subject of much controversy. (The portable neutrino detector is, of course, another metahuman artifact whose operating principles remain elusive.)

The question is, are these worthwhile undertakings for scientists? Some call them a waste of time, likening them to a Native American research effort into bronze smelting when steel tools of European manufacture are readily available. This comparison might be more apt if humans were in competition with metahumans, but in today's economy of abundance there is no evidence of such competition. In fact, it is important to recognize that— unlike most previous low-technology cultures confronted with a high-technology one— humans are in no danger of assimilation or extinction.

There is still no way to augment a human brain into a metahuman one; the Sugimoto gene therapy must be performed before the embryo begins neurogenesis in order for a brain to be compatible with DNT. This lack of an assimilation mechanism means that human parents of a metahuman child face a difficult choice: to allow their child DNT interaction with metahuman culture, and watch their child grow incomprehensible to them; or else restrict access to DNT during the child's formative years, which to a metahuman is deprivation like that suffered by Kaspar Hauser. It is not surprising that the percentage of human parents choosing the Sugimoto gene therapy for their children has dropped almost to zero in recent years.

As a result, human culture is likely to survive well into the future, and the scientific tradition is a vital part of that culture. Hermeneutics is a legitimate method of scientific inquiry and increases the body of human knowledge just as original research did. Moreover, human researchers may discern applications overlooked by metahumans, whose advantages tend to make them unaware of our concerns. For example, imagine if research offered hope of a different intelligence-enhancing therapy, one that would allow individuals to gradually "up-grade" their minds to a metahuman-equivalent level. Such a therapy would offer a bridge across what has become the greatest cultural divide in our species' history, yet it might not even occur to metahumans to explore it; that possibility alone justifies the continuation of human research.

We need not be intimidated by the accomplishments of metahuman science. We should always remember that the technologies that made metahumans possible were originally invented by humans, and they were no smarter than we.

9 comments:

Rastus Odinga-Odinga said...

I think it is a mistake to believe that all we need to make progress [say, in physics] is more intelligent physicists. We all know of an example of a super-human Princetonian who is currently making essentially zero contribution to the progress of the subject. You can have an IQ of 1000 but it will do you no good if you have no leads to work on.

BobSykes said...

In as much as we are in total ignorance about how the human brain functions (the pseudo-science of neurology and brain imaging not withstanding), the idea that we can create superhuman intelligent entities has got to be one of the greatest absurdities ever to infest academia--worse even than the singularity or fusion power.

steve hsu said...

We don't know much more about growth and metabolism, but nevertheless can produce bigger and faster growing chickens and other agricultural animals. You can do engineering without understanding fundamental principles ;-)

5371 said...

There seems to be a law of conservation of credulity. People become less confident in genetically engineering superintelligent humans, or more confident in creating non-human superintelligence, but the sum of their belief in the one and the other does not change.

Unknown said...

Aren't we already here with mathematical proofs?

Peter Connor said...

Frankly, the story was complete gibberish.

Slawomir P Wojcik said...

The story seems to me as much of a description of the present as a projection into the future. I am appalled at a terrible regress in curriculum standarts since the 60'. Who would know now that NBG was an answer to quantum mechanics - and this was supposed to be part of a common knowledge by now. We have BC on BBC making some (rather annoying to me) murmurs instead. There are some relevant points to be made though. Firstly: I do like Schmidhuber hypotesis of a Universe as a computation of an optimal program. Hence best we can do is to get the program and lag by a constant, or, in other words, our predictions will always by either partial or relevant to the past. Qustions are: does longer span of effective prognosis lead to greater instability at the point of collapse of predictive abilities (HFT seems to be a point in case)? Are humans to be trusted to optimize the environment to tigers? (there is an eerie valley phenomenon - we might as well optimize environment better for tigers than for other humans which we perceive as direct competitors. Hence SI (superior [artificial or not] intelligence) might be "good" and "benevolent" towards humans in a rather conservationist manner, but rather less tolerant of other SI.
Secondly: Don't we already substitute/compensate for autonomy by overfeeding of every imaginable kind?

David Coughlin said...

AHHHHCHHOOOOOOO!!!! #quantitativefinance

DK said...

That's not engineering, it's selection. Big difference.

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