| ai.viXra.org > Mind Science > 2509 |
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| ai.viXra.org > Mind Science > 2509 |
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[4] ai.viXra.org:2509.0031 [pdf] submitted on 2025-09-11 19:28:45
Authors: Debendra Nath Behera, Moninder Singh Modgil, Dnyandeo Dattatray Patil
Comments: 34 Pages.
This paper develops the metaphor of an "Operating System (OS) of the consciousness"as a framework for uniting insights from philosophy, psychology, neuroscience, artificial intelligence, and spiritual traditions. Just as a computational OS coordinates hardware and software through modules such as kernels, drivers, processes, and schedulers, consciousness may be understood as an integrative system that manages awareness, perception, memory, volition, and expression. The model explores parallels with cognitive architectures, phenomenology, psychoanalysis,and contemplative systems such as chakras and the Eightfold Path, suggesting that onsciousness embodies both adaptive processes and immutable structures. By incorporating concepts such as memory layers, willpower scheduling, personality as interface, and pre-recorded roles akin to ROM in Brahma Kumaris philosophy, the framework provides a layered architecture for interpreting identity, growth, and transformation. This interdisciplinary metaphor not only offers conceptual clarity but also illuminates applications for therapeutic practice, personal development, and ethical considerations in AI design.
Category: Mind Science
[3] ai.viXra.org:2509.0023 [pdf] submitted on 2025-09-10 12:11:28
Authors: Moninder Singh Modgil, Dnyandeo Dattatray Patil
Comments: 31 Pages.
This work develops a unified theoretical framework connecting electroencephalography(EEG), quantum path integrals, and mechanosensitive modulation of neuronaldynamics in meditation. Neurons are modeled as mesoscopic quantum oscillatorsgoverned by a brain-specific Planck-like constant, the Brain’s Neuronal Planck Constant(hNeuron), estimated to be on the order of 10−16 J·s. This formulation allowsneuronal firing frequencies to be treated analogously to quantized oscillator states,extending Feynman’s path integral formalism to cortical and subcortical ensembles.The framework incorporates mechanosensory contributions from Piezo2 ion channels,which transduce vascular pulsations into periodic perturbations of membrane potentials,thereby entraining cortical and limbic oscillations. EEG rhythms, including sensorimotorrhythm (SMR), occipital alpha, frontal theta, and gamma synchrony, emergeas macroscopic interference fields resulting from coherent sums over neuronal amplitudes.We demonstrate how meditation alters these rhythms by narrowing spectraldensities, reducing phase dispersion, and enhancing constructive interference acrosscortical and deep brain structures such as the thalamus, hippocampus, and amygdala.Predictions include robust SMR and alpha with eyes closed, persistent alpha duringeyes-open meditation, theta-gamma coupling in blissful states, and widespread gammacoherence in states of universal love. The integration of EEG, fMRI, and path integralneurodynamics provides a rigorous mesoscopic model linking interoceptive physiology,quantum neurobiology, and meditative phenomenology, offering experimentally testablepredictions for the neuroscience of consciousness.
Category: Mind Science
[2] ai.viXra.org:2509.0019 [pdf] submitted on 2025-09-08 02:13:59
Authors: Debendra Nath Behera, Moninder Singh Modgil, Dnyandeo Dattatray Patil
Comments: 33 Pages.
This paper develops a comprehensive mathematical framework for the topology and geometryof perception by integrating neurobiological, phenomenological, and quantumtheoreticperspectives. We extend the concept of Perceptual Tangent Spaces (PTS),originally proposed within a differential geometric formulation of von Neumann’s measurementtheory, to neural manifolds and conscious vector fields. The observer is modeledas a Dirac delta distribution anchored in the hypothalamus, serving as the singular locusthat collapses distributed neural and perceptual superpositions into localized consciousactualizations. The framework unifies brain dynamics, perceptual geometry, and consciousnessby employing Hilbert bundles, curvature tensors, and fidelity metrics, whichcapture the continuity, curvature, and coherence of perceptual evolution. Path integralformulations of neural and perceptual manifolds are introduced, showing how distributedneural trajectories contribute to perceptual and motor amplitudes that collapse throughquantum measurement chains (QMC). Case studies in tennis and chess illustrate howPTS and QMC structure decision making, motor preparation, and outcome perception.Extensions to affective measurement chains (AMC) explain the joy of victory throughreward circuitry, while meditative states are modeled as a transition from a Dirac deltato a Gaussian anchor, representing diffused awareness. The framework is further generalizedto collective cognition in multi-agent systems and synthetic QMC in artificialintelligence, highlighting the necessity of a delta anchor for localized consciousness. Bybridging topology, geometry, and quantum measurement with neurocognitive processes,this work advances a unified theory of perception, consciousness, and decision making.
Category: Mind Science
[1] ai.viXra.org:2509.0002 [pdf] submitted on 2025-09-01 22:20:31
Authors: Emirhan Yildirim
Comments: 22 Pages.
Background: The study of shared subjective experience, or intersubjectivity, represents a significant challenge for traditional single-brain neuroscience. The recent emergence of second-person methodologies, particularly hyperscanning, has enabled the measurement of Inter-brain Synchronization (IBS) as a neural correlate of social connection, yet most paradigms confound shared intentionality with shared sensory and motor cues.
Category: Mind Science