Difference between revisions of "Dynamic rebootstrapping of upper convergent assembly levels"
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Revision as of 13:19, 18 September 2022
Many gemstone metamaterial on chip factory will come in the form of mobile portable devices (From tablet to smartphone to key-fob size. See: Form factors of gem-gum factories.).
Higher convergent assembly levels up into the meso and macroscale can be quite useful if only simple reconfigurations of poroducts are desired. No need to disassembly something down to microcomponents when one only wants to switch around say macroscopic wheels.
The problem
Robotics of highest assembly levels reaching far into macroscale is quite voluminous though since
- bigger robotics has lower product throughput density and
- moving big parts as a whole needs something equally big reaching around
That would make cube like boxes which are not very portable.
The solution
Spawn the uppermost macroscale assembly levels on demand.
This could be done by air pressure inflation and origami like folding.
See: Gem-gum balloon products and Multi limbed sensory equipped shells.
Or by (re)composing of microcomponents of an amount way lighter than the parts that are about to be handled.
Very fast dynamic on demand deployment could e.g. work like this:
Gem-gum tentacle manipulators are:
- first assembled via on chip microcomponent recomposer to folded deflated state
- then inflated to operational parameters
- then these robotic maniputators can be udes
Beside just pick and place. fast part streaming assembly is a possibility.
Relation to bootstrapping
While lower assembly levels deploy higher assembly levels here, this is quite different to the situation in bootstrapping towards advanced productive nanosystems.
(wiki-TODO: Elaborate on that here …)
Related
- On chip microcomponent recomposer
- Form factors of gem-gum factories
- Robotic manipulators
- Gem-gum tentacle manipulator
- Gem-gum balloon products
The "magic" general-purpose microbot solutions: