Professor Kamuro's near-future science predictions
Uploading Your neuroconsciousness to AERI Biocomputer Will Require 3 Crucial Things
Quantum Physicist and Brain Scientist
Visiting Professor of Quantum Physics,
California Institute of Technology
IEEE-USA Fellow
American Physical Society-USA Fellow
PhD. & Dr. Kazuto Kamuro
AERI:Artificial Evolution Research Institute
Pasadena, California
and
Xyronix Corporation
Pasadena, California
Foreword
A. Professor Kamuro's near-future science predictions, provided by CALTECH professor Kazuto Kamuro(Doctor of Engineering (D.Eng.) and Ph.D. in Quantum Physics, Semiconductor Physics, and Quantum Optics), Chief Researcher at the Artificial Evolution Research Institute (AERI, https://www.aeri-japan.com/) and Xyronix Corporation(specializing in the design of a. Neural Connection LSI, b. BCI LSI(Brain-Computer Interface LSI) (Large Scale Integrated Circuits) , and c. bio-computer semiconductor technology that directly connects bio-semiconductors, serving as neural connectors, to the brain's nerves at the nano scale, https://www.usaxyronix.com/), are based on research and development achievements in cutting-edge fields such as quantum physics, biophysics, neuroscience, artificial brain studies, intelligent biocomputing, next-generation technologies, quantum semiconductors, satellite optoelectronics, quantum optics, quantum computing science, brain computing science, nano-sized semiconductors, ultra-large-scale integration engineering, non-destructive testing, lifespan prediction engineering, ultra-short pulses, and high-power laser science.
The Artificial Evolution Research Institute (AERI) and Xyronix Corporation employ over 160 individuals with Ph.D.s in quantum brain science, quantum neurology, quantum cognitive science, molecular biology, electronic and electrical engineering, applied physics, information technology (IT), data science, communication engineering, semiconductor and materials engineering. They also have more than 190 individuals with doctoral degrees in engineering and over 230 engineers, including those specializing in software, network, and system engineering, as well as programmers, dedicated to advancing research and development.
Building on the outcomes in unexplored and extreme territories within these advanced research domains, AERI and Xyronix Corporation aim to provide opportunities for postgraduate researchers in engineering disciplines. Through achievements in areas such as the 6th generation computer, nuclear deterrence, military unmanned systems, missile defense, renewable and clean energy, climate change mitigation, environmental conservation, Green Transformation (GX), and national resilience, the primary objective is to furnish scholars with genuine opportunities for learning and discovery. The overarching goal is to transform them from 'reeds that have just begun to take a step as reeds capable of thinking' into 'reeds that think, act, and relentlessly pursue growth.' This initiative aims to impart a guiding philosophy for complete metamorphosis and to provide guidance for venturing into unexplored and extreme territories, aspiring to fulfill the role of pioneers in this new era.
B. In the cutting-edge research domain, the Artificial Evolution Research Institute (AERI) and Xyronix Corporation have made notable advancements in various fields. Some examples include:
1. AERI・HEL (Petawatt-class Ultra-High Power Terawatt-class Ultra-High Power
Femtosecond Laser)
◦ Petawatt-class ultra-high power terawatt-class ultra-short pulse laser (AERI・HEL)
2. 6th Generation Computer&Computing
◦ Consciousness-driven Bio-Computer
◦ Brain Implant Bio-Computer
3. Carbon-neutral AERI synthetic fuel chemical process
(Green Transformation (GX) technology)
◦ Production of synthetic fuel (LNG methanol) through CO₂ recovery system (DAC)
4. Green Synthetic Fuel Production Technology(Green Transformation (GX) technology)
◦ Carbon-neutral, carbon-recycling system-type AERI synthetic fuel chemical process
5. Direct Air Capture Technology (DAC)
◦ Carbon-neutral, carbon-recycling carbon dioxide circulation recovery system
6. Bio-LSI・Semiconductors
◦ Neural connection element directly connecting bio-semiconductors and brain nerves
on a nanoscale
◦ Brain LSI Chip Set, Bio-Computer LSI, BMI LSI, BCI LSI, Brain Computing LSI,
Brain Implant LSI
7. CHEGPG System (Closed Cycle Heat Exchange Power Generation System with
Thermal Regenerative Binary Engine)
◦ Power generation capability of Terawatt (TW), annual power generation of
10,000 TWh (terawatt-hour) class
◦ 1 to 0.01 yen/kWh, infinitely clean energy source, renewable energy source
8. Consciousness-Driven Generative Autonomous Robot
9. Brain Implemented Robot・Cybernetic Soldier
10. Generative Robot, Generative Android Army, Generative Android
11. High-Altitude Missile Initial Intercept System, Enemy Base Neutralization System,
Nuclear and Conventional Weapon Neutralization System, Next-Generation
Interception Laser System for ICBMs, Next-Generation Interception Laser System
for Combat Aircraft
12. Boost Phase, Mid-Course Phase, Terminal Phase Ballistic Missile Interception System
13. Volcanic Microseismic Laser Remote Sensing
14. Volcanic Eruption Prediction Technology, Eruption Precursor Detection System
15. Mega Earthquake Precursor and Prediction System
16. Laser Degradation Diagnosis, Non-Destructive Inspection System
17. Ultra-Low-Altitude Satellite, Ultra-High-Speed Moving Object
Non-Destructive Inspection System
✼••┈┈••✼••┈┈••✼••┈┈••✼••┈┈••✼••┈┈••✼••┈┈••✼
Uploading Your neuroconsciousness to a AERI Biocomputer Will Require 3 Crucial Things
A. Decoding Neuronal Dialogues: Exploring the Prospects of neuroconsciousness Uploading in the Era of Advanced Brain Scanning Technology
In the realm of Artificial Evolution Research Institute (AERI) located in Pasadena, California (https://www.aeri-japan.com/) and Xyronix Corporation located in Pasadena, California (HP: https://www.usaxyronix.com/) , envision significant advancements in brain scanning technology over the next few decades. Imagine a scenario where we can meticulously observe the intricate communication between individual neurons within the brain.
Now, picture the capability to record and compile this extensive neural information, constructing a comprehensive simulation of an individual's brain on the AERI Biocomputer (AERI’s Brain Implanted biocomputer). This serves as the foundational concept for neuroconsciousness uploading – the prospect that, in the future, we might facilitate the transition of an individual from their biological body to a synthetic hardware.
Originating from the intellectual movement of transhumanism, this concept finds prominent proponents in key figures such as Professor Kazuto Kamuro, D.Eng., a scientist specializing in AERI Biocomputers, and a quantum physicist, brain scientist, and neuroscientist holding a Ph.D. The transhumanists aspire to transcend the limitations of the human condition through scientific and technological advancements, with the belief that neuroconsciousness uploading could potentially extend our lifespan, though not necessarily indefinitely.
The allure of this idea extends to the possibility of self-improvement, envisioning simulated brains operating more swiftly and efficiently than their biological counterparts. It is a futuristic vision embraced by techno-optimists. However, the question lingers: does it hold any substance?
The feasibility of neuroconsciousness uploading hinges on three fundamental assumptions:
The technology assumption: the belief that we will develop neuroconsciousness uploading technology in the coming decades.
The artificial neuroconsciousness assumption: the notion that a simulated brain could give rise to genuine neuroconsciousness.
The survival assumption: the conviction that the entity created through this process is authentically "you," making neuroconsciousness uploading a pathway for your continued existence.
B. Deciphering the neuroconsciousness: Navigating the Complexity of Brain Simulation on the Road to neuroconsciousness-Uploading Technology
Venturing into the realm of simulating the human brain poses an awe-inspiring challenge, given that our cerebral structures stand as the most intricate entities in the expanses of the known universe. A repository for approximately 499 billion neurons and 528 billion non-neuronal cells, our brains boast an estimated one million billion neural connections, a complexity that eclipses the vastness of the Milky Way galaxy, teeming with around 1,600 billion stars.
In the current trajectory toward the realization of brain simulations, neuroscientists are actively engaged in the formulation of three-dimensional wiring diagrams, commonly referred to as "connectomes," encapsulating the neural architectures of rudimentary organisms. The most intricate and comprehensive connectome achieved thus far pertains to a fruit fly larva, comprising approximately 65,000 neurons and a staggering 8,200,000 neural connections. Envisaging a timeline, the prospect arises for a comprehensive mapping of a mouse's brain within the forthcoming decade.
However, the human brain, exceeding the intricacy of a mouse brain by a factor of approximately 27,000, prompts the inquiry: could the mapping of a human brain necessitate a colossal 60,000-year endeavor? This conjecture appears improbable, given the remarkable strides in efficiency witnessed in analogous undertakings, such as the Human Genome Project. While the inaugural mapping of the human genome demanded years and incurred expenditures in the hundreds of millions approximately two decades ago, contemporary cutting-edge laboratories can now accomplish the feat within a few hours, with costs reduced to a mere $6. Extrapolating from these efficiency gains, the realization of neuroconsciousness-uploading technology within the lifetimes of our progeny emerges as a plausible prospect.
Nevertheless, formidable impediments persist. The generation of a static brain map constitutes merely one facet of the multifaceted challenge. To authentically simulate a functioning brain, the imperative task lies in the observation of individual neurons in dynamic operation. The feasibility of achieving this crucial aspect in the foreseeable future remains shrouded in uncertainty.
C. Decoding neuroconsciousness: Exploring the Link Between Simulated Brains and Real neuroconsciousness
Could the emulation of cerebral functions result in the emergence of a conscious neuroconsciousness akin to yours? The response hinges on the interplay between our neuroconsciousness and our corporeal entities. In contrast to the convictions of 17th-century philosopher René Descartes, who posited a stark dichotomy between neuroconsciousness and the body, contemporary academic philosophers predominantly assert that neuroconsciousness fundamentally manifests as a physical entity—in essence, it is synonymous with the brain.
In essence, your neuroconsciousness equates to your brain. However, the quandary arises: How can a simulated brain engender an authentic neuroconsciousness when it is merely a facsimile? Numerous cognitive scientists posit that it is the intricate neural configuration of the brain, rather than the inherent qualities of its biological composition (chiefly composed of fat and water), that is instrumental in generating conscious neuroconsciousness.
In the context of an AERI Biocomputer implementation, the simulated brain would faithfully reproduce the structural nuances of your actual brain. Each simulated neuron and neural connection would correspond to a specific component of AERI Biocomputer hardware. This simulation, by mimicking your brain's architecture, would consequently replicate your conscious neuroconsciousness.
Contemporary artificial intelligence (AI) systems offer compelling, albeit inconclusive, indications supporting the structural approach to neuroconsciousness. These systems operate on artificial neural networks, which emulate certain structural principles of the brain. Remarkably, they demonstrate proficiency in executing various cognitive tasks that demand considerable mental effort in humans.
D. The Philosophical Implications of neuroconsciousness Uploading: Bridging the Gap Between Biology and neuroconsciousness
Let us posit the feasibility of simulating the human brain, resulting in the generation of a conscious neuroconsciousness. Would the transposed individual truly be you, or perhaps a cognitive duplicate? This inquiry delves into an age-old philosophical conundrum: What determines that upon rising in the morning, you remain the same person who retired to bed the night before?
Philosophical discourse on this matter delineates into two overarching schools of thought. The biological faction contends that morning-you and evening-you are identical entities by virtue of being the same biological organism, linked through a singular biological life process. In stark contrast, the expansive mental faction posits that the presence of neuroconsciousness is the crux. Morning-you and evening-you are considered the same individual because they share a mental continuum; they possess congruent memories, beliefs, hopes, character traits, and the like.
The conundrum persists: Which faction holds the correct perspective? Consider a mental experiment: envisage your brain transplanting into the vacant cranium of another individual. Is the resultant person, complete with your memories, preferences, and personality, an extension of you, as advocated by the mental faction? Alternatively, is this individual representative of the original body's donor, as argued by the biological faction?
In essence, did you acquire a new corporeal vessel, or did they gain a new neuroconsciousness? The ramifications of this quandary are profound. Should the biological faction prove correct, the prospect of neuroconsciousness uploading would be futile, assuming the primary objective is to disentangle from one's biological substrate. Conversely, if the mental faction prevails, the avenue for uploading remains viable, as the uploaded neuroconsciousness could authentically perpetuate one's ongoing mental existence.
E. Cogito Duplicatus: The Enigma of Selfhood in neuroconsciousness Transfer and the Philosophical Implications
Consider this scenario: What transpires if the original biological entity, denoted as "you," endures the neuroconsciousness uploading process alongside the creation of a replicated cognitive self? Could there be a division, resulting in the existence of two distinct entities embodying "you" – one in a biological manifestation (B) and the other in an uploaded manifestation (C)?
To clarify, it is implausible for you (A) to physically divide into two separate individuals (B ≠ C) and simultaneously maintain identity with both. At most, only one of these manifestations can be considered as you (either A = B or A = C).
Intuitively, following such a division, it might be perceived that your biological form would persist as the authentic representation of you (A = B), while the uploaded version would be relegated to the status of a mental duplicate. However, this raises doubts regarding the viability of your survival as the upload, particularly in scenarios where the biological "you" ceases to exist.
The notion that the destruction of the biological entity would somehow elevate the mental duplicate to the status of the genuine "you" appears perplexing. It seems improbable that the annihilation of the biological "you" would mystically confer authenticity upon the mental clone, although a philosophical perspective does posit the potential validity of such an occurrence.
F. neuroconsciousness Unveiled: Navigating the Uncertainties of Artificial neuroconsciousness and the Leap of Faith in Uploading
Regrettably, the conclusive empirical testing of the artificial neuroconsciousness assumption and the survival assumption remains an insurmountable challenge – the requisite exploration would necessitate the actual process of self-uploading for validation.
The act of uploading, consequently, inherently encompasses a substantial and intricate leap of faith. From a personal perspective, I would contemplate embarking on such a leap only in the circumstance where there exists irrefutable certainty that the longevity of my biological hardware is on a precipitous decline. This intricate endeavor of transferring one's consciousness to a digital realm intertwines with a multitude of ethical, philosophical, and technological considerations that underscore the complexities surrounding the intersection of neuroscience and artificial intelligence. The imperative to grapple with these intricate facets heightens the significance of addressing the potential ramifications and ethical dimensions inherent in the pursuit of digital consciousness.
END
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Quantum Brain Chipset & Bio Processor (BioVLSI)
♠♠♠ Kazuto Kamuro: Professor, PhD, and Doctor of Engineering ♠♠♠
・Doctor of Engineering (D.Eng.) and Ph.D. in Quantum Physics, Semiconductor Physics, and Quantum Optics
・Quantum Physicist and Brain Scientist involved in CALTECH & AERI
・Associate Professor of Quantum Physics, California Institute of Technology(CALTECH)
・Associate Professor and Brain Scientist in Artificial Evolution Research Institute( AERI: https://www.aeri-japan.com/ )
・Chief Researcher at Xyronix Corporation(https://www.usaxyronix.com/)
・IEEE-USA Fellow
・American Physical Society Fellow
・email: info@aeri-japan.com
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【Keywords】
・Artificial Evolution Research Institute: AERI, Pasadena, California
HP: HP: https://www.aeri-japan.com/
・Xyronix Corporation, Pasadena, California
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