Difference between revisions of "Technology level I"
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+ | {{Template:Site specific definition}} | ||
{| class="wikitable" style="float:right; margin-left: 10px; text-align: center" | {| class="wikitable" style="float:right; margin-left: 10px; text-align: center" | ||
! colspan = "2"|Defining traits of technology level I | ! colspan = "2"|Defining traits of technology level I | ||
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! colspan = "2"|Navigation | ! colspan = "2"|Navigation | ||
|- | |- | ||
− | | previous | + | | previous level |
| [[technology level 0]] | | [[technology level 0]] | ||
|- | |- | ||
− | | | + | | previous step |
− | | [[ | + | | '''[[introduction of positional control]]''' |
|- | |- | ||
− | | next | + | | '''you are here''' |
+ | | '''Technology level I''' | ||
+ | |- | ||
+ | | next step | ||
+ | | '''[[switch-over to stiffer materials]]''' | ||
+ | |- | ||
+ | | next level | ||
| [[technology level II]] | | [[technology level II]] | ||
+ | |- | ||
+ | | products of this level | ||
+ | | [[side products of technology level I]] | ||
|} | |} | ||
− | + | '''soft AP block positional assembly''' | |
− | + | Systems of T.Level I could be two dimensional arrays of robotic manipulators out of atomically precise blocks and other AP base structures on a self assembled scaffold on a chips surface. Building in the third dimension may unnecessary complicate design because a [[nanofactory layers|layered configuration]] is a natural choice favored by [[scaling laws]]. | |
This arrays could be produced by some method between | This arrays could be produced by some method between | ||
* [[exponential assembly]] | * [[exponential assembly]] | ||
− | * a | + | * a primitive form [[self replication]] using use pre-built blocks and external signals from broadcast channels of the chips surface. |
+ | = Bootstrapping high throughput capability from here = | ||
+ | |||
+ | The bootstrapping high throughput capabilities may already happen in the preceding technology level or may only occur in the succeeding technology levels but it's not unlikely to happen in this technology level. This technology level is certainly the first technology level where large products that have structures on a large scale (aka objects of utility) become possible and not just large scale homogeneous substances can potentially be made. | ||
+ | The mechanical properties of these products would be similar to hard horn. | ||
+ | |||
+ | == Mascroscopic design examples for the direct self replication approach == | ||
There where already several block based self replication systems proposed designed and built. | There where already several block based self replication systems proposed designed and built. | ||
− | One example of those can be found here [http://www.thingiverse.com/thing:978 thingiverse_thing:978] <br> | + | One example of those can be found here: <br>[http://www.thingiverse.com/thing:978 thingiverse_thing:978] {{todo|add more examples}} <br> |
− | + | The shapelock-reinforcement concepts for more advanced stages may be applicable even at this early stage - see: [[structural elements for nanofactories]]. Vice versa a few of the solutions found here might be applicable even in [[technology level III]]. | |
+ | |||
+ | === Why many macroscopic self replicating designs are limitedly applicable for nanoscale self replication designs === | ||
− | An actual implementation will be more on the [[exponential assembly]] side and less of a "nonproductive replicator" ([[The bunny book|KRSM]] classification) | + | An actual implementation will be more on the [[exponential assembly]] side and less of a "nonproductive replicator" ([[The bunny book|KRSM]] classification) since it moves out necessary structure nd makes design simpler. |
− | Differences to most macroscopic models in | + | Differences to most macroscopic models in existence capable of partial structural replication are: |
* the blocks / parts will have different properties (low stiffness, low smoothness) | * the blocks / parts will have different properties (low stiffness, low smoothness) | ||
− | * the actuation method will differ (fast alternating big scale electric field / slow chemical stepping) | + | * the actuation method will differ (fast alternating big scale electric field / slow chemical stepping) |
+ | * the actuation method will differ multiple highly localized embedded motors are infeasible in early stages (except slow DNA walkers maybe) | ||
* the system may be two dimensional | * the system may be two dimensional | ||
− | * a productive instead of a | + | * a productive instead of a non-productive replicator is wished for - read "has economical motivation" |
'''To investigate:''' | '''To investigate:''' | ||
+ | * minimal set of building blocks for productive [[exponential assembly]] system | ||
* How to assemble the materials used in the next technology level with the here present block based nanosystems? | * How to assemble the materials used in the next technology level with the here present block based nanosystems? | ||
+ | |||
+ | == Simple Linkage manipulators == | ||
+ | |||
+ | * inspirations from from 3D printer designs [http://reprap.org/wiki/RepRap_Morgan RepRap Morgan] [http://reprap.org/wiki/Wally RepRap Wally] | ||
+ | * inspirations from MEMS designs ... e.g. [http://john.maloney.org/3d_microfab.htm]? | ||
+ | * learn from paper stripe hinge mechanisms? Seam hinges between structural DNA bricks? | ||
+ | |||
+ | == MMCS == | ||
+ | |||
+ | * (''To investigate:'') How much of long range order of self assembled structures is necessary for [[exponential assembly]]? | ||
+ | * (''To investigate:'') How long range is the order in protein crystals? | ||
+ | |||
+ | == Related == | ||
+ | |||
+ | * [[Technology levels]] | ||
+ | * [[Modular molecular composite nanosystem]] | ||
+ | |||
+ | == External Links == | ||
+ | |||
+ | Interesting videos of nonproductive replicating blocks: | ||
+ | * [http://vimeo.com/10297756 Automatic Mechanical Self Replication (part 1)] | ||
+ | * [http://vimeo.com/10298933 Automatic Mechanical Self Replication (part 2)] [http://www.dump.com/automaticmechanical/ alternative link] | ||
+ | * {{todo|links died - find alternative}} | ||
[[Category:Technology level I]] | [[Category:Technology level I]] | ||
+ | [[Category:Site specific definitions]] |
Latest revision as of 14:00, 21 July 2021
Defining traits of technology level I | |
---|---|
building method | rudimentary robotic control (machine phase) |
building material | stiff AP building blocks |
building environment | liquid or gas |
Navigation | |
previous level | technology level 0 |
previous step | introduction of positional control |
you are here | Technology level I |
next step | switch-over to stiffer materials |
next level | technology level II |
products of this level | side products of technology level I |
soft AP block positional assembly
Systems of T.Level I could be two dimensional arrays of robotic manipulators out of atomically precise blocks and other AP base structures on a self assembled scaffold on a chips surface. Building in the third dimension may unnecessary complicate design because a layered configuration is a natural choice favored by scaling laws.
This arrays could be produced by some method between
- exponential assembly
- a primitive form self replication using use pre-built blocks and external signals from broadcast channels of the chips surface.
Bootstrapping high throughput capability from here
The bootstrapping high throughput capabilities may already happen in the preceding technology level or may only occur in the succeeding technology levels but it's not unlikely to happen in this technology level. This technology level is certainly the first technology level where large products that have structures on a large scale (aka objects of utility) become possible and not just large scale homogeneous substances can potentially be made. The mechanical properties of these products would be similar to hard horn.
Mascroscopic design examples for the direct self replication approach
There where already several block based self replication systems proposed designed and built.
One example of those can be found here:
thingiverse_thing:978 (TODO: add more examples)
The shapelock-reinforcement concepts for more advanced stages may be applicable even at this early stage - see: structural elements for nanofactories. Vice versa a few of the solutions found here might be applicable even in technology level III.
Why many macroscopic self replicating designs are limitedly applicable for nanoscale self replication designs
An actual implementation will be more on the exponential assembly side and less of a "nonproductive replicator" (KRSM classification) since it moves out necessary structure nd makes design simpler.
Differences to most macroscopic models in existence capable of partial structural replication are:
- the blocks / parts will have different properties (low stiffness, low smoothness)
- the actuation method will differ (fast alternating big scale electric field / slow chemical stepping)
- the actuation method will differ multiple highly localized embedded motors are infeasible in early stages (except slow DNA walkers maybe)
- the system may be two dimensional
- a productive instead of a non-productive replicator is wished for - read "has economical motivation"
To investigate:
- minimal set of building blocks for productive exponential assembly system
- How to assemble the materials used in the next technology level with the here present block based nanosystems?
Simple Linkage manipulators
- inspirations from from 3D printer designs RepRap Morgan RepRap Wally
- inspirations from MEMS designs ... e.g. [1]?
- learn from paper stripe hinge mechanisms? Seam hinges between structural DNA bricks?
MMCS
- (To investigate:) How much of long range order of self assembled structures is necessary for exponential assembly?
- (To investigate:) How long range is the order in protein crystals?
Related
External Links
Interesting videos of nonproductive replicating blocks:
- Automatic Mechanical Self Replication (part 1)
- Automatic Mechanical Self Replication (part 2) alternative link
- (TODO: links died - find alternative)