Not that i've yet returned to the idea generation in full motion,
but just as a passing thought as I walked around the neighbourhood,
and because it is derived from my past ideas as a follow up,
here's another idea:
Do you remember the giant enclosure with glass panels for a city on different planets?
This can be used on Earth as a containment for specialized vegetation and lumber in colder climates. Because temperature and humidity, they can all be customized in that enclosed environtment. And combined with rain OR snow collection by plastic panels interlocked together welded, and spread out to cover most amount of surface area, snow can be melted in a grid if electrodes are to be heating it as the snow falls, turns to water and collected as a funnel, and this water can be recycled into that enclosure for species of vegetation. I would imagine places like Russia can benefit from that due to colder climates. Obviously these are based on existing concepts of containment, but where my idea differs is that, this enclosure is made by AUTOMATION. By robotics following tracks and placements, hence why they can become extremely large by volume. And also my design is novel to that. Following my space escalators and other ideas with use of robotics. And secondly, yes, the placement of plastic panels can too, be placed by robots and welded, and that needs no particular explanation, it is just identification of previous panels, placement, and welding, by its arm(s). But the difference will be that plastic can be cost-effective and lasting. Or even fabric of a sort like GPT mentioned.
2. On use of EUC, (electronic unicycle) I was searching for recently,
and combining that with an armor, that carries batteries on the back,
protruding, as to cover more volume, and holding its own weight,
because it is an armor, and the user isn't lifting anything,
a helicopter blade can be attached to the top of the head portion of the armor,
and within its rod, in the center, can be released parachutes WITHOUT having to
remove the blades and released when needed, as the hollow inside the center will not be affected by its spinning. within or outside,
that can make it more safer than helicopters actually, where if the engine fails, it becomes quite a death trap.
and then you have launchpad from duck tales coming to reality. XD
and no, i did not copy steve on the helicopter idea, if it had the same idea of blade removal.
it is just procedural coincidence.
what must be looked at, is the ideas on removal system, not the removal itself, which would be an procedural outcome.
but, my new idea on parachute contained within center of the blades can *may help it safely land.
it's just that helicopters has more angles of movements so, it may not be probable as it falls.
while a single manned flight can be predictable.
or better yet, if there is an emergency STOP button to halt the blades from motion altogether, then release the parachutes. That would make more sense.
3. Another idea I had some time ago, but I just didn't care to mention.
This is following my previous idea on fortnite location identifier.
Where a giant pillar in certain color can be seen through the screen of your phone,
that shoots up towards the skies. in the style of virtualization, like pokemon go.
do you remember that idea?
what is my next idea is this:
handheld watches, can be opened up with a cover. like pocket watches that holds their loved ones on the cover. Say if that cover, had a camera on it, on the outer surface and inside where the loved ones photo should be, can be a screen that shows that fornite pillar. and second screen where the watch should be.
and obviously, nowadays wrist watches can become phones. technology is small enough to be able to pull that off. and i'm sure wrist watch phones exist already, not as a smart watch that relays voice calls from your phone with bluetooth, but as a standalone phone.
the speakers and microphone can be at the back side of your wrist in the wrist band of the watch, the side of your palm. and you merely need to press a button to reciprocate a phone call where the camera is, but also a small touchscreen, and you just place it beside your ear,
and speak, and the microphone near to it can pick up your voice and you are talking.
additional to that, if the rims of the watch, that is where the buttons to the sides of the ring of the watch is usually located (the dials that change time and dates on mechanical watches)
if that rim can be used as a mechanism that spins around the watch, as a ring, much like a tire on a car,
and you take the phone off from your wrist, and grab the wristband, and place that tire on the floor surface and let it spin, by your hand moving it back and forth, left to right, spinning as a wheel, surrounding the watch core, like a fidget spinner,
FROM that friction, the phone can be charged. (in emergency situations)
but especially if the screen can be made in e-ink (colored ones nowadays) the energy input will be quite fast. within minutes it can be charged enough for few phone calls.
now text messaging is where the issue is at hand. no wrist watch phone can do that.
so. this is another idea. reverse order to phone to smart watch.
what if,
you had a credit card sized, device that works as a text receiver from the phone?
the 'credit card' opens up, folds out in two, and one side is keyboard, while the other side is screen on top like a computer. but. it is designed so that only text and email messages can be used. no particular app access, and just simple. doing its thing, to read and send messages from possibly an old style monochrome LCD screen.
This makes things quite convenient. You wil never lose a wristwatch that is attached to your wrist. And pheripheral like the creditcard text receiver, is expandable, not that valuable and you can lose it, and quickly replace it cheaply.
if anyone is trying to steal any of these ideas, they as the origins or collaboration, they are framing.
these ideas, obviously is a follow up from my own ideas from the past, and why wouldn't that be a reminder to their current attempted theft, why is it always a follow up after I come up with something?
because they are using it as an opportunity to create doubt. please remember that.
if any ideas existed, they would have said it prior to I, and even if they did, that would follow my previous idea in the first place.
so i have no worries on what I came up with before.
and the authorities must see that they are lying.
4. next is a more philosophy and guideline than it is design, but it will help i believe so here it goes. i've mentioned a variation of this idea too by the way, i believe. taking what one cannot assemble in space/other planets because those sophisticated components can only be made under certain extreme conditions, (such as that of a microcontroller and electronics) and use what is out there in that planet, its own resources to create themselves. by mining and processing.
to that, with the emergence of humanoid robotics,
i think it is time to try exponential scaling in space by use of A.I. But by use of A.I BY ITSELF.
Without the need for human beings.
So the idea is that, most basic raw materials as element, exist on other planets.
At least to the point of metals, magnetism, solar panels (usage of glass and reflective materials and wiring) be it primitive, can be made by those resource. I am not particularly confident about microchips, transistors and what not. electronic components. i think they need more variety of materials. although, that too can be refined with alternate materials, and designs that may prove to be inferior than what we can produce here, but enough so that tasks can be completed.
so in practice of mining, via usage of robotics,
for each assembly line of function, a robot should be dedicated in creating duplication of itself dedicated to that function (1) and then, after it created itself, dedicated to the creation of the tools that is required to carry out that function it its designated area (2). Whether that is handheld, or something as large as a vehicle.
So the goal to create a self-replicating colony of machines that is designed to devour a planet by its resource by itself multiplying itself. within x time frame.
so it would be embedded into itself, a certain programming of tasks to be able to do that.
and x number of microcontrollers that unifies all tasks given, once the attachments are made by the robots, such as that of motors and gears.
in a way, from a purely mechanical perspective, if I am correct, not today's technology with motors, but the days where steam engines were present, is more optimal for this self-replicating choice. much like the consumable chemical based guns, vs air compressed guns,
one requires consumables (sophistication/electronics by a commandcenter), while the other requires nothing but primitive design of usage of metals and ignition. although obviously the operator must have sophistication itself to be able to use that machine.
but by merit of design that can be created exponentially without requiring other consumables, older, inferior technology can be optimal.
if the goal is to keep on replicating itself and growing in number.
so what would that result to?
if successful in self-replication by use of the planet's own materials, the A.I won't stop until it devours the planet's resources. maybe the entire planet itself, by an exponential growth factor. So day 1 to day 10,000 = unimaginable number of a 'species' growing at an unprecedented rate. and that is the power of A.I which must be fully used...
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Ok. So sorry about my imagination going off the road, and researching with GPT.
But as you can see, if you go primitive and size and operational speed, isn't a factor,
even a brain can be made using indigenous materials of the planet.
And combined with yesterday's machinary that performs same functions but with different designs made for efficiency by today's standards (using the steam engines for instance)
self-replication, could be possible, but only issue here is that it would be confined to its own area.
until resources run out in that area.
so how to make it universal, wireless using indigenous materials is the next question.
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So there you go.
There is a strong possibility.
If we go more primitive and don't require portability. Making things big, gigantic, as a commandcenter/brain, but still, can be growing exponentially, by self-replication.
so say a small 'town' of colony of machines centered and wired around that commandcenter,
or possibilities of complete wireless is also there if we sacrifice size, and making it big.
XD
Self replicating colony, or more like humans vs neanderthals.
you are creating a colony of neanderthals as compared to today's machinary here on Earth, or even inferior, but makes up for its giant size and aimed function.
which is to simply self-replicate and devour planet's resources....
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*So if the 'brain' (that is the 'microcontroller') in its primitive form, will be the size of a barn,
and so will the radio emitter/receiver, and you want to make this mobile,
the sizes of the machines will be immense.
but these aren't limited by the natural resource consumed, you are extracting it for free from the planet itself.
and here also comes the necessity for giant humanoid robots as well.
question is, can robots at that size, replicate itself, by using other giant tools and machines?
well it is exactly same as smaller units if it works...
but to avoid complex parts, that requires more variety of elements, would be optimal, not for the giant robots, as they will need more axis of movements they may need servo motors and what not,
but for machines dedicated to digging and such, that requires less expressions but for a specific purpose, purely mechanical machines, such as that of use of the steam engine could be used to better replicate another machine....
if giant robots can do that also limited by its rigidity and more usage of gears, that would be something...
i don't think it's improbable, but it merely needs to be made here on Earth, once, after researching what materials the target planet hold and make them here on Earth with it.
Then following, aim for self-replication by humanoid robots and them dedicated to making certain tools as well as themselves....