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Existentialist risk and value misalignment

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Abstract

We argue that two long-term goals of AI research stand in tension with one another. The first involves creating AI that is safe, where this is understood as solving the problem of value alignment. The second involves creating artificial general intelligence, meaning AI that operates at or beyond human capacity across all or many intellectual domains. Our argument focuses on the human capacity to make what we call “existential choices”, choices that transform who we are as persons, including transforming what we most deeply value or desire. It is a capacity for a kind of value misalignment, in that the values held prior to making such choices can be significantly different from (misaligned with) the values held after making them. Because of the connection to existentialist philosophers who highlight these choices, we call the resulting form of risk “existentialist risk.” It is, roughly, the risk that results from AI taking an active role in authoring its own values rather than passively going along with the values given to it. On our view, human-like intelligence requires a human-like capacity for value misalignment, which is in tension with the possibility of guaranteeing value alignment between AI and humans.

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Notes

  1. Although our discussion is very much influenced by Paul (2014), we break from her view that existential choices (our term) or transformative choices (her term) can be rational when they are motivated by self-discovery (Paul, 2014: 120); for critical discussion of the issues involved, see (Tubert, 2023). That said, there is room for a more Paul-driven account of existentialist risk than what we explore in the text, perhaps one that seizes on Paul’s (2014: 10) notion of epistemic transformation to argue that we cannot know what choices an AI system might make in transforming its values. Thanks to an anonymous referee here.

  2. Russell (2019: 320, n. 40) also briefly engages Paul and Richard Pettigrew on the topic.

  3. Partly for reasons of computational intractability (van Rooij et al., 2019) no system can achieve perfect rationality, and instead the most we should hope for is something along the lines of “bounded rationality” (Simon, 1958; Russell, 1997). Still, we can suppose that machines might come closer to perfect rationality than human beings do, and in connection that they do not demonstrate the cognitive biases mentioned in the body of the text.

  4. Bostrom’s view about orthogonality stands in prima facie tension with Kantian views of practical rationality that say that a fully rational agent, recognizing the moral law or the overriding and intrinsic value of humanity, will not sacrifice human beings for the sake of paperclips. Bostrom (2014: 130) responds to this tension by distinguishing intelligence from rationality and reason: perhaps a machine pursuing paths at odds with the moral law or the value of humanity would thereby be lacking in rationality and reason, but it still could be fully intelligent by demonstrating instrumental rationality. That is, there may be conceptions of reason or rationality at odds with sacrificing human beings for paperclips but there is a further question as to whether the notion of “intelligence” requires such conceptions. Bostrom’s point about goal-content integrity, our primary interest here, does not require an answer to this further question even though other aspects of his argument, including his point about existential risk, may so require.

  5. Perhaps part of the mechanism by which the paperclip maximizer locks in its values is that it refuses ever to engage in such contemplation.

  6. Autonomy in this sense is not at odds with having inherited values from society or evolution but it is at odds with not being able to reject or change those values.

  7. Along broadly similar lines, Oaksford & Hall (2016) advance a contrarian argument saying that within human beings, the unconscious, fast, heuristic-driven, and phylogenetically older “System 1” is better at complying with decision-theoretic principles than is the conscious, slower, analytic “System 2” that coevolved with the human capacity for language.

  8. Gigerenzer presses the point in order to criticize approaches in psychology that take decision theory and aligned fields to provide the appropriate normative standards for assessing human rationality—he is criticizing Kahneman and Tversky’s heuristics and biases program. We will not directly engage with his argument on this point however.

  9. Stanovich takes the term from Taylor (1989) and Flanagan (1996).

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Acknowledgements

We want to thank the National Endowment for the Humanities, the University of Puget Sound, and the John Lantz Senior Fellowship for Research or Advanced Study for support for our work and the audience at the Math & Computer Science Seminar at the University of Puget Sound, the participants at the Philosophy, AI, and Society Workshop at Stanford University, and anonymous referees for helpful feedback.

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Tubert, A., Tiehen, J. Existentialist risk and value misalignment. Philos Stud (2024). https://doi.org/10.1007/s11098-024-02142-6

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