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qualiacomputing.com | ||
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opentheory.net
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| | | | | [AI summary] The text explores the concept of connectome-specific harmonic wave (CSHW) theory, which posits that the brain operates like a musical instrument with harmonic principles. It connects neuroscience to art, music, and language, suggesting that understanding the brain's harmonic structure could revolutionize fields like AI, communication, and human improvement. Key themes include the brain as a resonant system, the role of harmonics in language and meaning, and the potential for aligning AI with human cognition through harmonic resonance. | |
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qri.org
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| | | | | [AI summary] The text discusses the Symmetry Theory of Valence (STV), which posits that the valence (pleasure vs. pain) of experiences is linked to the symmetry and complexity of neural patterns. Key points include the role of neural synchronization and oscillatory patterns in generating emotional states, the idea that symmetric and complex patterns correspond to positive valence, and the application of this theory to understanding phenomena like meditation, psychedelics, and emotional states. The text also references various studies and theories from neuroscience, psychology, and computational models to support these ideas. | |
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www.qri.org
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| | | | | Quantifying Bliss: the purpose of life and an algorithm for what makes experience valuable. | |
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smoothbrains.net
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| | | [AI summary] This post explores Steven Lehar's field theory of visual perception, proposing that the brain uses nonlinear wave phenomena like grassfire algorithms and shock scaffolds to solve the inverse optics problem by constructing stable, symmetrical 3D world models from 2D retinal images. | ||
