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Taxshila Research Page

Beyond Examinations: EEG Measurements and Neuroscience of Learnography

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For centuries, examinations have been the dominant method for evaluating the qualities of formal academic learning in the education system. However, examinations measure the outcomes of learning rather than the neurological processes that produce learning. Can Brainwaves Measure Learning? The EEG Revolution in Learnography Learnography is a proposed science of knowledge transfer. This system argues that learning should be understood as a measurable brain process involving the transfer of knowledge from source materials into structured neural representations called brainpage maps and modules. In this context, Electroencephalography (EEG) offers a promising avenue for investigating the neurological foundations of learning. EEG devices can record brainwave activity in real time, enabling researchers to observe attention, cognitive engagement, memory formation, motor planning, and knowledge integration during learning activities. This article explores the role of EEG measurements in learno...

Meet the Learning Loop Inside Your Brain: Thalamic Cyclozeid Rehearsal

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Learning a topic, task or skill is often described as the acquisition of knowledge through teaching, reading and experience. However, neurological processes of the brain that transform subject learning into durable knowledge remain an institutional challenge of the continuous academic investigation. Thalamic Cyclozeid Rehearsal Accelerates Knowledge Transfer in Learners Taxshila neuroscience introduces Thalamic Cyclozeid Rehearsal (TCR) as a theoretical framework within system learnography. The study explains how knowledge is repeatedly cycled through thalamocortical circuits of the brain to achieve high-speed knowledge transfer, memory consolidation, and skill development. TCR proposes that the thalamus of the brain functions as a central rehearsal hub of knowledge transfer. It coordinates the cycling of knowledge units, known as zeids, between sensory and motor systems. The zeid is formed by the encapsulation of definition and naming addresses of an object. Through the integration of...

Science of Learning Begins Before Birth: Embryological Model of Book-to-Brain Learnography

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The science of learning has traditionally focused on cognitive processes occurring after birth, emphasizing memory, attention, perception, and institutional environments. However, modern developmental biology demonstrates that the biological foundations of learning originate much earlier during embryonic development. The formation of the ectoderm, mesoderm, and endoderm during the gastrulation in human embryo establishes neural, motor and physiological systems that later support knowledge acquisition, processing, application and behavioral adaptation. Embryonic Origins of Knowledge Transfer, Intelligence and Skill Development The study proposes an Embryological Model of Book-to-Brain Learnography, arguing that knowledge transfer is rooted in the developmental architecture of the human embryo. By integrating embryonic neuroscience, motor science, Brainpage Theory, and Knowledge Transfer Management System (KTMS), this study presents learning as a whole-organism phenomenon involving the c...