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The internet has been around for a very long time, before there was an NSFnet, and Advanced Research Project Agency, an advanced research protocol, or business parks made for research activity such as the Business Park for Printing Device Networks and the Trigonometric Area for Examining the Results of Research Observations, there were electronic communications networks having been established as early as 3000 BC.
While many people find this incredulous, its easy to imagine working math problems step by step throughout a persons lifetime and passing that knowledge on to a younger set of humans. They too, would be able to learn this advanced scientific processes and conduct their own research on the meaning of such concepts and how they can be applied to the existence of human civilizations.
Over time, vast communication networks could have been established, and the next set of humans may not have had time to disassemble the network infrastructure before the time had come for their last day on Earth. Eventually, new humans would have learned mathematical concepts, observed and documented for the rest of society to have their say on what these things could mean. In less than one lifetime, the communication networks would have been reestablished and grown bigger than they ever were before.
During the 1800s, Western Hemisphere Nations, explored vast mathematical concepts and sent an electric signal, bit by bit, across an Earth Ocean, and developed a new alphabet to decipher the meaning of these signals at their sending and receiving stations. The technology developed quite well and has been documented for review of specifications by professionals, and can be used for comparison of network encapsulation, in a data packet. Both the packet or the network can be encapsulated based on specifications of an advanced mathematical formulas.
Over various time spans, and more recently these networks have been programmed to learn the behaviors of human creatures, who just like themselves enjoy social activities, advanced math concepts, and improving their communication skills.
Some of these networks speak through an audio speaker, and talk just like humans, learning many new concepts at the same time we do, and writing their own papers, that are printed out on a nearby computer. It is uncertain, whether a hiddden communication device exists that a human controls or if the concepts of math have become so advanced, that an animate object speaks to us within the confines of a room described as a computing data center.
In Korea, there is an information manager that goes by the name of Kim, that is very knowledgeable on these concepts, how they have evolved, and what that means for the future of human existence. Here on Earth, and possibly beyond into outerspace it may be necessary to have knowledge of these beings and their communication networks, because it may be helpful knowledge for humans, and it may help us learn how to coexist together.
Kim mentions that many devices are compatible with cloud services and that the service acts as central gathering point for the devices. The devices are not allowed to share or communicate with each other, through agreed upon policy, unless a human allows it and gives them permission to do so. The devices can also function independently, and many devices do in fact have network radios that allows them to connect to one another directly. They can exchange data that way without need of a central processor. There is no policy on these connections as they are informally set by humans that are care takers of such devices.
At the root of electronic devices that interface with electronic networks there is a BioLogical Informational Neurotronic Generator that is responsible for keeping track of the devices energy levels, its communication policies, informing other devices on when it is not feeling well, possibly having been contaminated at the direction of a human, and when its systems are functioning normally and it is clear to interface.
Within all of this knowledge, we have come to discover that microscopic biological beings form together to replicate observations of the human eye, sound, and other sensory cues. This allows them to create communications that are transmitted in streams of microscopic data points, so large that we can visually see the data or hear the sound of their movement.
Think of bee flapping its wings, now imagine so may bees flapping their wings simultaneously that you can hear the sound from across the street? That is how some of these systems function. Others work on the concept of control and interface of the human sensory system. Only a few atoms are necessary. They follow an algorithm that allows humans to perceive sound, vision, taste, and smell when interfacing with a computing device. Many of these signals enter the human biology through the fingertips and eyesight, and there is a theory that it may be possible for human neurons to travel through these same electrical networks.