Frontiers in Psychology | |
Free-Energy Minimization and the Dark-Room Problem | |
Karl Friston1  | |
关键词: free-energy principle; Bayesian brain; surprise; optimality; | |
DOI : 10.3389/fpsyg.2012.00130 | |
学科分类:心理学(综合) | |
来源: Frontiers | |
【 摘 要 】
Recent years have seen the emergence of an important new fundamental theory of brain function. This theory brings information-theoretic, Bayesian, neuroscientific, and machine learning approaches into a single framework whose overarching principle is the minimization of surprise (or, equivalently, the maximization of expectation). The most comprehensive such treatment is the “free-energy minimization” formulation due to Karl Friston (see e.g., Friston and Stephan, 2007; Friston, 2010a,b – see also Fiorillo, 2010; Thornton, 2010). A recurrent puzzle raised by critics of these models is that biological systems do not seem to avoid surprises. We do not simply seek a dark, unchanging chamber, and stay there. This is the “Dark-Room Problem.” Here, we describe the problem and further unpack the issues to which it speaks. Using the same format as the prolog of Eddington’s Space, Time, and Gravitation (Eddington, 1920) we present our discussion as a conversation between: an information theorist (Thornton), a physicist (Friston), and a philosopher (Clark).
【 授权许可】
CC BY
【 预 览 】
Files | Size | Format | View |
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RO201901229283038ZK.pdf | 245KB | download |