Artificial Intelligence


See and read it all here and now.

Animation on the UPGRADE01A YouTube channel. Read other information here.

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The Slingshot crews were in charge of shooting gigantic ice rocks, and hydrogen encased in water ice toward the Earth, from various points in the outer solar system. Their aim was so precise, that the gigantic chunks would end up orbiting the earth, waiting to be picked up by the ice ships. This provided plenty of fuel and water for The Station at very inexpensive prices.

Slingshot crews were serving multiple functions, and they were assisted by a myriad of intelligent machines. The sling shots were constructed by binding together very long nanotubes, by the millions, into a mile-long “rubber band”. Computers and mechanical devices to control the gigantic cable are intertwined into the fibers, so that the rubber bands do not need to be attached to anything and is a self-contained system.

The gigantic cable slingshot machines are autonomous robots that know how to sling any rock, by utilizing their powerful hydrogen thrusters, so that it will reach the Earth with little likelihood of smashing to bits before it ever reaches there.  Jon’s slingshot crew would decide which comet or astroid field would be next and what strategy to deploy. Meanwhile, they researched and mined other precious material that they would eventually return with to Earth.

The ice rocks were constructed by special machines that attached themselves to comets and asteroids. The machines were designed to detect water, hydrogen and other valuable resources, extract the material, and dispense of it in the form of gigantic ice-rocks. Some of the material was saved for local use. Machines were designed with self-repair in mind.

Jon’s crew consisted of 17 humans, 23 very intelligent androids, and over 100 special-purpose robots. The craft reached its destination by traveling from Earth, accelerating at one-G from low-Earth orbit where the ship was constructed. At slightly more than 1/2 way to its current destination, the craft began to decelerate down at the same, one-G, rate. Ceiling and floor would exchange places, while the crew momentarily floated from one to the other. A computer program ensured that all went as smoothly as possible for the humans.

The ship utilized solar and fusion power to generated the large amounts of energy required to fuel its 19 ultra-modern, ultra-efficient ion rocket engines. These new ion engines were very light, because they were made atom-by-atom, and molecule-by-molecule from the latest, strongest, lightest composite nano-materials.

The engine’s magnets were the most powerful, yet the lightest ever built. Ion engines performance had improved several hundreds of times since their initial introduction in the late 20th century.

In addition to the ion engine’s, Jon’s Solar System-class ship was equipped with a solar sail. The solar sail, along with whipping around the giant planets, was another way to accelerate the ship beyond the one-G rate for relatively short periods of time. The more power generated from external energy sources, the better!

Most of the material to be brought back to Earth, along with a good chunk of a percentage of the ice and hydrogen, would be deployed for the next-generation, outer-space class ships. These new ships will dwarf Jon’s ship in both size and capabilities. Some of the ships were designed to reach prolonged acceleration rates of up to five-G and would be used to send machines only.

These next-generation machines will eventually explore the nearby stars, well in advance of the arrival of the humans in their one-G ships. All of the ships will be built in Earth’s orbit, several thousand miles from The Station, and communications satellites.

Jon and his crew were all candidates for one of the human star ships. By the time the first ships were to be completed and ready for launch, slingshot crews like Jon’s would no longer be needed, because the systems are expected to become completely autonomous within the next five years – well ahead of the launch dates.

It was a good thing that Jon and his crew all had had special DNA upgrades that would give them another few hundred years of life in high-radiation space. It was a good thing that the new materials were expected to block a good deal more of that radiation, although there was still no possible way of blocking all of it. In addition, Jon and his crew had bodies that were well-trained in fairly long three-G acceleration spurts, giving them a tremendous advantage over the vast majority of human crews.

Jon’s girlfriend remained on the Earth, but Jon had a replicant android with him instead. Mary could communicate with Jon through the android/cyber-bot interface. The android’s skin was cloned from a few dozen of Mary’s own skin stem cells. The android’s brain was initialized with Mary’s brain patterns, so that it contained all of Mary’s memories and life experiences. Mary had a Jon-bot of her own, back at home in New Los Angeles. The bot’s neural networks would update their patterns everytime that their host interfaced with them.

The unmanned and manned ships will reach speeds of over 600 million miles-per-hour, but some of the unmanned ships will achieve 97% of light speed, before decelerating to begin preparations for the humans and cyborgs.

The machines will construct a livable space station ahead of the people who will inhabit it. This “first” station will be built from materials mined from our own solar system on a remote, roaming planetoid, recently discovered just 3 light-years away from our home planet Earth. The rock is about 2000 kilometers in diameter, full of useful, raw materials, and traveling away from our system. It will be converted into a giant, roaming space station for humans and machines to utilize as a stepping-stone to the stars.

By the time Jon’s crew reaches the planetoid, it will already have been converted into a gigantic, livable, 1G space station. They will rest and work at the station for about two months before heading out again.

At each milestone on their journey, they are guaranteed living quarters, built by the machines that travel well ahead of them, along the way. New fuel supplies await them. They will first utilize hydrogen fuel upon leaving each milestone, to first kick into high-gear, before switching to ion drive. The straight hydrogen pulse allows them to achieve around 3G for about 5 straight hours, a force well within their enhanced bodies’ limits.

Each station is moving about twice the speed of the previous “station”, so that not as much energy is wasted, just to stop, and rest. Each station has velocity, but little acceleration.

The machines know what they are doing. They build while orbiting around rock planets, asteroids, or planetoids, whenever they can. They constantly grab up water, hydrogen, and many other elements to generate whatever they need, and to create a life support system. Replicated machines simply continue on to the next construction sight. Humans will tend to colonize these spots, as some of the ships will stop permanently, splitting off from the convoy.

Some of the other stations will be moving along at fairly high speeds (.1 to .5 of the speed of light), but not accelerating, so they must spin to achieve 1G for the humans. The space stations will act a good deal like space ships, in a giant orbit around our sun and half a dozen other neighboring stars, only they will not utilize fuel for thrust, except to maneuver. The machines will construct them while traveling away from the earth at high speeds, but no longer accelerating, or decelerating.

Newer technologies will allow for faster and much improved flight. Neutrinos now rush out of the back of the ion, and plasma hybrid drives. The newer machines will eventually catch up and take over construction from the outdated machines of decades and centuries ago Earth time. Satellites and data now whiz along together around the sun and it’s neighbors, in all directions. Electro-magnetic waves of all possible frequencies make up the spokes. Data can take years, but there is a pipeline of continuous data updates throughout the system. Eventually, quantum data helps somewhat, but progress was disappointing in that area.

Old technology, and some humans will eventually return to our system and may be studied or upgraded. More than thousand years will have passed on Earth, and Jon will have become pure machine by then.

In the beginning, technology flow will mostly be from Earth to the space pioneers. Technology and information exchanges will take place more and more bi-directionally, as the populations move off the home planet Earth. Over time, the Earth will gain as much or more knowledge from it’s colonies.

Mars will have become another biosphere and filled with people, should the machine, Jon ever decide to return.

At each stage, the machines and then the cyborgs, like Jon, will lead the way and pave the way for the other humans. Eventually, they will harness the power of entire stars and perhaps learn to warp space.

Eventually, many of the humans and machines merge so that the humans may survive on fewer recourses, and withstand longer, and faster, and more dangerous journeys.

It was beginning to look a lot like the humans and their machines might beat extinction for a little while longer now. There would be warp drive soon! The engine required the power of a couple dozen stars.

The machine, Jon, wanted to go! Now machines could build ships as gigantic spheres. Human bodies could be produced and live on the inside. Jon would be one of them! They would live and re-live their previous lives, along with many of the “what ifs?” at will, partially in a virtual world and partially in reality.  It was as if Jon had become his own, personal god!

Meanwhile, back on Earth, there were still fairly ordinary humans, living ordinary lives of only 120 years, or so.  As ordinary humans, these people were highly intelligent, but they were largely highly dependent upon the machines and more advanced humans for their survival.  They would all be considered wealthy, by early 21st century standards, but they lived as primatives. compared to the rest of the world.

“At least they were happy”, Jon thought.  Jon considered himself to be quite happy and he enjoyed the entertainment of ordinary humans from time-to-time.  Many wrote interesting music and poetry.  Others were tremendous dancers, painters, other types of artists, actors, and comedians.  Some tried to be scientists, but they simply could not keep up with the current state-of-the-art science and technology, unless they installed digital interfaces and added comlementary processors to their brains. Some worked on the police force to assist with human and human/cyborg legal disputes.

Jon wondered what had happened to Mary.  “Oh!”, he thought, as the data automatically flowed into his consciousness.  She had remained in New Los Angeles, until about three years ago, when she had died on a routine, commercial flight to the Earth’s moon base.  Now, the data was flowing around the Earth and the neighboring stars at near light speed, in all directions.  The data was transmitted like spokes inside of a gigantic sphere of near-light-speed satellites racing around the systems at near-light-speed.  Some data could be years old, and other data only hours or minutes.  The quality and amount of data coming from the colonies was on the verge of passing that of the Earth – at least this far out in space.

Jon’s human replica began to cry, as the Mary android sat there, stuck in less-and-less accurate simulation.  Jon reached over, and shut her off.

Version 2

Some feel that Artificial Intelligence (AI)  is just hype and will never truly happen.  They are mostly confused, because we can see under the hood at the details of AI programs, but we do not yet see such detail within the human brain.  Some will point to the massive, dumb searching techniques of chess game programs, or the emotion recognition algorithms in robots that then produce “fake” emotional expressions on their synthetic faces as evidence. 

Others will point to the overwhelming complexity of achieving true AI.  The brain or mind could never be replicated since it is simply too complex to ever be understood.   The complexity problem will be overcome by the age old “divide and conquer” technique with its progress driven by the market.  More complexity will merely move the date further out where true AI is finally achieved.

We do not yet see the details of how the human brain works, so we feel we possess true intelligence because the results of our work appears to us as evidence of our own intelligence.  Once we see the details, some may feel that all intelligence is an illusion, or re-evaluate their  notion of what intelligence really is.  

Much less than one percent of the processes in the brain ever make it to our consciousness.  Human beings are conscious of the high-level patterns produced by the mind-brain only. What we are conscious of is still a part of a causal chain that the conscious “I” did not start. Just follow the causal chain backwards another step, if you think you started something.  

If a thermostat were conscious, it would feel in control too. The conscious thermostat would be right.  It controls and is responsible for keeping the temperature at the setting.  The thermostat’s initial setting had a cause that set it in motion.

As we see more and more how the brain works, and it becomes common knowledge, then it will be obvious that all of the “tricks” that are played to make machines “appear” intelligent are no more tricky than natural intelligence is.  After all, we live in the same universe and are made up of atoms, just like any machine that can be created.  Eventually, the human brain will be replicated and surpassed by machines.

Parts of the brain can and will be replaced and augmented. The research and work today points in this direction.  Aging populations will demand it in the market place.  Biology and silicon will merge.  Eventually, every part of the brain will be replaceable by a man-made machine.

The human brain is extremely complex, yet it is routinely created by nature in about nine months.  The brain is grown, based on a set of instructions from DNA.  In the future, some machines will be grown based on a set of instructions from DNA and by other means.  An artificial brain may consist of parts that are grown.  Other techniques will surely be discovered.  Artificial Neural Networks may one day work as the core of the brain.

Market pressures will insure competitive approaches will be taken and an economical  solution will be found, if there is one.  Not having an economical solution simply moves the date out further where true AI is achieved.

The intelligent machines will be made of man-made biological devices, ordinary state-of-the-art computers, and hybrids.  The machines may be required to contain both analog and digital features, but this is not yet known. 

There are many recursive loops within our brain-body system. Massively parallel searching is taking place anytime an idea is retrieved from memory. Some memories take longer to retrieve than others, but a young, healthy brain is too quick to work without parallel searching, and the hardware (network or neuron cells) is there.

Our low-level processes are subject to exactly the same causal laws as the machines we create.  Our high-level pattern-recognizing consciousness, with our associated willful and intelligent choices must be what emerges from the low-level neuron-glial cell interactions: within the brain, as the brain connects to the body, and as it interfaces with the external world through the senses.

AI machines will evolve very quickly at some point.  It is not clear when that point will start. Some predict much sooner than others. Exponential leaps in technology are real, but the problem being solved may be orders of magnitude more complex then currently believed in the AI community. There is undoubtedly a wide range of opinion on this matter.  Experience teaches us that most useful goals take longer to achieve then believed.

“For the life of me, I do not see a single particle projectory, altered by the mind, where each of the mind’s particles involved in the the altering were not themselves already pushed by previous cause”

– The Altura AF7 Network

“It was statements like that, that caused you to fail the Turing Test for so long.”

– attributed to Trevor Lick

“John, while Jerry had had ‘had’, had had ‘had had’; ‘had had’ had had a better effect on the teacher”

– unknown origin. Both John and Jerry repeated it more than either “wanted” to.  Some stocks took a big dive for that.

“Choose one member from each set?”

– The first interesting machine question, Grif Lab Network, 2019.

[The details as to why that question is very interesting – coming from a machine will not be revealed here, within this blog or post; any time soon, if ever.]

Note: Go to the side bar on the home page and scroll down to find the latest posts. The mechanism that was working in the past appears to no longer function. It appears to take you to this post instead. Thanks!

Here are several posts that were created after this initial version:


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sieves-and-fractal-objects

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why-apache-jackrabbit

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brain-plug-ins

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water-plough

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cone-of-silence

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data-storage-by-element

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ted-talk-kevin-kelly

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freedom

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end-of-part-one

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the-fluke-worm-project

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music-jacobal-from-upgrade-01a

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Upgrade 01A; Part II, Version 1.7

(grammar, spell check, removed 'extra words' and will continue to modify)

Author: David Saxton Ullery

♣Note: Part I is here♣

Chapter UG.01A.01.00
[Water]

Imagine relatively high speed boats for travel between SD, New LA, and SF California. They are automated, high speed, low cost, safe.

You get out of the electric jet boat at your destination. The battery packs generating all of the power are of the latest, high density, nanotube variety.

Sensors on the boat tell the processors the current location, other boat locations, temperature, wind, other weather conditions, wave conditions, passenger location, current mass distribution, direction, speed, acceleration rate, ….

Boats tend to line up like birds when they can to optimize on the drafting effect. They skim over the surface with pressurized air squeezed under the center of the bottom of the craft and rushes out the back.  The boats utilize group think strategies whenever they sense one or another. The typical “V” will tend to spread to account for current speed.

Jets of water scream out of the back of the boat in five huge jet thrusts. The top two mix water with the squeezed air. They kick in during the mid-trip cruise period. SF to LA in 53 minutes plus.

Fast enough and considerably cheaper than rail.

No private car parking fees either.

The bulk of the craft, including the passenger compartment, floats over a current of air as the craft’s bottom three engines get the boat up to a minimum speed.

The sleek design is heavily dependent on the newly available, ultra-strong composite materials, with very large, thin and dynamically controlled water wings that constantly adjust to stabilize the craft. They act as shock absorbers and the energy is fed back into the battery packs. The boat flies over foam of water, waves, and air.

The ride is smooth.

The extra surface area that can be created when utilizing nanometer-sized components allows for a fractal-like layering of material with air.  The choppy waves are absorbed by the unique structure, thus the passenger(s) inside do not feel the bumps.

Stand on the moving sidewalk and start walking in the fast lane on your left. Move over to the higher-speed sidewalk. Walk fast to get up to 15 mph in the fast lane of the faster walkway. It’s good to keep legs and heart and lungs active between transports.

The end of the walk approaches and
those not moved into the slow lane will step to the skid transition or simply over to the transition walk.

In the reverse direction, one is free to walk straight to the fast walk in a similar way. Slow walks have multiple exits to the sidewalk as well as multiple entrances and exits to the fast walk. You are very familiar with it and seem to enjoy transitioning effortlessly from one belt to the next, passing the slow and idle passengers on the way.

You exit the walk at the Space Tube station. Space craft are accelerated inside of a 500 mile, near vacuum tube over a magnetic rail system. They reach escape velocity in the most economical manner, with considerations for total mass and cargo. Human cargo is delicate. Water and supply cargo generally is not.

Other people continue on with some getting into high-speed, automated ground vehicles of various kinds. They automatically line up with one behind the other, and travel down a narrow, virtual road; very light weight due to carbon nanotube composites. They utilize group think networking too.

Toward the end of the rail, is another 20 miles of acceleration in a parabolic curve toward the sky. The tube narrows as the track ends. Of course, by this time you are much further south, than when you first started, and headed east, to take advantage of the extra velocity boost gained, by being closer to the equator and heading with the earth’s rotation.

Hydrogen plasma high-speed, strobe pulse engines kick in, from within the launch tube, so that mass need not be added to the ship. It is gently pushed from behind and the passenger seats adjust, to smooth the experience for the passengers. The timing is flawless and very fast, as high-powered lasers burst and instantaneously focus just below the craft, orchestrated by the sophisticated software systems in place. Tiny hydrogen jets are instantly converted to their plasma state by these focused bursts.

Powerful, and very fast bursts of electromagnetic energy is generated to provide power to both the lasers and the rail system. The lasers are switched on and off and so are the magnets lining the rails. Any function that can be provided by the tube system is, in order to lower the cost of extra mass on the craft itself.

Fresh, pure water rushes down the tube as the cooling hydrogen quickly combines with the oxygen in the newly supplied air near the end of the tube.

Massive amounts of pure water is collected at the bottom, just as the solar paint coating the outer surface of the tube assists in power regeneration by partially morphing its shape for optimization within parameters, as the craft exits.

As if all is connected in instantaneous triggers

Too fast for human minds alone to comprehend.

At the tube’s exit, the ship smoothly transitions to it’s ultra-light-weight rocket powered by highly compact nano battery packs capable of generating a modest, but constant acceleration rate for up to 31 minutes.

Passengers cannot help but feel smooth, but considerable acceleration toward the end of the tube, for about seventeen seconds, but it is nothing that a healthy body cannot easily tolerate.

The ship exits the tube where the air is thin. The rocket engine joined and linked with the craft at the last moment, at the end of the tube. There is always one waiting for passenger flights and the few freighters, mostly older (and always smaller) that utilize this tube.

They slide into place at the back of the craft much like a ring slides on a woman’s beautiful finger at a wedding. In either case, There is always much preparation and care in the planning and execution. Neither is taken lightly.

The linking mechanisms are very quick and dynamically adjust, test, and verify all seals before ignition.

Before the link, the bullet-like ship, with a concave curved back, forms a near seal in the tube, but leave a minuscule gap to avoid friction. The effect of the pulses is maximized in this way.

Most of the heavier, bigger freighters (at this facility) launch in a different, nearby, parallel tube, and are accelerated utilizing much larger amounts of a special hydrogen plasma-based fuel compound ignited by powerful, highly-focused lasers.

Your craft drifts directly to it’s destination with plenty of power to spare for any minor corrections that may take place, and for docking to the Station. It is a long flight, but it is comfortable when you can afford the better seats.

The craft is constantly in recharge mode once docked in the direct sunlight. The protective shields are lowered, the treated water shield is drained, and the solar paint is fully exposed on all usable surfaces. No need for this craft to utilize Station power today. Much of the craft had enough exposure during the flight to partially recharge, but only about 3% was recovered.

The public area on the Station is huge. There is a park with a small fresh-water lake. Water also blocks some of the cosmic rays. Filtered sea water is used for this purpose.

Wetware is used to help repair damage from DNA. Passengers casually rub the lotion in their hands before takeoff. You can even get some with aloe. Another lotion deactivates the wetware after returning to earth.

The Station rotates to provide gravitational substitution, so that bones do not deteriorate, but nanobots are available for monitoring and delivering calcium and stimulating bone growth. Better ingest a few to monitor, just in case. No harm done.

A spectrum exists: from human to cyborg to android to machine that stretches out with an array so large that the distinctions blur. Yesterday’s cyborg, with few augmentations, may as well be known as human today. People may sometimes effectively transition from one form to another and back again by transmitting their unique human patterns as digitized data streams.

Artificial ears replaced with new ears booted up from stem cells then augmented with more sensors that may selectively listen to other sounds of bees or whales or bird songs. Eyes with similar cycles are able to see beyond ordinary human spectrum. Progress continues on to provide the engine that feeds these cycles.

Global warming melts the ice. Sea water generates fusion power, supports sealife, generates power from the sun, absorbs carbon, and gives off oxygen.

Water is easily purified by nanotube filtration and is obtained from space tube launching exhaust reactions, glacier melt runoff, and directly from the large water plows that filter, transport, and deliver as needed. Fully automated, powered by solar and high-tech sails, these ships are true wonders. They absorb carbon from the air on their journeys between the Great Plastic Junk Heap and Africa as a kind of parallel “service”..

Valuable, protein rich fish are identified and captured by fish recognition nets. Intelligent algorithms assure ecological balance and seemingly endless supplies. Some fish are cloned and grown on farms for more efficient food resource purposes. Some end up very very far from home on plates and aquariums on outposts in space, but they often arrive as simple, light fish eggs.

Dead plankton, live plankton and other tiny sea life are utilized for their parts. The dead machines are replace for artificial purposes. Stuffed full of tiny processors.

Life is reprogrammed, rebooted, rearranged in countless ways.

Endangered species in the sea are identified by the great nets. Some are automatically tagged, others are captured alive for study and release. The vast majority of the sea creatures pass through the sensors, making up the net, unharmed.

Africa is provided with vast quantities of fresh, clean water and protein in exchange for cooperation for generating solar power and fighting world pirates, criminals, and terrorists. The war paradigm is no longer distinguishable from ordinary violent criminal tracking and capture. Targets are highly specific.

Collateral damage is minimal. There are one or two or maybe 3 victims in any year. Still too high some say.

Open source software, music, art, science, and math dominate the market. People must push buttons or talk to perform their jobs.

Sometimes, a lot of thought is required to know which button to push or command to make to the machines. Research is highly integrated with technology. Pushing a button may produce vast arrays and networks of activities and sub activities.

You arrive at the station and settle into your timeshare living space. Your online intelligent agent checked you in an deposited your last payment.

The view of the new lake made the payments worthwhile. Jacobal should be arriving soon. Chasey’s daughter was understandably anxious about her dad. She unpacked her new aerogel high heal shows to get ready to go out. They reminded her of her mom’s coffee table that her dad, the General (The Libertarian King was his nickname for a time), had accidentally smashed to bits.

Janus was tired after her two trips. She had been traveling now for three days, including the trek more than half way to the moon. The ship mostly drifts. A great deal of power was used just to launch the mid-sized craft.

Lately, water was the bulk of transport mass…

Now, there is clearly a disruption of sorts in the status quo. Everything just did not add up.

The General was clearly attacked. Perhaps Jacobal was too! Or so thought Janus.

Janus was curious about the new UG.01A install in Jacobal. Apparently it was unharmed.

Janus had remembered that one of the rebuilt units her grandfather, Trevor had been counseled by testified: “no two units are alike anymore.” and “the first decade of last century was the last full decade of relative, non-integrated, not fully automated technology – where the foundation was not in the current state -the status quo was very different.” at the disappearance hearings.

Janus never forgot the odd incident her mother had gone through years later. Even the General was involved, had met her mom and that was that. Janus was alive!

Shields of that type were so new then. Nobody could quite believe that such a technology was already available and in use.

Nobody knew back then that a mind could be manipulated by means of a tiny radio drone hidden inside of a cloak. The drone device itself was only seventeen by thirty one nanometers with the cloak only slightly larger.

She was wondering what it was that nobody knows now… today … this second. She wondered if her grandfather would know if he really is still alive. She wondered many things right now.

Chapter UG.01A.01.01
[Sex]

She was wondering what joys Jacobal would bring as their bodies join, more than what information he has to offer right at this moment, in spite of her fears for her father and Jacobal. She enjoyed dancing for him in her shoes. She decided that she must have an aerogel fetish. She was a traveler, a dancer, a pioneer, and a free thinker. No qualms and plenty of grey matter, silicon matter and sex drive to please Jacobal.

Real travel was great. It was such a joy to have that extra kick of knowing for certain that you are actually, absolutely with someone in the most direct, non-virtual mode possible. You just melt together in the most complete of ways. Virtual joining may be combined and was often fun to introduce a nice mix in. Pleasures may reach a certain peak, and soon introducing more does not add much – diminishing returns. We extend and augment and rejoice, but the wall returns, if not just a little bit further down the road. We live to enjoy again another day.

Why is it not boring?

This pleasure thing.

Repeat, Loop, Repeat again. For how much longer? To what extent?

At what point are we slaves and should we care? We have but one life. Do we not? Go with the flow! Come together right now over me!

or something like that, she recalled (some old song her grandpa liked and played for her).

The meeting place was great. Real Chopin played on a real piano with a real pianist.

Great food!

Exotic dancing was fashionable here in this little place.

Bring your own, meet them here, or one will sure to drop by if you are a single male or a single female.

Jacobal walked in, and walked over to Janus. The room was too dark for eyes to adjust – ordinarily, but those days were long gone. No more searching for ones love in a dark room, unless you turn virtually everything you own off. Janus and Jacobal liked to merge initially with augmentation off. It had a more lasting and prolonging affect on their long-term relationship. Start slow, then build up and make meetings have meaning. They both felt that the brain was the ultimate sex organ and size really did mater.

First things first today though. Jacobal transfers the protein coated digital information that details the entire processing of the merged thinking of Jacobal with Upgrade 01A to Janus on their first kiss. Janus must pause to absorb it all in. She is shocked, but still driven by her passion. There is no escape or turning back. It is best to pause before acting on this anyway. Might as well go ’till all has drained for a reasonable delay before the cycle must repeat.

This time, there will be a total of eleven wonderful days together. Or so she thought and wanted and hoped. Jacobal already had plans. She knew that from the invisible protein cap. Her eyes close, and she fell asleep. New information unfolded that neither Jacobal nor Janus could have known about. It was hidden away – a private package within a private package. Janus dreamt of fractals.

Chapter UG.01A.01.02
[Blood]

Jacobal Lectomen dreams of plans. A cloak, a sprayer, lighting adjustments, location, time, the surprise to his opponent, and a station copter – all in sync. As architect team lead and having powerful connections, Jacobal was confident that he held the advantage. The target would not be able to resist showing up.

Janus woke to find Jacobal already up, and was delighted to find a perfect, sphere of pure gold in his place on the bed, that she knew came from the ocean filters. Jacobal appreciated the technology that went behind retrieving and forming that perfect sphere. Now Janus had three of them. It was becoming interesting. Not knowing if or when another might be found there.

Jacobal just cut himself while making breakfast. He enjoyed working with eggs, cheese, green onions, garlic, a tiny amount of milk, chopped mushrooms, and sometimes salsa.

A drop of blood dripped from his finger. He was not being mindful. How could he be sure to be mindful at the critical moments in his plans? He turned the labor over to the kitchen machines, walked away and plopped down on the nearby chair. His head was buzzing with data at so many levels and he felt tired still. He thought of Janus looking at the gold sphere in his mind’s eye. He smiled. He wondered why the image in his head was so clear and real.

His finger immediately began to heal itself. It would be better by the time his breakfast was served. The equipment and furniture was still fairly minimal here, but it was adequate. It was located in the newest, habitable, civilian sector of the Station.

Jacobal would meet the representative later today. A tiny clump of 11 potential cancer cells died in Jacobal’s prostate. Zapped by a suicide nanobot wrapped in a DNA bomb. Jacobal scratched himself. Breakfast was served.

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science fiction

philosophy

Combine narrowly smart systems into a single, new system, with the capability of context switching.  For example, the system may be playing chess, and asked about airline reservations.  The “context switch” detection software will order a process to save the current context of the chess game, and switch to checking out airline reservations.

Now, imagine “growing” the systems to switch over four, then eight, then sixteen different “highly specialized” systems.  Further, the system can reuse algorithms that are common for different strategies.  For example, the chess-playing algorithm may have a search tree that has general-purpose needs.  These algorithms will be shared among various “specialty systems”.

Today, there are currently hundreds or thousands of programs that are designed for “highly specialized” purposes.  The context-switching algorithm could gradually learn all of these and more.  In addition, more and more new applications will tend to reuse existing algorithms.

As the system evolves and grows, it will become more and more of a machine with Artificial General Intelligence.

The following is a long list of brainstorming ideas.

Idea number “0” is of fundamental importance and serves as a basis for the remaining concepts, although they are mostly not directly dependent on it.  My belief is that without at least acknowledging the individual, there is little point in carrying on.

Post Update Note: If a concept interferes with basic individual liberties, these concepts need to be re-examined. Perhaps the spirit of an idea did not translate well into words at the time of the writing, or the contradiction was simply not apparent, due to the nature of  ” brainstorming” as applied on this blog.  Concepts may only sound good in a superficial way, or perhaps they stray from original intentions.

Needs more editing, but there is no time.

0. Part A.  Individual Liberty and Misplacing Blame

Do not blame “the free market” for the problems of this world.  A true free market does not exist.  A free market is what results when people are free. It means that people voluntarily exchange goods, services, and ideas. It means that the people involved are not committing fraud, stealing, or utilizing coercion in any way, shape or form.

A moral society demands that all individuals have a right to their own lives, their own liberty, and their own pursuit of happiness.  It took each of us 13.7 billion years to arrive, and we are here for a short time.  No individual, or group of individuals should be so arrogant that they feel that they can morally impose their will on anyone else: Not Ted Kennedy, not George Bush, not Jesus, not Jacobal Lectomen,  nor even Upgrade01A .  Nobody and no machine, no matter how sophisticated,  is qualified to know what is best for you or any individual; only the individual can decide.  The individual is ultimately responsible for her actions.  Not even the “majority” of people have a right to tell you what to do, because that is just mob rule.

To prevent people from stealing from other people (by taking their wealth or by interfering with their individual rights of life, liberty and pursuit of happiness), I propose that we set up an institution that is designed to prevent that sort of thing from happening.  This institution will replace or serve as a modification to existing governments.  This time around, let’s place limits on their power (those in charge of running the institution) in very explicit terms, since the institution has a unique monopoly on power in that they have the authority of the use of force in order to pursue and capture criminals.  Such an institution, with those awesome powers ought not be involved in other activities, less they use these powers on corruptible ways.  So far as I know, this concept has only been tried one time in the history of civilization, but the mistake was that too much power was granted to it, and too many loopholes were written into it’s contract (it’s constitution).
The truth is, regardless of what type of society we have, we need some way to manage criminal activities, thus the same issues and problems and imperfections will apply, so that should be kept in mind when criticizing any plan.  All systems have the core issue:  “better that N guilty people go free than  to have M innocent people unjustly punished” There is no way around it.  The ideal that has so far not been achieved is to set both M and N to zero.  That is the ideal goal, but is not realistic.  Realistically, for M to be zero, N will be 100% (no institution) and the reverse is true (totalitarian) with M at 100% and all of the guilty holding the keys, guns and whips.

If we cannot protect the minority of the individual, then we have no hope of protecting any minorities, not the least of which are the poor, neglected people in the third world.  A large group of individuals.
Part B.  Consumption Costs and Taking Responsibility for One’s Actions
Something like 80% of the cost of virtually all products consists of the cost of energy.  Since all individuals have equal rights, then each individual is responsible for paying for the cost of any energy she requires in order to produce any goods, services or information.  Once she has paid for everything associated with it’s production and gas done so without violating the rights of anyone else, she has the right to do whatever she likes with what she has produced, including trading it voluntarily with someone else.  If anyone interferes with that process, they are immoral and arrogant.  It is at that moment, when the institution we have set up may act.
Now, suppose an individual decides he no longer finds any value with an item, and he decides he would like to dispose of it.  Of course, he is responsible for paying the cost of disposal.  He may find that there is a disposal service that will dispose the item.  The disposal service must do that without interfering with the rights of others.
There is no requirement for any individual to consume more than they freely choose.  They may choose to consume only small amounts of food and large amounts of information.  Only the individual has the right to decide for herself.
Individuals are free to negotiate the price of any goods, services, or information, including giving away the items for free, if they so choose. I do that, for some things, as do most.

1. Encourage telecommuting  (I am working from home at the moment, and my company encourages it).  You save lots of energy and resources that way.
2. Reduce interventionism, starting be pulling out of Iraq.  Gradually phase out intervention in the 130 or so countries we live in now.
3. Create charities that help people live in their own countries.  The Bill Gates Foundation is a wonderful example of this, where the foundation is working on wiping out malaria.  Warren Buffet, Obama’s chief economic adviser is the largest contributor (other than the Gates family).  Most of these countries need plenty of pure drinking water, which I get to later down my list.
4. Legalize Hemp.  Legalize medical marijuana.
5. Teach children around the world how to use the internet to do research.  Follow the model of MIT and create free, online, open source schools with language translation software, high-speed connections.  Encourage “out-of-the-box” brainstorming and thinking.  Encourage ideas like the ones here, some are good, some not so good. Some will stimulate other ideas that will work better.  We should no longer be restricted to working in one narrow field.  All of us have ideas.  Some will spark others.  Let the memes replicate!!!!  Let them mutate!  Write open source storie!  Write open source poems that include links to other ideas including music, science and poetry! Write open source philosophy!  Make your own movies and tv shows! Think of new ways of storing and manipulating data.
6. Come up with ways to create products directly in the home or at something like a Kinko’s.  Print your products and contribute to the design.  Print your own chairs.
7. this is an idea I have been thinking about by integrating various known technologies:  Instead of pumping carbon into the air, when burning coal to generate electricity, for example,
(a) pump the pre-scrubbed gas directly into a large cavern under the ground.  The cavern will be quite large and deep.  The cavern may contain an algae pond at the bottom
(b) punch thousands of tiny holes at the top of the cavern over a few acres of land so that the gas may escape over several locations spread out evenly.  There may be
air pressures involved, causing gradients that may be exploited for additional energy recapture.
(c) Populate the ground above the ground with carbon-loving bacteria and thousands of soil eating earthworms closer to the surface.
(d) cover the ground with a ground plant that loves carbon
(e) cover the ground with trees.  research the best trees
(f) cover the roof of the coal plant with solar panels, if they are efficient in the area where the coal plant is, which should be built very close to the actual coal deposits.  Use the
solar panels to generate the power consumed by the plant itself
(g) float helium-filled generators over the roof, at least 300 feet above, to the height where the wind is always blowing to generate additional power.
(h) supplement the trees with air-carbon extraction units.
8. Another idea I have thought about: Build a fish-recognition “net”.  Just as Las Vegas Casinos, have very sophisticated face-recognition technology, we could develop fish-recognition software to do this.   High-protein, common fish would be directed down one path.  Fish of interest to scientists would be sent down
another path (very wide tube).  This path can be activated and deactivated so that it captures only a certain number of fish of any kind desired.  Endangered fish and dolphins could be directed into another direction.
9. Stop corn subsidies since it is a waste and based on the same logic as a perpetual motion machine, stop tobacco subsidies, stop water subsidies to alfalfa growers in California.  Not only does the alfalfa suck up a lot of water, since the farmers can get their water on 10 cents on the dollar, it makes red meat much cheaper which is bad for health in large quantities.  Animal-based food is less efficient than directly eating plants.  Cutting off subsidies will automatically be reflected in price differences.  Meat will be more expensive
10. Utilize ocean water for the toilet facilities that are near the ocean.
11. Recycle water like the Toyota Financial Services facility in Torrance does.  They filter the water and reuse it to wather their landscape and to use in their fountains and toilets.
12.  As we pull out of oil producing counties and as we use up more oil, the prices will naturally rise.  Once it hits $200 per barrel, then solar power technology as of the year 2000 becomes economical.   Surely the progress in this field is improving so that the newer technologies will become cheaper and cheaper.  There is much work in this area, where the entire spectrum of the sunlight can be used.
13.  There are new and improved technologies that are much more economical to desalinate ocean water and others that can use any water (see the guy who invented the Segway’s invention).  Utilize these technologies as a carrot to countries in Africa and Asia to help find terrorists like Bin Laden.  The point is to encourage the capturing of criminals and discouraging the bad war paradigm that does not work.
14. Since Global Warming will cause the ocean levels to rise, we should be using technologies to help us remove this excess water and make use of it.  One is converting the ocean water into drinking water, another is capturing the minerals such as salts and gold using nanotechnology.  A giant space station will need billions of gallons of water to protect life from gamma ray and other cosmic ray bursts.  We can build electro-magnetic rails inside near-vacuum tubes that will have very low friction to create extremely high-speed rails to slowly increase the speed of a rocket full of supplies, such as water, into space. The external engines could be attached to the end of the rail launcher and attached to the rocket at the last moment.  The launching tube could be several miles long, on the equator to exploit the high speed of that location due to the rotation of the earth.
15. Private space exploration can retrieve Helium-3  from the moon and economically harnessed to generate non-radioactive fusion power (when combined with with deuterium – FROM THE OCEAN mostly)
16. Build a city on the ocean to integrate many of these ideas.  Oceanographer would work side-by-side with other scientists to study the earth’s ocean, extract deuterium, generate wind power, develop new battery technology, capture protein from fish, purify drinking water, extract hydrogen.  The city would be a series of specially design craft able to link together and separate, so that many parts of it could move to different areas.  It would be situated outside of major storm areas.  Microorganisms could be filtered, captured and converted into nanomachines of various types.  The city could be covered with solar nanopaint.  Windmills could be covered with solar panels and used as another type of hybrid energy generator.  They could be attached to new battery technology or air pressure chambers – both can store energy for later use.
17. Exploit resources on asteroids.  Start by going after the ones that are close to Earth and may someday threaten the Earth.
18. Exploit resources on Mars, on comets, on Jupiter’s moons.
19 Utilize already existing technology to project holograms of people so that they need not travel to give presentations.
20. Synchronize traffic lights and include integrated technology inside cars. Have the cars slow down, but avoid stopping as much as possible. Synchronize the cars so that they do not need to stop most of the time.  Volvo already has breaking technology that could be adapted for this.  They use AI neural nets modeled after dragon fly brains that are used to avoid collisions by automatically applying the breaks.
21. Put motion detectors on street lights, so that they need not stay on all night.  One motion could trigger a chain of lights in front of the driver who may be the only one on the road at 3 AM.
22. Utilize technology to eliminate the need for assembly line technology.  Use little robots to move the inventory around.  This is already being done in some situations
23.  Develop a robot that can put a pillow case on a pillow.  Develop a robot that can change the oil on your car and do simple repairs on its own.  These are two hard problems, much harder than playing chess or even walking.
24. Have electric charging “slots” at traffic lights.  A little latch (like a those on a slot car) can lower itself down and recharge the car while it is waiting.  Wireless recharging could be utilized even cheaper.  This is new technology that is almost ready for prime time.

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