NASA Needs Prize Contest Ideas 180
Michael Huang writes "If you like the idea of tech contests--think ANSARI X PRIZE and DARPA Grand Challenge--and you also like space, then NASA wants you. It needs ideas (and rules) for the Centennial Challenges, prize contests with $20 million funding in 2005. Current ideas (download Excel spreadsheet) include: Mars and asteroid microspacecraft missions, lunar robotic landing, robotic triathalon, rover survivor, Antarctic rover traverse and extreme environment computer. Wikipedia has good coverage."
I'm currently working on microspacecraft (Score:4, Funny)
The prize that NASA really needs (Score:3, Insightful)
Re:The prize that NASA really needs (Score:2, Funny)
Re:The prize that NASA really needs (Score:2)
What about... (Score:5, Insightful)
Re:What about... (Score:3, Funny)
Re:What about... (Score:2)
Intelligent life in the universe (Score:3, Funny)
They could start by trying to prove there is some on the third planet from that G3 star near the edge of the Milky Way galaxy.
Re:Intelligent life in the universe (Score:3, Funny)
Re:Intelligent life in the universe (Score:2)
Re:Intelligent life in the universe (Score:3, Insightful)
Re:Intelligent life in the universe (Score:2)
Teleportation -- do it (Score:2)
Lander Fear Factor! (Score:4, Funny)
And Lander Fear Factor! The rover has to drink a wicked puree of something a rover would find revolting....
AI not ready yet (Score:5, Insightful)
AI is not ready indeed: with online demo. (Score:5, Informative)
Parent: +6 Insightful
I'm a researcher in AI, and I can do nothing but backup the parent's claim (sad as it is). When we use AI, we would expect a robot to be able to perceive its surroundings (analyzing sensory inputs), make decisions (reasoning) and act (generating actuator outputs).
I can only comment on the first, since I'm a Ph.D. student in Computer Vision. And the general picture is, to be quite honest, depressing. Forget all you've seen in e.g. Terminator (e.g. the robot analyzing its visual input, and all the nice text in the image): it ain't gonna happen for a long time! Although space missions are (presumably) less complex in terms of sensory inputs, the state of affairs in dealing with normal natural images gives a nice idea of what's currently (im)possible:
I'll provide an example here. I'm doing Computer Vision (face-detections), and the current state of affairs is about this: When finding faces in 800x600 images, this can be done in about 1 second (yes: 1 full second), at about a 90% detection rate and a couple of false detections per image. For more complex object classes that are not so nicely symmetric (think cars, houses, landscapes, etc.), the performance is dramatically worse.
You can look at the BitTorrent link [unimaas.nl]. And ONLY if that doesn't work, use this [unimaas.nl]. As for reasoning: this is still in it's infancy, but I'm not working in that field, so I cannot comment on that well. Any takers? ;)
Re:AI is not ready indeed: with online demo. (Score:4)
However, AIs in space only have to perform very specific tasks. These sorts of tasks are things which AIs are already capable of, or could be made capable of with a little more effort. Here's what I could think of off-hand:
space navigation: This is the sort of thing an AI excels at. I think it's actually already been used on Deep Space 1 [cnn.com].
surface exploration: If humans on the ground can periodically give high-level goals and destinations, the rest can be handled by a reactive or behavior-based system. After Sojourner [wikipedia.org]'s primary and secondary missions were over, it was switched over to a behavior-based control system (developed by Rodney Brooks' lab, I think), and autonomously wandered around the surface.
space construction: This hasn't really been done yet, although many vision problems can be alleviated by the fact that you have complete control over the materials used. Special parts can be given special colors, and one might be able to assume that all prior pieces have been accurately placed by a robot.
By the way, nice face detection work.
Re:AI is not ready indeed: with online demo. (Score:2)
I've seen real time demos of Viola-Jones cascades that work reasonably well. And training time isn't so ridiculous if you cut out the adaboost feature selection. Your idea to pre-process input images (segment them) into interesting and non interesting regions seems
Begging for money (Score:4, Funny)
Let the people choose (Score:2)
TV (Score:3, Funny)
2. Sell the show to some TV channel.
3. Pay out Prize Money with the money from the TV-deal.
4. ?
5. Break Even!
Sustenance studies. (Score:5, Interesting)
Another idea is ocean habitats. It seems very strange to me that we haven't 'prototyped' long-term human sustenance studies by building an "International Ocean Station" somewhere in the Marianas trench or something
IF we've gotta live for 6 months on de-hydrated/hydroponic foods, lets do it in that other hostile environment we have yet to fully explore, provided by our Oceans, or Deserts, where ordinary 'normal' humans are also struggling to survive...
Re:Sustenance studies. (Score:2, Funny)
Re:Sustenance studies. (Score:4, Interesting)
The Navy has been using submarines with nuclear power sources and life support systems for decades.
Re:Sustenance studies. (Score:5, Insightful)
Yeah. That is true. But are they growing their own food?
The Navy isn't self-sustaining. U-boots still need a supply convoy and system if they wanna stay out there
yo. just imagine your grow room scenario on a trident-class submarine
Re:Sustenance studies. (Score:2)
They could if they wanted to. It's just that submarines are war machines. If for some reason they wanted to retrofit all the weapon systems with greenhouses and UV lamps, I'm confident that they could stay submerged for years.
really though, submarines and a mars colony are apples and oranges. I'm just making a point that a self sustaining martian colony is totally possible as long as you have an energy source, local resources and a little smarts.
The technology doesn't apply. (Score:2, Insightful)
Unless someone's found a decent source of water on Mars, the technology doesn't apply.
Re:The technology doesn't apply. (Score:2)
Re:The technology doesn't apply. (Score:2)
The thousands of cubic kilometers of water on both poles of the planet aren't enough for you? You must take long showers.
Re:Sustenance studies. (Score:2)
Perhaps the other branches of government, such as the U.S. Food & Drug Administration [fda.gov] and the National Oeanic and Atmospheric Administration [noaa.gov] should start X Prizes of their own?
Gumball? (Score:2)
I can see it now: "Now accepting applications for the Gumball Inerplanetary Rally - fewer cops, more space junk"
First Manned Mars Landing Wins (Score:3, Insightful)
Re:First Manned Mars Landing Wins (Score:2)
That's a horrible idea. (Score:4, Interesting)
[Now, there's other groups in the US government who might be willing to provide funds for killing people, I just don't think that NASA is the one, though]
But let's think about it -- you'd probably have to find someone who's willing to make the one-way trip, but wouldn't be crazy enough to commit suicide on the trip there. That's a pretty dedicated person. [Although, I am making the assumption that they'd be looking for a live human on Mars, and not just someone shooting a corpse up there because of a poorly worded contest]
Re:First Manned Mars Landing Wins (Score:2)
I think Mars is setting the bar too high when no private entity has yet taken the prize for a mere sub-orbital flight. I'd go for the moon.
I also think the whole point is letting private industry figure out the best way to get the job done, whatever that may be; and I'm not convinced "manned" is necessarily the way to go.
So the "job" is "go there, do stuff, come back", and we want to offer prize money for the first person to do it. But this involves all sorts of rules/definitions about what you've got t
Re:First Manned Mars Landing Wins (Score:2)
Zip Zap + Model Rocket (Score:2, Funny)
The ultimate prize... (Score:5, Interesting)
It might seem a bit far-fetched, but seriously, if I designed something for NASA that might really advance humanity, a space-flight isn't too out of the question, is it?
Re:The ultimate prize... (Score:2, Funny)
I'll be here for 90 minutes then my weekend starts, try the shrimp.
Practical Long Lasting Space Suit (Score:5, Interesting)
Re:Practical Long Lasting Space Suit (Score:5, Interesting)
imagine an 'environment' suit you can put on which is good enough to act as the primary housing for the entire trip through to orbit. a suit so good, you put it on, then 'latch on' to a rocket booster, and its all you need to get you to the docking port of ISS2, or whatever
how much 'lighter' could our space transport systems be if we put absolutely 1000% more into human-sustaining suits, i wonder
Re:Practical Long Lasting Space Suit (Score:2)
(1) massive wedgie on lift off
(2) re-entry/splashdown -- if you're not fried to a crisp, you'd better hope you land on something soft.
Re:Practical Long Lasting Space Suit (Score:4, Interesting)
Constant-pressure hardsuits would be one alternative, but as they require complex joints for all the limbs you won't be exactly agile in one.
A more interesting alternative is the skinsuit. This consists of a very close-fitting elastic body stocking that provides pressure on the skin to protect you from vacuum, while not actually containing any air. (The only hollow part is the rigid helmet.) These would --- probably --- be much more comfortable, restricting motion much less, probably be more reliable, certainly simpler to construct, etc. Although they might be rather hard to put on.
Unfortunately, I can't find any references to skinsuits, although I gather they've been tried in prototype --- can anyone confirm this?
Re:Practical Long Lasting Space Suit (Score:3, Informative)
gimme a ref and forget the sci-fi (Score:2)
Re:gimme a ref and forget the sci-fi (Score:2)
Here is a pretty good reference! (Score:3, Informative)
Re:Practical Long Lasting Space Suit (Score:3, Insightful)
What I think makes the most sense is a skinsuit worn under a hardsuit. This way, you're protected from impacts, but if your suit should get holed you're still protected. Seal the helmet away from the rest of the suit, of course, so t
Re:Practical Long Lasting Space Suit (Score:2)
Re:Practical Long Lasting Space Suit (Score:2)
Re:Practical Long Lasting Space Suit (Score:3, Informative)
Re:Practical Long Lasting Space Suit (Score:2)
Three little words... (Score:5, Interesting)
Re:Three little words... (Score:2, Insightful)
So weird. "Satellite Cameras" are the reason you can buy a cheap CCD at Fry's for $15, right next to the snap-dried ice cream
Re:Three little words... (Score:2)
I got one... (Score:3, Funny)
Pr0n & p0t (Score:2)
Porn, pot are keys to NASA salvation [cyberista.com]
Idea: Create cheap spacecraft (Score:4, Interesting)
High Specific Impulse Engines (Score:5, Interesting)
Of course, who knows how someone would find a way to make an engine like that. However if it is something with a low cost of entry (unlike the X-prize) which every backyard inventor can work on, then you instantly have a few thousand amateur rocket scientists working for a prize of a few hundred thousand. A pretty good deal, I say.
Re:High Specific Impulse Engines (Score:3, Interesting)
Lowering fuel requirements would lower costs indirectly, mostly by allowing vehicles to be smaller and more robust, of course, but fuel itself isn't a killer.
The problem is that better engines are a fundamental physical problem. The Isp of ch
Re:High Specific Impulse Engines (Score:2)
As for a Space elevator costing tens of billions of dollars, that is still insanely cheap compared to what it would cost to ship everything up or down the way we are now. After all, once we get a space elevator up, we could just start assembling ships in space instead of on earth. That would also give us the ability to eliminate the heat shielding and smooth surfaces required for atmosp
Re:High Specific Impulse Engines (Score:2)
One of the most cumbersome parts of Orion was the shock absorption springs and blast plates to smooth out the explosions happening underneath. Nuclear propulsion would be much easier if it could be made continuous.
Is it possible to make a critical mass of fissionable material while it's in vapor state? Consider a set
Re:High Specific Impulse Engines (Score:2)
The nuclear afterburner, as envisioned. (Score:2)
Imagine Archimedes directing the soldiers to each focus the reflection from his shield on the ship far offshore. Now imagine that they're all holding superaccurate machine guns, each loaded with a belt of refined uranium ammunition. When good ol' Archie g
Re:The nuclear afterburner, as envisioned. (Score:2)
The biggest problem I can think of is that this engine would have to be developed entirely on paper, and then it would have to work right the first time it launched. There's no way to test it standing still unless you can figure out a way to contain this continous hiroshima...
Re:High Specific Impulse Engines (Score:2)
Not gonna happen. I don't know what the numbers are on "pro-nuclear" versus "anti-nuclear", but you need to be far more than pro-nuclear to be pro-Orion. I'm pro-nuclear-power, but I'm not pro-Orion, and I think very few people would be. Nuclear power is, in fact, incredibly clean. It releases basically no radiation unless there's an accident. By contrast, a single Orion launch would set o
Re:High Specific Impulse Engines (Score:2)
Re:High Specific Impulse Engines (Score:2)
Sorry, the X-prize is nothing about that. The X-Prize is about developing a low cost ballistic reuseable'spacecraft'. The leap from there to an orbital booster (even setting aside the thorny problem of re-entry) is a long one. (That's not to say the Prize isn't valuable, but that it's only a small start.)
Re:High Specific Impulse Engines (Score:2)
Comment removed (Score:5, Funny)
Re:Ok, what about this: (Score:2)
Re:Ok, what about this: (Score:2)
Everyone knows Airstream trailers make better pressure vessels.
Besides, NASA's already got some on hand.
Biosphere 3? (Score:5, Interesting)
I know the name is cringe-worthy, but (I think) it hasn't been done successfully yet, and it needs to be.
i see... (Score:3, Insightful)
Innovations which address obstacles which have stood in the way of technological development in science would be of highest priority, were I to enter. Barriers in science such as the claim that NASA don't have the technology to fit a de-orbit module [proboards2.com] onto the Hubble so that it's eventual re-entry into earth doesn't threaten human lives, could be avoided. It would save a lot of time, money and other valuable resources including human labour if future obstacles were addressed in the design of new scientific material, instead of attempting to tackle the problem when its too late.
Re:i see... (Score:2)
I heard some guy from Nigeria is looking for a sponser, but that might be something else.
So, um .. (Score:2, Funny)
Prolonging the life of Hubble (Score:2, Interesting)
Re:Prolonging the life of Hubble (Score:2)
For bonus points, make sure the new one doesn't require corrective lenses upon installation, and make its onboard computers accept input in english and metric units.
Also, how about communications upgrades for the Deep Space Network? We've got s
Re:Prolonging the life of Hubble (Score:2)
Not a bad idea -- NASA's willing to write it off, there's a market for images from Hubble (from scientists who need to do research -- and even if it's grant money we're talking about, they could choose to spend that money for Hubble time, or spend it on adaptive optics from Earth, etc.) so why not let a private contractor salvage it and sell it out if he thinks he can make a buck while doing so?
While we're at it -- why n
Re:Prolonging the life of Hubble (Score:2)
I think this was an incredibly shortsighted viewpoint on the part of the U.S. government back in 1967 (when the treaty was signed and ratified by the U.S. Sena
THIS FALL ON NASATV! (Score:2)
These contests aren't about discovering the next technological advancement. If NASA needed a new technology, they could just use the $20mil and contract it or do it themselves. No, this is all about public relations and generating interest in the space program.
The training program is already configured like a reality show, just add camera crew. Contestants have to endure countless hours of torture, physical cha
Re:THIS FALL ON NASATV! (Score:2, Informative)
http://www.cnn.com/2000/TECH/space/09/12/mir.su
New battery contest! (Score:2, Insightful)
Prize for detection of numerical errors (Score:2)
20 million dollars? Piffle! (Score:5, Interesting)
Jerry Pournelle was suggested the following:
As Long As NASA Holds The Purse Strings .... (Score:3, Insightful)
If the US Government wants to encourage more independent space resarch, the Congress and President must work together to establish goals INDEPENDENT of NASA. One possibility is to simply have the Congress double the prize money for the next few X-Prizes once those details are finalized.
NASA will NOT spend its money to pay for the development of a competing private space industry.
Easy: (Score:3, Interesting)
Capture the Flag! (Score:2, Funny)
Space elevator materials (Score:5, Insightful)
Also, you could offer annual prizes for the best results each year, even if they don't meet the final prize criteria. At least that'd give the research groups a short-term goal to reach for.
Substantive List (Score:2)
EM Assisted Launch (Score:4, Interesting)
Re:EM Assisted Launch (Score:4, Interesting)
This was my intention when (above) I mentioned railgun launches. Since most of the mass we want in orbit is (at present) consumables and other commodity products, this would do fine for EM launches.
A competition featuring the best railgun designs (open to all university engineering students especially) would stimulate development of this area. I am convinced the military has versions of this they are not mentioning, but the civilian world should have some capabilities here too.
This is a fairly simple project to build for an engineering department, and would combine the disciplines of mechanical, power, and computer engineering departments to get things right. Further, if groups of engineers in a city wanted to build such a device, this would be a possible thing to try.
A note about manned launches using EM / railgun / mass driver technologies. In physics class in high school we worked out that it was nearly impossible to build a railgun / EM launch vehicle that would achieve orbital velocity and carry a manned payload. The G-force limit of 12 G's prohibits acceleration to mach 25+ in a reasonable ground distance (it's way too long geographically to build).
This competition would be easy to run (at some gunnery range, out over an ocean, etc.). Military radar could track the payloads. Bonus points could include if the payloads were recoverable, and more bonus points if the payloads contained inert liquids that would simulate liquid O2 in density.
Re:EM Assisted Launch (Score:4, Insightful)
Even if the exit of the railgun was on top of Mt Everest, you are still deep within the sensible atmosphere, and miles and miles below where boosters normally add their speed. (Boosters normally go more-or-less straight up, then bend their trajectories over to add the horizontal velocity needed to reach orbit.) Given the amount of atmosphere you have to traverse after leaving the railgun, you need to leave it at much higher than orbital speed, to offset for drag, that you have a truly frightful thermal problem.
Another issue often handwaved away by EM launcher supporters is the need for a propulsion system for the circularization burn. Lunar surface-Lx railguns don't need these systems because they are not going into orbit around the launching body. Earth-to-orbit systems however do and generally end up being around half the total throweight at the launch systems muzzle. (Just having a projectile traveling at orbital velocity is meaningless. The *direction* of the velocity vector is all important, and EM launchers cannot produce the proper vector.)
The final problem is the extreme G factor typical of EM launches. This causes structural weight to dominate total throweight, to the great detriment of payload fraction and total payload throughtput of the launcher. (In theory the structure can be recovered as raw material at the target, but in practice you end up with more raw material than you can use.)
Why would you be so convinced? EM launchers are simply not practical in the near term, and are likely to remain so indefinetly to Earth-to-Orbit operations. There are simply too many practical problems.Re:EM Assisted Launch (Score:3, Insightful)
Re:EM Assisted Launch (Score:2)
The problem with whole scheme is that fuel is cheap, while railguns are not. Even when rockets get cheap enough that fuel costs become important (as is the situation for airlines today), the cost in fuel to boost the rocket that is heavie
Workshop on June 15-16 in DC, open to public (Score:5, Informative)
Here's the blurb from the web site [nasa.gov]:
To kickoff Centennial Challenges, NASA's new program of prize contests, NASA will host a workshop on June 15-16 in Washington, DC. The purpose of the workshop is to:
1. Gather ideas for Challenges,
2. Develop rules for specific Challenges and gauge competitor interest in various potential Challenges, and
3. Promote competitor teaming.
This workshop will be a key input into Centennial Challenges planning, helping to determine what specific Challenge competitions NASA announces in 2004 and 2005 and the rules of those competitions. All potential Centennial Challenge competitors, including interested members of industry, academia, students, and the general public, are invited to attend.
So not only can NASA not figure... (Score:2)
Re:So, let me get this straight... (Score:2)
Re:How About this prize: (Score:2)
Re:How About this prize: (Score:2)
Education, like health, is a great goal and shouldn't be underfunded. But we should also recognize that they are essentially bottomless pits as far as funding is concerned...