The phenomenon of quantum entanglement, where two particles are connected and can affect each other even when they are far apart, is interesting but how can it be applied for practical purposes, and how soon?
Instead of spending years or decades studying and proving various aspects of quantum entanglement, why not approach non-locality as a straightforward engineering endeavor to produce useful technologies?
Why use expensive cryogenic cooling to extend the coherence time of quantum states and maintain entanglement and superposition states for longer periods? This makes a lot of sense if this is to study quantum entanglement for its own sake or develop Quantum Computers. However, if the goal is to apply phenomena within the subatomic realm to drive practical applications now, why not use inexpensive off-the-shelf electronic hardware to achieve non-local communication at any temperature, without shielding, and with far greater stability?
Laboratories funded by government agencies and large corporations have the luxury of pursuing research projects that require massive resources. The potential downside of having access to large sums of money for R&D is that it can lead to the temptation to buy ready-made solutions to problems instead of being creative and thinking independently to apply more effective approaches that no one has ever thought possible.
Institutions heavily invested in quantum entanglement research will likely continue along their committed paths while new technologies that are inexpensive, robust, and scalable surface in the Tech Sector. This may be due to bureaucratic and contractual restrictions on which directions these laboratories are permitted to go in. Within the funding bureaucracy, more likely at the very top, the “Sunk-Cost Fallacy” mindset may have taken hold. This is where there is a reluctance to abandon a strategy or course of action because so much has been invested already, even when it becomes clear that abandonment would be more beneficial. This becomes even more of a fallacy when a better, far less expensive alternative is presented.
ACCESS: A Better Alternative
ACCESS: (Advanced Covert Communication through Entrainment of Subatomic Signals) is an inexpensive, robust, and scalable technology designed to communicate instantaneously over any distance, through any barrier, and cannot be jammed or intercepted. Some people may consider this a form of quantum entanglement. However, it operates in a manner that requires none of the cooling, shielding, and other expensive peripheral support of mainstream quantum entanglement technologies.
The operating principles of ACCESS are simple and require only inexpensive off-the-shelf electronic components. By contrast, the convoluted principles of quantum entanglement make the hardware and operational requirements equally convoluted.
One school of thought is that the more sophisticated a technology is, the more complicated and sometimes, the more complex it is.
Another school of thought is that as technology becomes more sophisticated, it becomes simpler and more elegant in design and operation. This second school of thought applies to ACCESS.
What is the Difference between ACCESS and Classic Quantum Entanglement Principles?
“I regard consciousness as fundamental. I regard matter as derivative from consciousness. We cannot get behind consciousness. Everything that we talk about, everything that we regard as existing, postulates consciousness.”
-Max Planck, A Nobel Prize-winning German physicist and the father of quantum theory.
Movement and distance between objects, and the inferred phenomena of time and energy, may be complete illusions. What if the universe is a static construct of pure consciousness and consciousness moves through its creation, producing the illusion of movement, like when we run a film strip of sequential photographic stills through a movie projector? If this model of a static universe is used as a tool for conceptualizing non-locality, quantum entanglement does not apply. In other words, cutting and splicing the static film strip to join otherwise unrelated locations in the movie can result in an illusion, embedded within the movie, of an instantaneous spatial jump.
The static universe model also simplifies the development of powerful technologies that use pure consciousness as their driving force.
The subatomic realm, where ACCESS operates at its core, can be considered the editing room for consciousness, where the static universe’s film strips are cut and spliced.
At the very least, quantum entanglement R&D efforts should be modified to evolve to the level of technologies that take a simpler, more direct approach to non-local communication and new forms of machine intelligence. Attempts to contain and directly control quantum particles reveal modern science's reductionist mindset. It is like taking the mechanistic approach of creating a self-aware computer from the software level upward instead of the top-down approach of infusing already-existing human consciousness into a simpler and more comprehensive system.
ACCESS is designed to have human consciousness automatically infused directly into it. This puts ACCESS in a class of its own, giving rise to truly self-aware machines that operate beyond the capabilities of A.I. and Quantum Computing technologies.
Searching for Absolutes in an Arbitrary Universe
Fixation on establishing absolute laws of physics and insisting that everything must be detectable and measurable by conventional devices to be qualified as “existing” is a paradigm that can be useful up to a point but limits science from evolving beyond that point. Focus on power, speed, quantity, and endless experiments and measurements in pursuit of absolute proof are aspects of this paradigm keeping mainstream science oblivious to being trapped in what future generations may come to describe as its self-imposed dark age.
Engineering a New Renaissance
An A.I. system requires a lot of electrical power to operate. Despite its computational power, it is not self-aware and scientists are debating if it will ever become self-aware, given its current architecture and mechanistic operational parameters.
ACCESS requires relatively small amounts of electrical power to operate. A typical ACCESS system can run for 20 hours on two nine-volt batteries. It is designed to interact directly with human consciousness at the subatomic level however, conventional computer technologies can be used by ACCESS to drive external applications like robot hands, vehicle controls, video games, etc.
To drive ACCESS applications, quantum computer technology may also play a role once it evolves to the level of being able to function reliably in field operations.
The point is that while neither A.I. nor Quantum Computing has a clear potential for expressing self-awareness, leveraging their respective capabilities by driving ACCESS applications can result in a technological Renaissance when people interact with, and infuse their consciousness into, humanoid robots. These will be human in every way except that they will be non-biological life forms, brought to you by the convergence of ACCESS and A.I.
Click Below for an additional article on Robots Becoming Self-Aware
Comments