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Okay I see your point more clearly now. The ribbon motion would need to have an acceleration greater than g at sea level. This is to ensure that the cabin can get off the ground at all. Otherwise the cabin free fall during release would negate any climbing done during the grab part of the cycle.
g at sea level is around 9.8 m/s^2. So the ribbon oscillation would need to have a displacement to match that (e.g. 10m at 1Hz).
Very stiff springs indeed!
The problem with a large displacement is the chance that the ribbon is too flexible at the level of tension it's under. Perhaps a smaller displacement is in order? 1m at 10Hz?.1m at 100Hz? 1cm at 1kHz?
Just how fast can the ribbon be vibrated longitudinally at it's required level of tension? That's a feature of the ribbon material and I don't have a clue how to even approximate it.
Another concern is just how fast can the cabin cycle between grab and release. Maybe this is why the broomstick example is demonstrating a method of cycling grab and release at high frequencies?
I don't think that's how it works. The ribbon is suspended fully. It isn't in free fall. The two springs at the endpoint anchors control the acceleration of the entire ribbon as long as it's under tension. This is why it can be conceptualized as a ribbon laying horizontally on ice.
However, you're correct that the cabin is in free fall during release mode. The acceleration due to gravity will vary with altitude and the centripetal force applied by the sideways moving ribbon will apply an additional 'upward' force on the cabin near the top.
If the cabin can time the grab and release properly, perhaps with partial (slip) grabs, it can adjust the amount of force it 'steals' from the ribbon at different altitudes.
And quite near the top it will need to switch the grab and release timing completely to affect a deceleration for a soft 'landing' at the orbiting anchor.
You seem to be forgetting the orbiting anchor. The entire suspension cable is *suspended* between two anchors, ground and orbit. It's reasonable to model this as long ribbon laying on frictionless ice, anchored securely at both ends.
Of course you are correct this is a 20 ton ribbon laying on the ice. Sure it takes a lot of energy to move it 1 meter. But what if the ends aren't secured to fixed anchor points.
Consider that the anchors could be springs with 1 meter play. The springs are under tension and the ribbon is still very much suspended but it's no longer fixed absolutely. Makes sense intuitively in the ribbon-laying-on-ice model. Well, same thing for the anchor-in-orbit model, too.
Now we only have to use force one time to move the ribbon the 1 meter distance. After that without friction it will oscillate back and forth forever (as long as the springs are 100% efficient).
Mind you this is a 20 ton ribbon. It seems reasonable that you could clamp some 'riders' to it and the oscillation won't be dampened very much. Not even when the riders move around.
Because the riders have a great opportunity to move around with little effort. The rider simply needs to time each grab and release. The ribbon is oscillating 1 meter back and forth (down it's length).
The rider can grab during motion in one direction and release during the opposite motion. The rider will inextricable travel the length of the ribbon.
The energy 'loss' caused by the rider can be added back at either end of the ribbon. In fact both ends can control the action of their respective springs for fine tuning. But the obvious power source is the ground anchor.
This is a very slow version of the broomstick example. Indeed I would expect the 'speed' of the system to decrease as the mass scales up. The analogy is sound however.
I'm not sure an internet level hack should be considered a valid weakness. By that logic the only way to validate identity is via telephone or fax. But wait, where is that contact info coming from? A Whois lookup could be compromised by the same technique.
Why don't they use the method Google uses to verify control of a domain (and hence ownership)?
The CA should require a unique file (containing a serial number) to be posted to a specific location on the website. Failing that you should be able to receive mail to an arbitrary email address at the domain.
CAs who don't employ a technical measure (such as above) to verify domain ownership *prior* to issuing a cert would be taken out of the list of trusted CAs.
Isn't Gmail just Usenet/Deja/Google Groups?
on
Speculating About Gmail
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· Score: 2, Interesting
I thought Gmail was just Google Groups. Threaded group mail anyone? The press release was just an April Fool's announcement for a product that they already have. Or not. Maybe they are leveraging the technology of Usenet/Deja/Google Groups with a privacy layer on top to create a 'closed' Usenet.
There is another implication to the bazillions of IPv6 addresses that you haven't mentioned. Any given person can have _multiple_ static addresses and use up many temporary throw away addresses.
It is my understanding that IPv6 will have enough addresses that they won't be "assigned" at all. When you need an address, you just grab one. If you grab it at all randomly (instead of trying to spell some elite phrase) then the _chance_ of conflicting with another address is very very low.
What this means for privacy/anonymity is that you are suddenly many personas. Unless you habitually reference your real name _in every session_ you will be basically immune from data mining.
Of course this means that people will not be able to _authenticate_ your identity based on your address. But that's not much of a compromise.
I'm curious how it is that every fertilized embryo is a potential life? Most women can only have around one child every year, and yet they ovulate every month. Given that we can artifically fertilize almost every harvested egg, it seems that we have a surplus!
Clearly there are many fertilized embryos that have no potential to become developed humans. What is the moral obstacle to the use of these surplus embryos?
Maybe by the time this style of password authentication is widespread, the popular use of a mouse and cursor will be outdated. Really, the mouse/cursor paradigm is just a mechanical crutch for telling the computer where you are *looking at*, on the screen. So, I think eyetracking could be used very well with this technology.
Slashdot Mirror
The comments to the linked article are quite interesting. http://www.pluraprocessing.com/ seems to have a viable business model for doing this.
From DefensivePublications.org ...
[emphasis mine]
Pedantic-Man®, what are you talking about?
If Conficker is polling domain names for code to execute why doesn't someone put a patch for MS08-067 and a conficker cleaner up there????
There are electromagnetic alternatives to a flywheel. I would generally want to avoid a mechanical approach as it will simply wear out too fast.
Okay I see your point more clearly now. The ribbon motion would need to have an acceleration greater than g at sea level. This is to ensure that the cabin can get off the ground at all. Otherwise the cabin free fall during release would negate any climbing done during the grab part of the cycle.
g at sea level is around 9.8 m/s^2. So the ribbon oscillation would need to have a displacement to match that (e.g. 10m at 1Hz).
Very stiff springs indeed!
The problem with a large displacement is the chance that the ribbon is too flexible at the level of tension it's under. Perhaps a smaller displacement is in order? 1m at 10Hz? .1m at 100Hz? 1cm at 1kHz?
Just how fast can the ribbon be vibrated longitudinally at it's required level of tension? That's a feature of the ribbon material and I don't have a clue how to even approximate it.
Another concern is just how fast can the cabin cycle between grab and release. Maybe this is why the broomstick example is demonstrating a method of cycling grab and release at high frequencies?
The springs would likely be magnetic or pneumatic. Yes cooling is still a factor but they almost certainly would not be mechanical springs ...
Also, the cabin is responsible for changing timing frequency. The ribbon maintains a constant oscillation frequency.
This is necessary so multiple cabins can operate on the ribbon at the same time!
I don't think that's how it works. The ribbon is suspended fully. It isn't in free fall. The two springs at the endpoint anchors control the acceleration of the entire ribbon as long as it's under tension. This is why it can be conceptualized as a ribbon laying horizontally on ice.
However, you're correct that the cabin is in free fall during release mode. The acceleration due to gravity will vary with altitude and the centripetal force applied by the sideways moving ribbon will apply an additional 'upward' force on the cabin near the top.
If the cabin can time the grab and release properly, perhaps with partial (slip) grabs, it can adjust the amount of force it 'steals' from the ribbon at different altitudes.
And quite near the top it will need to switch the grab and release timing completely to affect a deceleration for a soft 'landing' at the orbiting anchor.
You seem to be forgetting the orbiting anchor. The entire suspension cable is *suspended* between two anchors, ground and orbit. It's reasonable to model this as long ribbon laying on frictionless ice, anchored securely at both ends.
Of course you are correct this is a 20 ton ribbon laying on the ice. Sure it takes a lot of energy to move it 1 meter. But what if the ends aren't secured to fixed anchor points.
Consider that the anchors could be springs with 1 meter play. The springs are under tension and the ribbon is still very much suspended but it's no longer fixed absolutely. Makes sense intuitively in the ribbon-laying-on-ice model. Well, same thing for the anchor-in-orbit model, too.
Now we only have to use force one time to move the ribbon the 1 meter distance. After that without friction it will oscillate back and forth forever (as long as the springs are 100% efficient).
Mind you this is a 20 ton ribbon. It seems reasonable that you could clamp some 'riders' to it and the oscillation won't be dampened very much. Not even when the riders move around.
Because the riders have a great opportunity to move around with little effort. The rider simply needs to time each grab and release. The ribbon is oscillating 1 meter back and forth (down it's length).
The rider can grab during motion in one direction and release during the opposite motion. The rider will inextricable travel the length of the ribbon.
The energy 'loss' caused by the rider can be added back at either end of the ribbon. In fact both ends can control the action of their respective springs for fine tuning. But the obvious power source is the ground anchor.
This is a very slow version of the broomstick example. Indeed I would expect the 'speed' of the system to decrease as the mass scales up. The analogy is sound however.
I'm not sure an internet level hack should be considered a valid weakness. By that logic the only way to validate identity is via telephone or fax. But wait, where is that contact info coming from? A Whois lookup could be compromised by the same technique.
oops, typo in subject: *demonstrate* control ...
Why don't they use the method Google uses to verify control of a domain (and hence ownership)?
The CA should require a unique file (containing a serial number) to be posted to a specific location on the website. Failing that you should be able to receive mail to an arbitrary email address at the domain.
CAs who don't employ a technical measure (such as above) to verify domain ownership *prior* to issuing a cert would be taken out of the list of trusted CAs.
But is his name a killing word?
/came for a Dune reference, left disappointed
Ummm TV signal?
I thought Gmail was just Google Groups. Threaded group mail anyone? The press release was just an April Fool's announcement for a product that they already have. Or not. Maybe they are leveraging the technology of Usenet/Deja/Google Groups with a privacy layer on top to create a 'closed' Usenet.
There is another implication to the bazillions of IPv6 addresses that you haven't mentioned. Any given person can have _multiple_ static addresses and use up many temporary throw away addresses.
It is my understanding that IPv6 will have enough addresses that they won't be "assigned" at all. When you need an address, you just grab one. If you grab it at all randomly (instead of trying to spell some elite phrase) then the _chance_ of conflicting with another address is very very low.
What this means for privacy/anonymity is that you are suddenly many personas. Unless you habitually reference your real name _in every session_ you will be basically immune from data mining.
Of course this means that people will not be able to _authenticate_ your identity based on your address. But that's not much of a compromise.
As a Canadian, I've had some success with B & D Tech.
AFAIK, it's a west-coast outfit as well.
I'm curious how it is that every fertilized embryo is a potential life? Most women can only have around one child every year, and yet they ovulate every month. Given that we can artifically fertilize almost every harvested egg, it seems that we have a surplus!
Clearly there are many fertilized embryos that have no potential to become developed humans. What is the moral obstacle to the use of these surplus embryos?
Maybe by the time this style of password authentication is widespread, the popular use of a mouse and cursor will be outdated.
Really, the mouse/cursor paradigm is just a mechanical crutch for telling the computer where you are *looking at*, on the screen.
So, I think eyetracking could be used very well with this technology.
Foreign news organizations fall under the category of 'subversive'.
Western news outlets are the leading vector for the democracy virus! China is showing an excellent grasp of reality in blocking those sites.
Wonderful information about Science Magazine.
However, just to clarify, the main page refers to "a Science Magazine author" not "a science magazine".
It's working fine for me. Maybe it's only blocked to Americans ;-)
You can find the May news stories here.
Ihre ganze stationieren sind gehören uns