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Biofeedback and the Revoking of Qualia

Jon Frederick

PhilPapers (PhilPapers Foundation) January 1, 2026 Peer reviewed DOI: 10.13140/rg.2.2.21455.04005/1 via OpenAlex

Summary

Biofeedback is proposed as a fundamental tool for exploring the link between conscious and unconscious brain processes, rather than just a treatment for psychological disorders. A decade of EEG research indicates that physical processes can gain phenomenal correlates under specific regulatory conditions. Three studies show that the boundary between physical processes and their phenomenal correlates is dynamic and can be altered through learning. This shifts the hard problem of consciousness into a set of empirical questions.

Study at a glance

Key finding The boundary between physical processes and their phenomenal correlates is dynamic, directionally asymmetric, and modifiable through learning.

Abstract

Biofeedback is commonly understood as a clinical procedure for treating psychological disorders. This paper argues that it constitutes something more fundamental: a novel empirical instrument for studying the relationship between conscious and unconscious processes in the brain. A decade-long research program in EEG state discrimination training has suggested an empirically grounded account of the regulatory conditions under which physical processes acquire phenomenal correlates—narrowing the hard problem of consciousness by constraining the space of viable solutions. Drawing on Ramachandran and Hirstein’s (1997) Three Laws of Qualia, the paper further argues that biofeedback revokes the irrevocability of unified qualitative experiences across the timescale of learning. Psychopathology is reframed as the maladaptive terminal differentiation of chunked experience; biofeedback as its systematic un-chunking, operating through sensory substitution mechanisms that restore phenomenal access to subthreshold physiological states. Three empirical studies of EEG alpha discrimination provide the framework’s foundation. Their findings—psychophysical scaling of discrimination accuracy, asymmetric generalization between control and awareness training, and a temporal phenomenon termed behavioral inertia—demonstrate that the boundary between physical processes and their phenomenal correlates is dynamic, directionally asymmetric, and modifiable through learning rather than fixed and categorical. Any adequate solution to the hard problem must therefore explain how and why this boundary has these properties. This concept—the mind-brain barrier, a functional regulatory network maintaining the physical-phenomenal boundary—does not solve the hard problem but transforms it, converting a monolithic philosophical mystery into a progressively narrowing set of testable empirical questions.

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