Difference between revisions of "Mobility prevention guideline"
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− | {{wikitodo|move definition over from recycling}} | + | {{wikitodo|move definition over from page [[recycling]] (Preference of machine phase)}} |
Up: [[Spill of sub microscale objects]] | Up: [[Spill of sub microscale objects]] | ||
− | + | This page is about likely desirable guidelines to prevent <br> | |
+ | fine-grained spill of non-degrading diamondid materials into the environment. | ||
* bones and sponge-luffa analogy | * bones and sponge-luffa analogy | ||
+ | |||
+ | == Disambiguation == | ||
+ | |||
+ | * Avoiding designing and handling of [[gem-gum]] products such <br>that they release/spill many small non-degradably potentially problematic particles. | ||
+ | * Avoiding replicator mobility in the [[reproduction hexagon]] eventually leading to spills. | ||
+ | {{wikitodo|Eventually split page into two}} | ||
+ | |||
+ | == Health risks == | ||
+ | |||
+ | Diamondoid dust of various kinds may act as pollutant harmful to health when ingested or inhaled. <br> | ||
+ | Acting similar to microplastics or silicate dust but even less degradable for some gemstones including diamond. <br> | ||
+ | Accidents are imaginable at all scales. | ||
+ | |||
+ | == Mobile robotic micro and nano devices == | ||
+ | |||
+ | In the case of [[utility fog]] long filigree legs (that may be desired for emulating low density gasses) might be peculiarly amenable to breakage. Some designs may intentionally allow for bots leaving the [[machine phase]] which can be a fist step to irreversible spill. | ||
+ | |||
+ | Future [[diamondoid]] medical nanobots pretty much per definition need to be free floating out of machine phase. | ||
+ | As such they inherently pose a bigger problem. A thing to be aware of. They may be designed to be bio-compatible initially. But environmental release and accumulation must be taken into account too. | ||
+ | |||
+ | == Mitigation strategies == | ||
+ | |||
+ | * Avoid/scorn corner cutting metamaterial designs designs that allow for mechanical damage and irreversible spill. <br>Being it either by hardware overload or by software flaws. | ||
+ | * Hierarchical intended breakage points preferring breakage to large macroscopic or mesoscopic chunks. | ||
+ | * Reversible intended breakage points. Things stay connected but get much more leeway to move apart. | ||
+ | * If it can get loose it will get loose (collary of Murphys law). So built systems that can't get loose. One way to do that is by using LIFO [[hierarchical locking]]. | ||
+ | * Take a focus in software regarding spill prevention. E.g. use proof assistants to prove that critical code is adhering to specified properties. As breathable air is critically important. | ||
+ | ---- | ||
+ | * [[governance regulatory means]] | ||
== Related == | == Related == | ||
+ | * [[Spill]] | ||
* [[Spill of sub microscale objects]] | * [[Spill of sub microscale objects]] | ||
* [[Reproduction hexagon]] | * [[Reproduction hexagon]] | ||
Line 16: | Line 47: | ||
* [[Grey goo meme]] | * [[Grey goo meme]] | ||
* [[Soil pollutants]] | * [[Soil pollutants]] | ||
+ | * '''[[Self limitation for safety]]''' | ||
+ | ---- | ||
+ | * Persistent organic pollutants POPs |
Latest revision as of 13:22, 17 June 2023
(wiki-TODO: move definition over from page recycling (Preference of machine phase))
Up: Spill of sub microscale objects
This page is about likely desirable guidelines to prevent
fine-grained spill of non-degrading diamondid materials into the environment.
- bones and sponge-luffa analogy
Contents
Disambiguation
- Avoiding designing and handling of gem-gum products such
that they release/spill many small non-degradably potentially problematic particles. - Avoiding replicator mobility in the reproduction hexagon eventually leading to spills.
(wiki-TODO: Eventually split page into two)
Health risks
Diamondoid dust of various kinds may act as pollutant harmful to health when ingested or inhaled.
Acting similar to microplastics or silicate dust but even less degradable for some gemstones including diamond.
Accidents are imaginable at all scales.
Mobile robotic micro and nano devices
In the case of utility fog long filigree legs (that may be desired for emulating low density gasses) might be peculiarly amenable to breakage. Some designs may intentionally allow for bots leaving the machine phase which can be a fist step to irreversible spill.
Future diamondoid medical nanobots pretty much per definition need to be free floating out of machine phase. As such they inherently pose a bigger problem. A thing to be aware of. They may be designed to be bio-compatible initially. But environmental release and accumulation must be taken into account too.
Mitigation strategies
- Avoid/scorn corner cutting metamaterial designs designs that allow for mechanical damage and irreversible spill.
Being it either by hardware overload or by software flaws. - Hierarchical intended breakage points preferring breakage to large macroscopic or mesoscopic chunks.
- Reversible intended breakage points. Things stay connected but get much more leeway to move apart.
- If it can get loose it will get loose (collary of Murphys law). So built systems that can't get loose. One way to do that is by using LIFO hierarchical locking.
- Take a focus in software regarding spill prevention. E.g. use proof assistants to prove that critical code is adhering to specified properties. As breathable air is critically important.
Related
- Spill
- Spill of sub microscale objects
- Reproduction hexagon
- Recycling - prevention of the pollution of the environment
- Splinter prevention
- Grey goo meme
- Soil pollutants
- Self limitation for safety
- Persistent organic pollutants POPs