Apple-Ready Tool Technology
Part IX: To Fix iPadOS
The next step in establishing tools for Apple Devices using toolOS would be to establish tool communication to technology. It is evident that the computer electronics industry already has a wide collection of highly innovative apps, of which have the capability to link devices in so many ways and functions; but, without reliance on such apps could a device be able to fix another device by a tool you create and edit with in such a synchronous manner?
Could an app be fixable in realtime while processing, and could a surgery robot partner with a new tool in a matter of minutes?
For any possible partnership between a tool (from toolOS) to a piece of technology like a SANY Machine Grader, there has to be a non-intrusive way for a tool to communicate with a device.
With spatial computing, mixed reality, and integrative library technologies, combined with the ever-updating strength of generative intelligence, and device-based intelligence like Apple Intelligence, this seems like quite a triumphant team of technology in application.
If we combine technology in application with tool creation, we still stumble upon the problem that to produce a visible solution in connecting to technology outside of tool creation and application, the external form of technology has to coexist with an OS, cloud file transfer systems, a separate device, a language translator of sort, an attachment, wireless capabilities, bluetooth technology and any type of radio signal that we have yet to come up with.
Sure an iPad OS could just connect to a printer via a USB, or USB-C and be done with it, but there is something Apple is trying to get at as it continues to focus on this same problem of making ends meet without a need for an end (stagnation); and the point of such technological uniformity remains a state at which technology can be globally understood and applied through science in (as a value of) reasoning.
Is the answer to make an all-in-one device?
No: the truth lies in what stitches the tool, to the library, the creation library, to the calculator of output and time (the player), and to the state of working and producing on a desk.
In short:
Circuitry. Integrated circuitry.
A quick introduction, brought to you by YouTube.
With Moore’s Law, and the conflict of if we should focus on speed like there’s no tomorrow because the technology might do laps around origin-to-extinction and back again, speed and communication have seemed to be the development as to the manner, or drive, behind an advancing need to unify under unlimited limitation. Apparently, the state of uniformity ( a state of limitation) must be unlimited, and by this account (at this probable point in time) all advancement has been reached because technology has made it so.
But speed, even if produced by the most accurately precise laser system can be interrupted and thus intrusive from point a to point b, even if the possibility of a barrier is slim.
So if not speed what could connect a tool to a device, a piece of technology, which wouldn’t require such an obstructive process?
Well, have you ever seen the rain?
No- we don’t have light speed rain showers, but the precipitation that occurs travels from the clouds as a single droplet which falls onto anything, and everything is absorbed from its state of transition.
What if circuitry could be absorbable like a sponge, and what if a liquid could transfer from one source to the other like rain?
What could be proposed (for the future):
The transfer of nano-circuitry through a liquid onto material which could absorb the nano-circuitry or nano-bots for that measure into a system without limiting either device/technology in any intrusive form.
This might be a little ahead of our time, and it might not be, but what if you could deploy a drop onto an e-textile component, and the material could communicate to the computer system? So in other words, we just have to find the process of attaining the right mosquito in amber, and before you know it: Communication DNA.
What could be proposed now:
The first step to creating an Apple-Ready (externally linked) tool would be, at this point through close-range radio signals (like Bluetooth), and eventually further range radio signals via satellites. Again, these processes are still intrusive.
The next step would be e-textile drapery. This would involve magnetic e-textile drapery which would communicate and react from the inputs of the tool developed in toolOS.
Lastly, there would be a need to develop an internalized GPS-like “NPS” or a “Nanoversal Positioning System” where data could be physical midair and moveable when positioned on a material. This midair approach would be combined with a liquid state so that the contents are absorbable when an electronic circuit medium receives such liquid in its state.
