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Thursday, October 31, 2013

Brain Cortex Time Travel Part 12

Can machine jar brains time travel?
HOW TO TIME TRAVEL
USING A BRAIN CORTEX

WHAT ABOUT THE CARE AND FEEDING OF THE CORTEX BRAIN IN A JAR?

The Lab has studied many techniques of time travel which encompass the construction of powerful gravity harmonic machines, traveling faster than one tenth the speed of light, working within the proximity of a black, and utilizing quantum effects to gain access to the future by dilating time at the subatomic level.

FOUR METHODS OF TIME TRAVEL
Yet, there is a another method to travel through time, often discounted and overlooked by scholars. If the traversing of time is at the rate of 1X, then any perceptible vessel or entity, living or not, will endure the ravishes of time travel.

PROPELLING INTO THE FUTURE Barring catastrophic devastation and dilapidation, an object, machine, or person can be propelled into the far distant future by simply taking and passing one day at a time. Nothing new you say? Not quite. With new machines that have greater longevity, and some on the verge of perpetual life or immortality, travel into the far distant future may become a reality a lot soon than we expect.

ADVANCES IN SCIENCE ALONG THE WAY
Don't discount increases in longevity due to advances in medical science and curing disease, repairing cells, and advancing medicine through nanotechnology. Additionally a greater understanding of AI and machine intelligence will enable longer living machines. Such may be the case with the Lab's current project, the Brain Cortex.

ENERGY
The cortex is designed to live longer by self sustaining battery technology, however, we are working on an energy source to replace the batteries to improve energy source longevity and reduce any schedule of maintenance. Currently the source is trickle charged automatically through the use of indoor solar cells. The cortex could, conceivably live much longer than average electronic devices.

INCREASING CHIP LONGEVITY
To increase chip longevity, we've installed an array of various capacitive circuits, including decouplers and filters, and wired crisscross power circuits. The distribution is smoothed and we've made it easy to replace batteries at the end of life cycle, perhaps one or two years. We also anticipate future technology upgrades, all of which contribute to greater longevity.

YOUR ROLE OF KNOWLEDGE IMPARTATION
As the project is designed to impart your knowledge and personality into the cortex, i.e. duplicating it, and induce an amount of longevity greater than a human life span that will cause a small part of you to live longer. When the machine achieves immortality, a small part of you will also. This cycle can time travel far into the distant future.

CAVEATS
The real caveat is when you die and someone throws away your cortex jar in the garbage. People around you will need the proper information so they know the value of the cortex and what to do with the jar when you are no longer around. One option is having it donated to a brain science institute where human brain research is being conducted by people and scientists with similar interests, though this is no guarantee. They'll need to know there is a small part of you saved in the jar, and your wish is to have the jar kept, maintained and preserved, and handed down from human generation to human generation.

HOW FAR INTO THE FUTURE? How far into the future will this technique allow a machine to travel? We don't know exactly. It's likely something will become obsolete, like batteries, or the polymer substance will degenerate in a couple hundred years, but with proper maintenance and replacements, the cortex could live on.

ELECTRONIC BRAIN CORTEX IN A JAR
THINGS TO INCREASE TRAVEL FARTHER INTO THE FUTURE

* Autonomous functioning
* Self renewing power souce
* Minimal maintenance
* Seldom requires maintenance
* Multiple backups of programming code
* Backups stored on multiple media sources including paper printouts
* Method to replace and upgrade batteries
* Methods to test the cortex over time to assess its health
* Sensors for temperature, humidity, battery condition, voltage
* Maintenance and proper use of recharging solar cells.
* Backup processors and hardware components kept with jar
* Instruction manual on use and maintenance
* Owners will and testimony to jar cortex keeping
* Safe keeping to prevent catastrophic events
* Periodic check periods
* Hardware backups to include the jar, board, holders, etc.

Brain Cortex Index Part 16