ExoMars |
ExoMars |
Guest_Sunspot_* |
Aug 25 2005, 11:22 AM
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#1
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http://news.bbc.co.uk/1/hi/sci/tech/4180840.stm
Europe has fixed on a concept for its next mission to land on the Red Planet. It aims to send a single robot rover to the Martian surface along with another, stationary, science package. |
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Aug 25 2005, 01:21 PM
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#2
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Member Group: Members Posts: 290 Joined: 26-March 04 From: Edam, The Netherlands Member No.: 65 |
They want to land that rover so badly......(which in understand). But:
American datatransportation, american payload (in return for that) and american EDL gear (probably to make sure that it's going to work). Seems they don't have so much faith in designing their own vehicle There's nothing wrong with working together, but it's not giving me a feeling of an organisation that is very self confident...... |
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Aug 25 2005, 01:39 PM
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#3
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
And why the american data realy - is MEX expected to give up in the near future?
America wont supply an EDl system - ITAR makes sure of that. Doug |
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Aug 25 2005, 01:52 PM
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#4
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Member Group: Members Posts: 290 Joined: 26-March 04 From: Edam, The Netherlands Member No.: 65 |
QUOTE (djellison @ Aug 25 2005, 01:39 PM) And why the american data realy - is MEX expected to give up in the near future? America wont supply an EDl system - ITAR makes sure of that. Doug They probably don't want to rely just on MEX, because IF it fails before 2013 (which is a long time from now), they have no orbiting european hardware left, and DTE is not a option offcourse by that time, considering the produced datavolume of such a craft..... You're right about ITAR.....but they WANT the american EDL system, as is written in the article..... Anyway.....the more rovers up there, the better. But it would be better to allocate the money for, let's say, 2, 3 or even 4 sojouner type of vehicles (with moles and streaming video on its mast, maybe even brought there by the same (1 or 2) launcher. Equip them with tiny little sweet RTG's and there you go. But that's my idea..... |
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Aug 25 2005, 02:43 PM
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#5
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
What is MEX? I haven't heard of it. Will be glad to be acquainted of it?
Rodolfo |
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Aug 25 2005, 02:52 PM
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#6
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Member Group: Members Posts: 290 Joined: 26-March 04 From: Edam, The Netherlands Member No.: 65 |
QUOTE (RNeuhaus @ Aug 25 2005, 02:43 PM) Mars Express. The ESA orbiter. http://www.esa.int/SPECIALS/Mars_Express/ |
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Aug 25 2005, 02:54 PM
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#7
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Ooppss, it is a smart word!
Thanks Marcel. |
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Aug 25 2005, 02:56 PM
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#8
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
One thing space isnt short of it's Acronyms
MEX, MGS, MODY, MRO, MER, MSL...it's madness Doug |
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Aug 25 2005, 02:58 PM
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#9
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Member Group: Members Posts: 290 Joined: 26-March 04 From: Edam, The Netherlands Member No.: 65 |
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Aug 25 2005, 02:58 PM
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#10
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
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Aug 25 2005, 02:59 PM
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#11
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Member Group: Members Posts: 290 Joined: 26-March 04 From: Edam, The Netherlands Member No.: 65 |
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Aug 25 2005, 03:13 PM
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#12
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Member Group: Members Posts: 153 Joined: 11-December 04 Member No.: 120 |
From the article:
QUOTE a mass of 120kg for the rover and 8-14kg for the science payload That's a lot of balsa wood! But I wonder how much drilling you can get out of that? A MER rover is 185 kg. and is totally geology dedicated. Is it possible to build a life detection system in 8-14 kg. ???? |
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Aug 25 2005, 03:20 PM
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#13
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
QUOTE (Cugel @ Aug 25 2005, 10:13 AM) From the article: That's a lot of balsa wood! But I wonder how much drilling you can get out of that? A MER rover is 185 kg. and is totally geology dedicated. Is it possible to build a life detection system in 8-14 kg. ???? Besides, the rover has only 4 wheels instead of 6 wheels. I am affraid that it will need purified sands on all parts... Rodolfo |
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Aug 25 2005, 03:25 PM
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#14
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
A straight copy of the Beagle 2 science payload wouldnt be a bad move - given time to test and calibrate it all properly.
Doug |
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Aug 25 2005, 04:12 PM
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#15
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
Oh MODY - some call it MO2k1- Mars Odyssey
Doug |
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Aug 25 2005, 07:32 PM
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#16
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Member Group: Members Posts: 531 Joined: 24-August 05 Member No.: 471 |
Will SMILE fly to Mars with ESA's ExoMars??
http://66.249.93.104/search?q=cache:ayPuf8...a+exomars&hl=de -------------------- - blue_scape / Nico -
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Aug 25 2005, 08:02 PM
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#17
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
QUOTE SigurRosFan(Posted Today, 02:32 PM) The ESA Technology, Mars Organic Analyzer to detect the life in the crust is interesting but if I think that the Mars life was more than 3 thoushands millions years ago (I don't agree with billions and it means millions millions!), then the amino must be very vanished comparing to ones of Atacama Desert. The desert Atacama was covered by ocean probably about 20-40 millions years ago. So by that land there must be some fossils and amino compositions. The north of Chile and South of Peru have one of the most dry places of the world with almost no precipitation and there have plenty of dunes on lower lands and rocky on upper land, the ladden of Andean mountain chain. Rodolfo |
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Guest_BruceMoomaw_* |
Aug 25 2005, 08:28 PM
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#18
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One reason that NASA decided not to fly a 1-meter soil drill on MSL is that it will, in any case, carry a small drill capable of coring samples from several cm beneath the surface of sedimentary rocks -- and it is actually far likelier that ancient biochemical fossil remains can survive in those places, sealed off completely from Mars' surface oxidants, than that they can survive a meter down in its current soil.
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Aug 25 2005, 08:44 PM
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#19
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Member Group: Members Posts: 531 Joined: 24-August 05 Member No.: 471 |
Sorry. Wrong link.
MOA will fly definitely(!) to Mars. I mean SMILE (Specific Molecular Identification of Life Experiment). "The criteria for ExoMars are tough. Researchers hoping to get a place on the craft have to design a device that will look for biomarkers but not exceed 3 kg in mass or measure more than 16x16x20 cm." http://www.nature.com/materials/news/news/.../050620-15.html -------------------- - blue_scape / Nico -
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Jan 31 2006, 01:25 PM
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#20
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Member Group: Members Posts: 370 Joined: 12-September 05 From: France Member No.: 495 |
Alcatel Alenia Space starts the ExoMars mission design
http://www.alcatel.com/vpr/;jsessionid=111...equestid=451784 This contract, worth about 13 million Euros, calls for one year mission design work up to the preliminary design review including the definition of the main system elements of the mission. EDIT : Link corrected, thanks to Vikingmars. |
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Jan 31 2006, 03:05 PM
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#21
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Senior Member Group: Members Posts: 1089 Joined: 19-February 05 From: Close to Meudon Observatory in France Member No.: 172 |
Here is the missing link :
http://www.alcatel.com/vpr/;jsessionid=111...equestid=451784 QUOTE (Rakhir @ Jan 31 2006, 02:25 PM) Alcatel Alenia Space starts the ExoMars mission design
http://www.alcatel.com/vpr/?body=http://ww...eKey/31012006uk This contract, worth about 13 million Euros, calls for one year mission design work up to the preliminary design review including the definition of the main system elements of the mission. |
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Guest_AlexBlackwell_* |
Feb 13 2006, 11:39 PM
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#22
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Excerpt from the February 13, 2006, issue of Aviation Week & Space Technology:
World News & Analysis U.S. Moon Focus Provides Opportunities for Europe on Mars, Science Aviation Week & Space Technology 02/13/2006, page 44 Michael A. Taverna Paris and Toulouse [...] "The main objective of the European Space Agency's Aurora exploration program, launched in December, is Mars. ExoMars--a 2011 lander/rover mission intended as a precursor for a Mars Sample Return (MSR) flight--will lead off. "Funding for ExoMars is already well beyond the requested 593-million-euro budget envelope. ESA has 651 million euros in commitments to date, and is likely to exceed 700 million euros with the likely participation of Canada. "Although the extra money could be used to add an orbiter to ExoMars, ESA is leaning toward earmarking the funds for MSR, which is already expected to get the lion's share of 73 million euros in Aurora technology funding (AW&ST Jan. 23, p. 15). 'Interest in MSR has definitely gone up a notch,' said Alain Pradier, who heads Aurora's technology office. Noting that NASA recently pushed back its date for MSR to the end of the next decade, while ESA continues to target a first mission in 2016-18, Pradier said ESA might even be willing to take a lead role in MSR--or at least act as the focal point for international collaboration. "European officials acknowledged ESA is not yet in a position to do this. For one thing, said Richard Bonneville, who heads solar system exploration at French space agency CNES, Italy--the only European space power with an expanding budget--is showing a strong interest in the Moon. But he noted that the European science community has consistently backed the Martian preference. The final road map for ESA's Cosmic Vision science program for 2015-25, issued in October, lists planetary exploration as one of four themes to be pursued, and Mars figures prominently on the roster of exploration goals." |
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Mar 16 2006, 01:07 PM
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#23
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Member Group: Members Posts: 370 Joined: 12-September 05 From: France Member No.: 495 |
Europe Mars shot looks to upgrade
http://news.bbc.co.uk/1/hi/sci/tech/4812556.stm The consequences of the US science budget cuttings on Exomars mission. |
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Guest_AlexBlackwell_* |
Mar 16 2006, 06:00 PM
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#24
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Europe Mars shot looks to upgrade http://news.bbc.co.uk/1/hi/sci/tech/4812556.stm The consequences of the US science budget cuttings on Exomars mission. Don't underestimate the "nationalistic" angle, Rakhir. "[Converting the ExoMars carrier spacecraft into an orbiter, Vago] said, would allow the European mission 'to gain some independence from MRO' and also pave the way for 'a follow-up to the excellent science Mars Express is conducting today.' "Going down the route of using MRO as a relay means ExoMars would have to compete for time on the orbiter with Nasa's Mars Science Laboratory (MSL) rover, due to launch in 2009." |
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Apr 25 2006, 02:51 PM
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#25
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
The technology for this "lab on a chip" sounds amazing, but since it seems
pretty clear that any existing life on Mars is probably deep underground, what can they hope to find with it just from analysing the surface? Waste products from the creatures that drift upwards? Dead bodies? No, I am not being facetious. Life-Marker Chip Planned For ESA Mars Lander http://www.spacedaily.com/reports/Life_Mar...ars_Lander.html -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Apr 25 2006, 08:43 PM
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#26
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Member Group: Members Posts: 688 Joined: 20-April 05 From: Sweden Member No.: 273 |
The technology for this "lab on a chip" sounds amazing, but since it seems pretty clear that any existing life on Mars is probably deep underground, what can they hope to find with it just from analysing the surface? Waste products from the creatures that drift upwards? Dead bodies? No, I am not being facetious. A great deal. There has been a lot of progress in recent years in identifying bio-marker molecules that indicate the one-time existance of a variety of life forms (cyanobacteria, methanogens, eucaryotes etc) and which are stable enough to last billions of years here on Earth. The main problem is the possibly strongly oxidizing chemistry of Martian topsoil, so it would probably be advisable to crush rocks and analyze the interior. tty |
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May 26 2006, 03:03 AM
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#27
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Member Group: Members Posts: 169 Joined: 17-March 06 Member No.: 709 |
Even though the American Mars program has been cut back, it's nice to know that there will still be one more "M.E.R." going to Mars. Here is a recent look at the 2011 ExoMars Rover as it drives off of its airbag-assisted lander. http://esamultimedia.esa.int/images/aurora...rslander_HI.jpg This image is from ESA. Another Phil |
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May 26 2006, 04:00 AM
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#28
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Senior Member Group: Members Posts: 1281 Joined: 18-December 04 From: San Diego, CA Member No.: 124 |
That's a really nice pic - looks like the drill is included? Like the "chrome" finish
I really like the mission overlap as well - MSL should still be kicking by then... Heck, MERs may even last until Phoenix lands! More here... -------------------- Lyford Rome
"Zis is not nuts, zis is super-nuts!" Mathematician Richard Courant on viewing an Orion test |
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May 26 2006, 04:14 AM
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#29
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Senior Member Group: Moderator Posts: 2262 Joined: 9-February 04 From: Melbourne - Oz Member No.: 16 |
http://esamultimedia.esa.int/images/aurora...rslander_HI.jpg This image is from ESA. That's a neat trick getting it to roll to a stop at the top of a nice hill! Nice looking rover EDIT: Husband Hill summit in the background of this one if I'm not mistaken. http://www.esa.int/esa-mmg/mmg.pl?b=b&keyw...&start=6&size=b James -------------------- |
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Guest_BruceMoomaw_* |
May 26 2006, 04:39 AM
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#30
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I suspect ESA is not going to be able to come anywhere close to cramming all of their currently planned instrument payload onto that little rover. In particular, I suspect the drill may have to get the boot. By the way, I have found the text description of that drill, assuming that it is indeed the same one that Italy was originally supposed to provide for Dan Goldin's hallucinatory 2003 Mars Sample Return mission. (The previously included drawings, unfortunately, have been removed from the website.)
http://ars.asi.it/bandi/marte2003/drill-ao-pip.html |
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May 26 2006, 08:48 AM
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#31
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Rover Driver Group: Members Posts: 1015 Joined: 4-March 04 Member No.: 47 |
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May 26 2006, 09:31 AM
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#32
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Member Group: Members Posts: 593 Joined: 20-April 05 Member No.: 279 |
That's a neat trick getting it to roll to a stop at the top of a nice hill! That does rather suggest a 5-metre landing ellipse. But, apart from its shiney-zingyiness (and surely that's so 1990's?) isn't it a wee bit familiar? Is this the ESA taking up the CCCP's torch that formerly produced the TU-144 and Buran? Andy G |
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May 26 2006, 10:17 AM
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#33
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Member Group: Members Posts: 147 Joined: 14-April 06 From: Berlin Member No.: 744 |
At the first sight what looks much different to me are 3 "eyes" on top of that mast instead of 2 as in MERs. Is this 1. Red 2. Green 3. Blue or something else? Also, I cannot really see any navcams...
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May 26 2006, 11:43 AM
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#34
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
-------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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May 26 2006, 01:40 PM
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#35
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Special Cookie Group: Members Posts: 2168 Joined: 6-April 05 From: Sintra | Portugal Member No.: 228 |
It surely is! And look at all those tiny flags on it! Dressed for success!... -------------------- "Ride, boldly ride," The shade replied, "If you seek for Eldorado!"
Edgar Alan Poe |
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May 27 2006, 02:40 PM
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#36
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Member Group: Members Posts: 153 Joined: 11-December 04 Member No.: 120 |
And armed to kill!
I wonder if the motors on that segmented neck will be used only for deployment or if that camera platform will retain its flexibility throughout the mission (with how many degrees of freedom?). It could make some pretty awesome self-portraits! There seems to be no IDD arm on the thing, other than that monstrous drilling device. So I guess all sample analysis will be done inside the machine? |
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May 28 2006, 01:27 AM
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#37
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Senior Member Group: Moderator Posts: 2262 Joined: 9-February 04 From: Melbourne - Oz Member No.: 16 |
There seems to be no IDD arm on the thing, other than that monstrous drilling device. So I guess all sample analysis will be done inside the machine? Yes there is, tucked under the front there. -------------------- |
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May 28 2006, 01:36 AM
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#38
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
I hope they have some way to pop the drill assembly off the rover if it gets stuck - it'd be a bit of a pity if the drill simply screwed the thing solidly to one spot!
Hmmm... ...Pepsi, anyone? Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Guest_PhilCo126_* |
May 30 2006, 11:40 AM
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#39
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Well, the ESA Marsrover ExoMars 2011 project is featured on the cover of ESA bulletin N° 126 - May 2006. This is a FREE tri-monthly magazine by ESA publications on high quality glossy paper.
Great ExoMars article by the Microgravity & Exploration program dept of ESTEC - Noordwijk - Netherlands. |
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May 30 2006, 12:22 PM
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#40
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
At the first sight what looks much different to me are 3 "eyes" on top of that mast instead of 2 as in MERs. Is this 1. Red 2. Green 3. Blue or something else? Well - actually, MER has 5 eyes on the mast. Two Pancams, Two Hazcams, and Mini-Tes...perhaps this is two variable focal length cameras, and then something TES like in the middle...OR...two wide angle navcams, and a zoom-able high res pancam in mono. |
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May 30 2006, 10:00 PM
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#41
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Member Group: Members Posts: 257 Joined: 18-December 04 Member No.: 123 |
Well, the ESA Marsrover ExoMars 2011 project is featured on the cover of ESA bulletin N° 126 - May 2006. This is a FREE tri-monthly magazine by ESA publications on high quality glossy paper. Great ExoMars article by the Microgravity & Exploration program dept of ESTEC - Noordwijk - Netherlands. It's great, I saw this post while at work. then I arrived home to find the ESA rover looking up at me from the cover of the bulletin. It really is great, being free and all is even nicer! There's a nice article on SOHO too. -------------------- Turn the middle side topwise....TOPWISE!!
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May 31 2006, 01:50 AM
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#42
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Member Group: Members Posts: 307 Joined: 16-March 05 Member No.: 198 |
I notice the ExoMars rover as drawn in those pics has got quite large cleats on its wheels. Would larger ones have been useful on the MERs as well (for getting more easily out of sandtraps, say)?
====== Stephen (The previously included drawings, unfortunately, have been removed from the website.) http://ars.asi.it/bandi/marte2003/drill-ao-pip.html Yes and no. The pics on that page do appear to be missing. However, there is a zip file here (about 850K): http://ars.asi.it/bandi/marte2003/drill.ZIP which contains an MS word document of the same article with the pics embedded. ====== Stephen EDIT NOTE: These were actually two separate posts! |
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May 31 2006, 09:41 PM
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#43
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
I notice the ExoMars rover as drawn in those pics has got quite large cleats on its wheels. Would larger ones have been useful on the MERs as well (for getting more easily out of sandtraps, say)? Nope. The best "tires" or wheels for sandy terrain are ones with very wide and flat with octogonal strips. The cleats does not help anything but to worse the traction capability due to a lower contact surface area. The cleats are only good for firm lands. Rodolfo |
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Jun 13 2006, 12:53 PM
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#44
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
British Scientists Unveil Latest Craft To Search For Life On Mars
London, England (AFP) Jun 12, 2006 British scientists on Monday took the wraps off a prototype craft to search for signs of life on Mars, hailing it the smartest piece of equipment ever designed for exploration of the red planet. http://www.marsdaily.com/reports/British_S...fe_On_Mars.html -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Jun 13 2006, 01:07 PM
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#45
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Special Cookie Group: Members Posts: 2168 Joined: 6-April 05 From: Sintra | Portugal Member No.: 228 |
British Scientists Unveil Latest Craft To Search For Life On Mars London, England (AFP) Jun 12, 2006 British scientists on Monday took the wraps off a prototype craft to search for signs of life on Mars, hailing it the smartest piece of equipment ever designed for exploration of the red planet. http://www.marsdaily.com/reports/British_S...fe_On_Mars.html Bridget?!? -------------------- "Ride, boldly ride," The shade replied, "If you seek for Eldorado!"
Edgar Alan Poe |
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Guest_Analyst_* |
Jun 13 2006, 01:49 PM
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#46
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I am from Europe, but this article is cheap talk, and some bullshit.
QUOTE "The Beagle was really advanced in comparison to most of the stuff NASA is doing. This will be more advanced. This will be the most advanced thing to land on Mars, ..." [...] Spirit and Opportunity have been slowly scouting Mars since landing in early 2004. "They have done maybe 10 kilometers (6.2 miles) in total," Healy said. (The actual total, according to NASA, is 14.86 kilometers, or 9.23 miles.) "The rover here (Bridget) will have done that within four to six months at the most. It's got to go to 10 sites that are up to one kilometer (0.6 miles) apart. "It won't be commanded on the ground. It will get there quicker and spend more time searching using its sophisticated technology... It will bring back more information." Well, Beagle MAY have been advanced UNTIL EDL. I remember the talk in 2003: NASA will do driving and pictures, we will do real science. And I wondered how they put all these instruments into Beagle. They cut other corners. Have they ever heard something about MSL? What is special if in 2011 you are better than two rovers launched in 2003? I still don't see them putting all the instruments, including the drill, into a rover the size of MER. If their budget is 700m euros and 150m euros are for the rover INCLUDING some kind of autonav (quite cheap compared to MER), then 550m euros are for the orbiter, the EDL system and the launcher? A Soyuz is too small for a lander AND an orbiter: Two launches or an Ariane 5? I believe it if it's on the pad. Analyst |
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Jun 13 2006, 01:59 PM
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#47
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
Bridget?!? British scientists are apparently very lonely. To quote from the article: "They have done maybe 10 kilometers (6.2 miles) in total," Healy said. (The actual total, according to NASA, is 14.86 kilometers, or 9.23 miles.) "The rover here (Bridget) will have done that within four to six months at the most. It's got to go to 10 sites that are up to one kilometer (0.6 miles) apart." To echo Analyst, of course a rover one decade from the time of the MERs is likely going to do better. But I am not impressed that it will do things faster. It's the quality of the data I care about. If you want faster and better (but not cheaper), send humans. -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Jun 13 2006, 02:05 PM
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#48
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
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Guest_Analyst_* |
Jun 13 2006, 02:31 PM
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#49
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Good point.
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Jun 13 2006, 02:33 PM
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#50
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Member Group: Members Posts: 134 Joined: 13-March 05 Member No.: 191 |
Haven't seen this posted yet, so...
You can download a 3 minute .avi video of Briget in action. Download Now if only JPL would let us see the MSL video. |
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Jun 13 2006, 02:48 PM
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#51
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Special Cookie Group: Members Posts: 2168 Joined: 6-April 05 From: Sintra | Portugal Member No.: 228 |
Bridget: (origin: Gaelic.) Brighid, "fiery dart." The name of the muse who was believed to preside over poetry in pagan times, in Ireland. Brighid, in the Gaelic, also signifies a hostage, a pledge of security.
It will be well fitted when she's speeding through the martian landscape... -------------------- "Ride, boldly ride," The shade replied, "If you seek for Eldorado!"
Edgar Alan Poe |
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Jun 13 2006, 03:58 PM
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#52
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
"They have done maybe 10 kilometers (6.2 miles) in total," Healy said. (The actual total, according to NASA, is 14.86 kilometers, or 9.23 miles.) "The rover here (Bridget) will have done that within four to six months at the most. It's got to go to 10 sites that are up to one kilometer (0.6 miles) apart." To echo Analyst, of course a rover one decade from the time of the MERs is likely going to do better. But I am not impressed that it will do things faster. It's the quality of the data I care about. If you want faster and better (but not cheaper), send humans. These improvement will depend upon to a much improved microprocessor. The vital brain to direct as fast, as smart and as efficiently all Mars' operations. That part, MER is lacking that much power since it depends very much from Earth remote commanding. The know most powerful microprocessor that is going to send along with MSL: RAD 750, alike to IBM/Motorola PowerPC 750 dated on the year 1998 which is still very much lagged to our present technology. (Third Generation and now the latest ones is of 5 Generation with 8.125 times faster). Maybe, one of the most noticeable bottleneck of the space exploration advancement is the radiation-hardened process done by the BAE Systems, isn't? Rodolfo |
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Guest_DonPMitchell_* |
Jun 13 2006, 04:35 PM
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#53
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Space programs are fundamentally competative, which is probably a good thing. International competition has always been a bigger source of passion for space exploration than the politically-correct theory of international cooperation.
That said, the Amercians and Russians generally played by the rule that you get to brag only after you accomplish something. I'm not impressed by Chinese dictators saying they will build Moon bases. I'm not impressed by computer graphics images of spaceships that haven't been built yet. And I question whether a Mars lander is more advanced than anything NASA ever did, after it hits the planet like a bug against a windshield on the freeway. |
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Jun 13 2006, 05:54 PM
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#54
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
Haven't seen this posted yet, so... You can download a 3 minute .avi video of Briget in action. Download Now if only JPL would let us see the MSL video. No. Briget will end up as a crazy cat lady, hiding Martian cats away in the safety of her (fur-free) crater... Sabrina would have been a better name, especially if powered by an RTG, but those fules know NOTHING about atomms. Bob Shaw (Form IIIe) -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Jun 13 2006, 09:30 PM
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#55
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Dublin Correspondent Group: Admin Posts: 1799 Joined: 28-March 05 From: Celbridge, Ireland Member No.: 220 |
The know most powerful microprocessor that is going to send along with MSL: RAD 750, alike to IBM/Motorola PowerPC 750 dated on the year 1998 which is still very much lagged to our present technology. (Third Generation and now the latest ones is of 5 Generation with 8.125 times faster). You are right that the RAD-750 represents the best current hardware that is rated for missions like these but it's worth pointing out that the RAD-750 is closer to 20x slower than current generation hardware (whether x86, Power, ARM, Niagra (SPARC) or Cell). More importantly the MIPs( or FIPS)\watt numbers for some of the current gen hardware beats the RAD-750 by almost 200x. The latest 1Ghz ULV Core Duo has an average power consumpton of 0.75watt. Benchmarking comparisons are hard when the CPU architectures are as different as the Power architecture of the RAD-750 and the x86 Core Duo are but the former is rated at ~240 VAX Mips while the 1 Ghz ULV Core Duo is about equivalent to a 2Ghz P4 which is ~4500 VAX Mips. That's just shy of 20x the processing capability while eating 7.5% of the power. It's also worth pointing out that the RAD-750 has about 20x the performance per watt of the RAD6000 that the MER's use (22 Mips peak @ 20 Watts) which makes the MER on board compute capability about 4000x worse than the current "state of the art" here on earth. For me that just shows how extremely hard space exploration actually is. |
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Jun 13 2006, 09:53 PM
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#56
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Helvick, Your comments are for Amen! Much improvement. If the MSL or ExoMars would have had it, it would be a good Mars soldier!
I think that the radiation-hardening process is a very long, expensive and complicated process. I don't know about its process but I suspect that this process takes again the same process as the original but with others material. I will try to find more information about this process since I think it is one of that is causing a BIG TECHNOLOGICAL LAGGING for any sophisticated space explorations. Rodolfo |
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Jun 13 2006, 09:58 PM
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#57
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
Of course, with custom realtime OS's - the processing overheads for your average spacecraft are only a fraction of those for the OS's used by those 'mainstream' processors. I've not actually heard of computing performance being a limiting factor for spacecraft - but I may have missed such reports.
Doug |
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Jun 13 2006, 10:29 PM
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#58
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Dublin Correspondent Group: Admin Posts: 1799 Joined: 28-March 05 From: Celbridge, Ireland Member No.: 220 |
. I've not actually heard of computing performance being a limiting factor for spacecraft - but I may have missed such reports. For most spacecraft they aren't but the power consumption of the RAD6000 on the MER's is a significant percentage of the daily power budget. The numbers that I have gleaned from the various web sources are not necessarily reliable but they seem to broadly agree that the "processing" consumes about ~30% of the power budget on average and more than that for compute intensive activities like VISODM. A standard VISODM "step" is around 75cm of drive (15 seconds) followed by 2-3 minutes of computing. I think that the drive motors consume around 30W but even if they consume 100W at full tilt and the analysis only take 2 minutes then a VISODM drive segment consumes 50% more power on computing than it does on actual motion. |
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Jun 14 2006, 12:04 AM
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#59
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Senior Member Group: Members Posts: 1281 Joined: 18-December 04 From: San Diego, CA Member No.: 124 |
Did someone say RAD 750 User Manuals?
And much more.... EDIT _ DOH! The links to the manuals are broken, but the other stuff is still neat. -------------------- Lyford Rome
"Zis is not nuts, zis is super-nuts!" Mathematician Richard Courant on viewing an Orion test |
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Jun 14 2006, 01:43 AM
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#60
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Member Group: Members Posts: 234 Joined: 8-May 05 Member No.: 381 |
I'm an absolute idiot when it comes to computers, but if the RAD-750 doesn't provide all the processing power you want for MSL or ExoMars, can't you put more than one aboard a rover, each RAD-750
controlling different functions on the rover? |
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Jun 14 2006, 02:24 AM
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#61
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Senior Member Group: Members Posts: 2517 Joined: 13-September 05 Member No.: 497 |
I've not actually heard of computing performance being a limiting factor for spacecraft - but I may have missed such reports. Generally, Doug is right. There's a lot of semi-informed speculation on this thread, less real info. The RAD750's performance is comparatively poor from two factors: first, the process changes that make its internal registers immune from radiation-induced bit flips slow down the clock speed considerably, but more importantly, external components, also rad-hard, are running more slowly, as are the busses. The RAD750 on MRO doesn't even have an L2 cache and it's using a 33-MHz PCI bus. If you wanted a non-mission-critical computing resource that didn't have to be totally bulletproof against radiation, there are many options, including commercial processors that happen to be latchup-immune and various gate arrays. For our MSL instruments we are using Xilinx FPGAs; clocked at 40 MHz they are many times faster at doing JPEG compression than code running on a fast desktop system would be. Rover speed is typically limited more by the capabilities of the drivetrain and the overall power budget. It's not like MER would be going 50 KPH with a faster processor. Despite what AI people will try to tell you, we don't know how to write autonomous nav software regardless of how fast our processors are. And finally, MIPS (aka "Meaningless Indicator of Processor Speed") is a bad metric for judging computer performance in this or any other problem domain. -------------------- Disclaimer: This post is based on public information only. Any opinions are my own.
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Jun 14 2006, 02:59 AM
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#62
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Rover speed is typically limited more by the capabilities of the drivetrain and the overall power budget. It's not like MER would be going 50 KPH with a faster processor. Despite what AI people will try to tell you, we don't know how to write autonomous nav software regardless of how fast our processors are. And finally, MIPS (aka "Meaningless Indicator of Processor Speed") is a bad metric for judging computer performance in this or any other problem domain. I was thinking that too. The AI is one of the software components which needs a fast CPU, lots of RAM in order to perform the harzard avoidance analyze more sophisticated and perform the required action with a much better performance as the MER does. A much improved AI will need much less from Earth remote direction and hence the rover will have greater autonomy to perform the core activities more productively in Mars. It is true that the MIPS "Millions Instructions per Second" is an old comparision computing power that actualy is obsolete except it is only good to have an idea about how the younger brother computer is improved against the older brother if the model or serie is about the same. Well, I seems like that the AI is a new field that must work harder to improve the space exploration by improving the autonomy capabiltity of probe or rover. If the microprocessor RAD750 is limited in its computing capability, so why don't put more microprocessors in parallel. The most powerfull computers work with many processors in parallel. In few words, I think the AI is still very new and I speculate that in the future, the AI will play with a much greater importance. Imaginate that JPL tell the rover: "Please go there, over that dark spot and tell me what is that up? Rodolfo |
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Guest_DonPMitchell_* |
Jun 14 2006, 03:23 AM
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#63
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The Bell Labs inventor of UNIX, Ken Thompson, was once on an ACM panel discussion and the question was posed, "What is the major contribution of AI to Computer Science". Ken answered, "Fraud!". That was probably true a a few decades ago, when MIT and Stanford AI labs dominated the field. You had grandiose claims and no real results. One famous Stanford profressor, giving a demonstration of an English-language query system, accidently hit the carriage return twice -- the program printed the answer to his question, and then printed the answer to the next question, which he hadn't typed yet.
These days, I would take a look at AI development in the computer-game industry. Games, as frivolous as they may seem, are the driving market force behind a lot of elements of the computer industry. Why does the graphics card in your PC go faster than an SGI workstation? Why do the Intel and AMD processors do vector math? Why was the Cell Processor developed? PC games. That is the commercial application of megaflops. [attachment=6232:attachment] Now let's talk radiation hardened computers. Here is a good solid Russian solution! |
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Jun 14 2006, 03:45 AM
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#64
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Senior Member Group: Members Posts: 2517 Joined: 13-September 05 Member No.: 497 |
If the microprocessor RAD750 is limited in its computing capability, so why don't put more microprocessors in parallel. Three answers: mass, power, and cost. A single flight RAD750 board uses tens of watts, weighs over a kilo (just for the board, not counting card cage, etc.) and costs, last time I checked, nearly a million dollars. And we don't need more cycles anyway. These days, I would take a look at AI development in the computer-game industry. Games have driven graphics development, sure. But I would argue that there's nothing like real AI in any game out there. Real AI of a sort useful for rovers would be able to sense the environment and react/plan accordingly. Games just don't have to do that; they define the environment, there's no need to sense it. -------------------- Disclaimer: This post is based on public information only. Any opinions are my own.
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Jun 14 2006, 06:48 AM
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#65
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Dublin Correspondent Group: Admin Posts: 1799 Joined: 28-March 05 From: Celbridge, Ireland Member No.: 220 |
Generally, Doug is right. There's a lot of semi-informed speculation on this thread, less real info. ... And finally, MIPS (aka "Meaningless Indicator of Processor Speed") is a bad metric for judging computer performance in this or any other problem domain. Thanks for jumping in Mike - you are dead right on both of the above. I used Mips quite arbitrarily and without enough qualification but the intention was to find some metric that emphasized how extremely different the stuff that has to fly is from what we can put in general purpose PC's. On the issue of rover speed I was trying to show that there are situations where the current rovers' progress is, to some degree, limited by the electrical power that the onboard computing systems consume during the compute intensive semi autonomous driving modes. I agree that any "improvement" in that would not necessarily lead to a faster rover but it would free up some power for other things. |
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Jun 14 2006, 09:34 AM
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#66
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Senior Member Group: Members Posts: 2488 Joined: 17-April 05 From: Glasgow, Scotland, UK Member No.: 239 |
Now let's talk radiation hardened computers. Here is a good solid Russian solution! Don: What is it? Bob Shaw -------------------- Remember: Time Flies like the wind - but Fruit Flies like bananas!
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Jun 14 2006, 04:45 PM
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#67
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Three answers: mass, power, and cost. A single flight RAD750 board uses tens of watts, weighs over a kilo (just for the board, not counting card cage, etc.) and costs, last time I checked, nearly a million dollars. And we don't need more cycles anyway. Good to hear your comments! About the weigth, its is by far heavier than any normal microprocessor and its peripheral components; its price is prohibitive for any commercial applications. However, a more powerfull microprocessor will save money on the other side. It is that we are going to learn the results quicker and hence the mission won't take as long as does MER, hence saves money to the mission operations. Hence, I see that AI is a very promisory role for future space missions and NASA must pay greater efforts on that. I have enclosed a interesting reports in which make lots of emphasis about the importance of autonomy for a greater producivity of mission. The productivity depends much by a powerfull microprocessor. QUOTE For rovers and robots, we're trying to design autonomous intelligent agents that can survive in hostile environments. QUOTE Mars is a lot more complicated than that, but this particular technique is based on trial and error, so it's self-learning. We train the robots with something called a "fitness function," but we're not to clear on how to build to most optimal training regime. We want to mix and match different types of environments to get the robot to learn to be robust, so no matter what situation it finds itself in, it can still navigate. But spacecraft engineers are notoriously conservative, and they don't like new things. So it's a constant battle to try and convince the agency that what we're doing will work and that it's better than the technique they currently have. That's always an uphill struggle. So AI is still a novel and with a radiation hardened microprocessor up to date will help to improve the AI. A Naturally Inspired Robot MarExo The problem resides of a very long time lagging between the new microprocessors and the radiation-hardened ones. Mike, do you know why it is? Rodolfo |
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Guest_DonPMitchell_* |
Jun 14 2006, 05:04 PM
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#68
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Guests |
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Jun 15 2006, 03:37 PM
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#69
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Brits Unveil Latest Robot To Search For Life On Mars
British scientists on Monday took the wraps off a prototype craft to search for signs of life on Mars, hailing it the smartest piece of equipment ever designed for exploration of the red planet. Details about Bridged
Rodolfo |
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Jun 15 2006, 04:49 PM
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#70
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Dublin Correspondent Group: Admin Posts: 1799 Joined: 28-March 05 From: Celbridge, Ireland Member No.: 220 |
Hence, I see that AI is a very promisory role for future space missions and NASA must pay greater efforts on that. I must say that I'm fully in agreement with Mike on the liklihood of "AI" being of any benefit to rovers any time soon. More computing power will help some limited functionality and the power consumption\weight savings that might be made by space rating current computing tech would be worth some effort but the end result will not be AI or anything close. I've worked on and with such systems in the past and they have always disappointed. Fully autonomous AI is still 20+ years out even here on earth with effectively unlimited power and size constraints.We still do not have even the beginnings of the theoretical foundations of what will be needed to build an AI. Assisted rather than artificial intelligence is something that has made significant strides but the only places where Artificial Intelligence has made any progress have been in well defined domains (e.g. Chess playing systems like Fritz) but even those are really just variants on assisted intelligence where the only brains belong to the developers or users. "Expert" systems, genetic algorithms, simulated annealling, neural networks, bayesian filters and the rest are useful in extremely well defined problem domains but each one has been over hyped. |
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Jun 16 2006, 05:49 AM
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#71
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Director of Galilean Photography Group: Members Posts: 896 Joined: 15-July 04 From: Austin, TX Member No.: 93 |
What's your thoughts on the DARPA challenge? AI or not, they did essentially do what the MERs do, except at 30+ miles per hour, usually using multiple high-end machines to manage the sensors and AI. With MRO quality imagery and a Mars GPS system, rovers going 1-5MPH on their own should be reasonable.
-------------------- Space Enthusiast Richard Hendricks
-- "The engineers, as usual, made a tremendous fuss. Again as usual, they did the job in half the time they had dismissed as being absolutely impossible." --Rescue Party, Arthur C Clarke Mother Nature is the final inspector of all quality. |
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Jun 16 2006, 06:20 AM
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#72
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
We don't have a Mars GPS system, and we're highly unlikely to have one within a couple of decades - however some of the hazard avoidance and image interp. of the Darpa winners is fantastic and I'm hoping that the US Military doesnt keep it all to itself and some algorythms can make it through to potential planetary rovers in the future.
But - and it's a big but - and likely to be so for a very long time - those DARPA vehicles are using essentially mobile super-computers compared to anything put into space. Maybe it goes around in circles a little bit No powerfull space-suitable CPU's available....so no high processing requirements ever made No requirement thus no real shotcoming in the availability of more powerfull processors etc etc. Doug |
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Guest_DonPMitchell_* |
Jun 16 2006, 07:17 AM
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#73
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It would save a lot of time and planning if a rover was even smart enough to take commands from Earth like "Turn 35 degrees and go 250 meters, avoiding obstacle".
Computer vision is notoriously unrobust. Stereo fusion (calculating a depth map from two camera views) has been around for decades, but it can be fooled by unusual textures or visibility features (something one camera sees but is hidden to the other). You definately want to believe input from cat whiskers or inclinometers more than you believe the vision algorithm, or the rover will end up driving off a cliff. You're pushing the limits of robust AI algorithms to plan a path around an obstacle and still try to reach the target coordinates. And if anything hairy happens, it should stops and call Earth for help. Recognition and path planning tasks performed routinely by a rodent are well beyond what a super computer can do today. The issue isn't processor speed, it is the primitive state of the art in AI algorithms. It's an unfortunately feature of academic AI culture to exagerate that state of the art, so be skeptical until you see a rover really doing what is promised on realistic outdoor terrain, not a white floor with colored cubes. |
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Jun 16 2006, 09:01 AM
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#74
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
Don - have you seen the results of the Darpa challenge? It couldn't be any less lab-conditions - it was quite an achievment. Loads of the entries were complete failures - but a few were superb and completed a complex course over terrain both rough and smooth, with plenty of obstacles, totally unassisted.
Doug |
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Jun 16 2006, 02:09 PM
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#75
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Senior Member Group: Members Posts: 2454 Joined: 8-July 05 From: NGC 5907 Member No.: 430 |
Jim Bell said that during certain points of the day, especially at sunrise
and sunset, the Mars Rovers would sometimes refuse to move ahead. Turns out they interpreted their shadows as pits in the ground and did not want to fall into them. They had to be "told" that shadows were okay to drive on. About a decade ago, a robot car designed by the US military being tested on a regular automobile road kept swerving over to the other side of the lane for seemingly no reason. Turned out that a row of trees had their shadows falling across the road and the robot car interpreted them as obstacles and obeyed its programming by trying to avoid them. This does make one admire the abilities of what the brain can do in such a compact package. -------------------- "After having some business dealings with men, I am occasionally chagrined,
and feel as if I had done some wrong, and it is hard to forget the ugly circumstance. I see that such intercourse long continued would make one thoroughly prosaic, hard, and coarse. But the longest intercourse with Nature, though in her rudest moods, does not thus harden and make coarse. A hard, sensible man whom we liken to a rock is indeed much harder than a rock. From hard, coarse, insensible men with whom I have no sympathy, I go to commune with the rocks, whose hearts are comparatively soft." - Henry David Thoreau, November 15, 1853 |
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Jun 16 2006, 02:13 PM
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#76
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Senior Member Group: Members Posts: 2517 Joined: 13-September 05 Member No.: 497 |
What's your thoughts on the DARPA challenge? AI or not, they did essentially do what the MERs do, except at 30+ miles per hour... And on a road. -------------------- Disclaimer: This post is based on public information only. Any opinions are my own.
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Jun 16 2006, 02:38 PM
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#77
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
To be fair - it was hardly a beautiful tarmac highway....
http://www.darpa.mil/grandchallenge05/gran...05/dsc_3925.jpg There are bits of the floor of Gusev crater, and almost all of Meridiani where I would rather drive my car than on that road Doug |
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Jun 16 2006, 03:20 PM
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#78
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Senior Member Group: Members Posts: 2517 Joined: 13-September 05 Member No.: 497 |
To be fair - it was hardly a beautiful tarmac highway.... Most of the teams preprogrammed the entire route from airphotos/satellite images and could have (or did) dead-reckoned nearly the whole way on GPS without even having vision or laser-scanning systems. And the vision systems were highly optimized to find the road edges. I looked at this fairly extensively a few months back, and in my opinion the applicability to planetary rovers is pretty low. I won't even discuss the relative power density between gasoline and solar or RTG systems. Between lidar and racks of processors, the GC vehicles were burning through kilowatts of electricity. -------------------- Disclaimer: This post is based on public information only. Any opinions are my own.
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Jun 16 2006, 03:29 PM
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#79
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
Oh - I quite agree ( and mentioned earlier ) there are few parallels
The simplest way to do this sort of thing is to put a human brain in the loop. Doug |
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Jun 16 2006, 04:06 PM
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#80
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Oh - I quite agree ( and mentioned earlier ) there are few parallels The simplest way to do this sort of thing is to put a human brain in the loop. Doug Sure, the control remote range of present technology won't be practical beyond of Mars. That is that any kind of robot (rover, aerobot, plane) on any Gallilean and Saturninian moons won't be easy without a well developed AI along with plenty peripheral sensors and powerfull computer system to advance the scientific mission not so longer time than the MER's does in Mars. At the present technology, to rover in a real time in Moon is feasible, in Mars, only with remote command up to 95% and 5% of hazards avoidance. For Mars and Venus, the robot technology areas needs to work harder in both ways: Improve the AI and peripheral sensors and hence, this demand will develop a new market so that, I think, BAE will justify it as a good business before selecting a more powerfull microprocessor and its peripherals (RAM, EPPROM, ROM, bus, etc.) to be radiation-hardened. Rodolfo P.D.Now there are soccer game among mini-robots (very funny). |
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Guest_DonPMitchell_* |
Jun 16 2006, 07:26 PM
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#81
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Guests |
Most of the teams preprogrammed the entire route from airphotos/satellite images and could have (or did) dead-reckoned nearly the whole way on GPS without even having vision or laser-scanning systems. And the vision systems were highly optimized to find the road edges. That's what I was getting at. It is a successful but special-purpose solution. I do think it is feasible to get a rover to avoid obsticles with occasional calls for help. But that takes another special-purpose solution that is pushing the state of the art. The rover is not going to be "smart" in any sense. News articles about these kinds of things always exagerate, both because the journalists don't understand the science and because the academic culture has evolved to speak very aggressively and compete for precious small grant money. There is a natural tendancy to anthropormorphize, and you see blatent attempts to encourage that with projects like these. They are fun to check out, but what you see is misleading. What biological brains do is indeed remarkable, and the robots you see in movies are pure science fiction. Nobody really knows how smart a computer could be if it was programmed correctly. Maybe a high-end PC could be as smart as a human, but the breakthrough in software technology has not happened yet. |
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Guest_PhilCo126_* |
Jun 22 2006, 11:07 AM
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#82
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Here's the cover of ESA BUlletin we talked about ( FREE copies available via ESA publications )
http://www.esa.int/esaMI/ESA_Publications/index.html |
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Jun 23 2006, 12:32 PM
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#83
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Member Group: Members Posts: 307 Joined: 16-March 05 Member No.: 198 |
That's what I was getting at. It is a successful but special-purpose solution. I do think it is feasible to get a rover to avoid obsticles with occasional calls for help. But that takes another special-purpose solution that is pushing the state of the art. The rover is not going to be "smart" in any sense. Actually, the issue here is navigation. Avoiding obstacles is only a very tiny part of that. In that respect Meridani and Gusev are not really very challenging sites and Spirit and Opportunity not really very representative of the kinds of rovers that will be needed to traverse them. Both sites are largely open plains where for the most part obstacles are few and far between and those which do occur a rover can generally (the sandtraps Opportunity keeps getting itself mired in are an important exception) see coming for dozens of yards if not a mile or two off, and thus can identify them (and work out a way around them) long before it actually encounters and has to deal with them. Even the dune/ripple fields Opportunity is currently traversing are no real obstacle. Not only can it see over their tops, when it comes to an end of a trough instead backtracking and going around to another it generally simply rolls over a ripple to a neighbouring trough. That sort of solution would have been far less viable, if not downright impossible, had it been confronted by (say) the kind of rock-filled obstacle course Sojourner faced at its site. As for the rovers themselves, the task of navigating Spirit and Opportunity is done almost entirely by minds back on Earth. For example, Opportunity does not decide for itself which sand trough to travel down. Its human babysitters decide for it. In that respect nothing much has really changed since the days of the Soviet lunar rovers of the 1970s and it seems unlikely to change any time soon; and even if it could change it needs to be remembered that a rover is really only a kind of proxy explorer for its human controllers on Earth. The latter will want to decide for themselves where their proxy is going. That inevitably is going to slow rover progress down to the speed the humans can get pics and other information back from the rover to Earth, make a decision, then upload the next batch of instructions. Not to mention limiting it to how far the humans can see. What biological brains do is indeed remarkable, and the robots you see in movies are pure science fiction. Nobody really knows how smart a computer could be if it was programmed correctly. Maybe a high-end PC could be as smart as a human, but the breakthrough in software technology has not happened yet. No existing PC, high-end or otherwise, would be able to run such software--because no PC yet invented can match the speed of the human brain. Individually, neurons are certainly slow-coaches compared to even the slowest electronic CPU, but when they are harnessed in parallel, as the human brain does, they can process information at blinding speeds. You have only to consider how fast your own brain can identify obstacles in front of you and get you to react in some appropriate fashion then compare it to the time it takes Spirit or Opportunity to decide that the rock in front of them is an obstacle they have to go round rather than over. Hardware breakthroughs as well as software ones will be needed before electronic brains became as smart as human ones. (And even then do not expect to see them being placed inside rovers and rocketed off on one-way trips to Mars. The creation of AI's is going to pose all kinds of ethical dilemmas when they do eventuate. For if computers ever do become as smart as human beings one issue that is inevitably going to be raised at some point is whether they should be accorded the same rights as human beings. That would presumably include not being sent off to other planets on what would amount to suicide missions.) ====== Stephen |
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Jun 23 2006, 12:39 PM
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#84
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
n that respect nothing much has really changed since the days of the Soviet lunar rovers of the 1970s and it seems unlikely to change any time soon; and even if it could change it needs to be remembered that a rover is really only a kind of proxy explorer for its human controllers on Earth. Actually - that's not quite fair - Sojourner and MER were both able to be given a target point, and make progress toward that target point, and would avoid obsticles in the way, navigate around them and return to the target point. There was one great example where Spirit actually gave up and drove backwards around an obsticle early on. So yes - you couldn't say to Spirit "go to the top of Husband Hill " from the rim of Bonneville..it still requires people in the loop on a daily basis - BUT - it's a lot smarter than you give credit for really. Doug |
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Jun 23 2006, 02:42 PM
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#85
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Member Group: Members Posts: 153 Joined: 11-December 04 Member No.: 120 |
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Jun 23 2006, 05:24 PM
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#86
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Senior Member Group: Members Posts: 3419 Joined: 9-February 04 From: Minneapolis, MN, USA Member No.: 15 |
Cugel, we're talking about artificial *intelligence*... that last word has very little to do with politicians.
-the other Doug -------------------- “The trouble ain't that there is too many fools, but that the lightning ain't distributed right.” -Mark Twain
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Jun 24 2006, 04:52 PM
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#87
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Senior Member Group: Members Posts: 1018 Joined: 29-November 05 From: Seattle, WA, USA Member No.: 590 |
Has anyone proposed a manned mission for the purpose of controlling one or more rovers from orbit but without attempting to land human beings on the surface? I'd think we'd be able to get a lot more out of the rovers if they were controlled from no more than a few light seconds distance.
I could imagine this working for Mars or Venus, and I'd think that the cost would be a lot less than a mission that aimed to put people on the surface, but I've never seen it discussed anywhere. |
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Jun 24 2006, 05:40 PM
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#88
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Rover Driver Group: Members Posts: 1015 Joined: 4-March 04 Member No.: 47 |
I've heard people on message boards like these suggest something similar, with a Phobos base. I'm sure the agencies have thought about these kind of things like they have thought about lunar bases etc.
I'm afraid we have to be patient for now. |
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Jun 24 2006, 08:52 PM
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#89
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Has anyone proposed a manned mission for the purpose of controlling one or more rovers from orbit but without attempting to land human beings on the surface? I'd think we'd be able to get a lot more out of the rovers if they were controlled from no more than a few light seconds distance. I could imagine this working for Mars or Venus, and I'd think that the cost would be a lot less than a mission that aimed to put people on the surface, but I've never seen it discussed anywhere. That is one of the weakest point of NASA's research fund programs which is to improve the capability of robots for unmanned explorations. We are still using Pentium III alike for MSL and MRO. That is still backward. No much work on the interface between smart sensors, computer and software. Now, the Japan is leading on that field. We might send the Asimo, Honda's Humanoid Robot. That robot can walk and salute as any human. http://asimo.honda.com/inside_asimo.asp?bhcp=1 Excitement fills the theater as guests witness ASIMO maneuver through a home nvironment using its amazing mobility capabilities such as walking forward and backward, climbing and descending a flight of stairs and even dancing! However, the objective of Asimo design is to imitate as close as possible to humanoide action. Later, there were others incorporations such as the reasoning to solve problems. Rodolfo |
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Jun 24 2006, 08:58 PM
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#90
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
We are still using Pentium III alike for MSL and MRO. That is still backward Actually the CPU's in most modern spacecraft are more like 1/10th the performance of a Pentium 3....and what's more, there's not much requirement for anything better. Now - you could argue that it's cyclical - the need for more on orbit computing power has not arisen because people have programmed for what is available and that's tended to be 'enough'. Also - spacecraft are tending to become little centres for distributed computer, with each instrument having it's own processor dedicated to the aquisition, compression and storage of it's own data - it leaves the CPU of most spacecraft doing the comparatively simple task of attitude control, data management, and streaming stuff through to telecoms etc. I'm sure if there were something 10x faster availabel for on orbit computing, it would be utilised...but the fact that such a processing system isn't in place perhaps suggests it isn't really that necessary. You drop the bloated OS, the graphics and so forth, dedicate the use of your CPU to on orbit computing, and actually, the mathematics behind a spacecraft are comparatively simple. Doug |
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Jun 24 2006, 10:41 PM
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#91
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Administrator Group: Admin Posts: 5172 Joined: 4-August 05 From: Pasadena, CA, USA, Earth Member No.: 454 |
Has anyone proposed a manned mission for the purpose of controlling one or more rovers from orbit... Yep, that's a pretty clear way to make the most of human brains & robot brawn. Let the humans stay in orbit with a nice big station that you don't need to land, and let them run remotely operated robots all over the place that can stay out there all the time, don't need to come in at night (or in winter), don't need the constant "maintenance" that us humans need. This is considered to be the only feasible way to do "human" exploration of Venus. It was also one of the motivations behind our original "Red Rover, Red Rover" project with LEGO. And we still have the pipe dream of a project in which we'd build some kind of nanorovers that could be landed on the Moon -- and then operated by members of the public, for no other reason than how cool it would be for you to be able to sit down at your computer and drive a rover that was actually on the Moon. Wouldn't that be neat? Someday...--Emily -------------------- My website - My Patreon - @elakdawalla on Twitter - Please support unmannedspaceflight.com by donating here.
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Jun 24 2006, 10:54 PM
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#92
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Founder Group: Chairman Posts: 14433 Joined: 8-February 04 Member No.: 1 |
I confess...I've driven every functional RRGTM station I could find - and even made a little mosaic from one of them (long lost...but I might try and make another one )
Doug (PS - attached one from the Davis Creek Elementary site....the TPS one worked for a bit, then the top half of the interface wouldn't refresh If I can get it working again, I'll do a pan from there as well....but I have to say, the calibration process is shocking ) |
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Jun 24 2006, 11:43 PM
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#93
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Administrator Group: Admin Posts: 5172 Joined: 4-August 05 From: Pasadena, CA, USA, Earth Member No.: 454 |
Beautiful work, Doug!
To get the TPS one to work better I have to give a kick in the pants to the guy who is SUPPOSED to restart its computer daily...who usually remembers to do so for a couple of days and then, well, it doesn't happen anymore...sigh... --Emily -------------------- My website - My Patreon - @elakdawalla on Twitter - Please support unmannedspaceflight.com by donating here.
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Jun 25 2006, 01:29 AM
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#94
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Actually the CPU's in most modern spacecraft are more like 1/10th the performance of a Pentium 3....and what's more, there's not much requirement for anything better. Now - you could argue that it's cyclical - the need for more on orbit computing power has not arisen because people have programmed for what is available and that's tended to be 'enough'. Also - spacecraft are tending to become little centres for distributed computer, with each instrument having it's own processor dedicated to the aquisition, compression and storage of it's own data - it leaves the CPU of most spacecraft doing the comparatively simple task of attitude control, data management, and streaming stuff through to telecoms etc. I'm sure if there were something 10x faster availabel for on orbit computing, it would be utilised...but the fact that such a processing system isn't in place perhaps suggests it isn't really that necessary. You drop the bloated OS, the graphics and so forth, dedicate the use of your CPU to on orbit computing, and actually, the mathematics behind a spacecraft are comparatively simple. Doug Yes, sure that NASA has selected rightly the capability of microprocessors for the missions of MRO and MSL since they aren't going to need a more powerfull microprocessors to support the mission cores that is mostly dependent by remote control principally to MSL. If NASA has put more effort about the improvement navigation autonomy of robot, sure MSL will need a more powerfull microprocessor to depend less from Earth remote control. Hence, the geology and biology scientific missions would be more productive with improvement advancement and faster return of results. Rodolfo |
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Jun 25 2006, 01:39 AM
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#95
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Administrator Group: Admin Posts: 5172 Joined: 4-August 05 From: Pasadena, CA, USA, Earth Member No.: 454 |
Question -- would faster microprocessors also require more power?
--Emily -------------------- My website - My Patreon - @elakdawalla on Twitter - Please support unmannedspaceflight.com by donating here.
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Jun 25 2006, 01:54 AM
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#96
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Question -- would faster microprocessors also require more power? --Emily Definitely, yes. That is one of the engineering concerns. However, there is a new variety of microprocessors which are energy efficient, inclusive much energy economy than RAD750 and are much more powerfull such as the Intel Centrino of last genertion which as capable as the last model of Pentium IV. Rodolfo |
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Jun 25 2006, 05:19 AM
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#97
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Member Group: Members Posts: 599 Joined: 26-August 05 Member No.: 476 |
Well, I wouldn't say definitely. In general, power = C*v^2*f where C is a constant depending on the number of gates and the process (how small the gates are), v is the supply voltage, and f is the switching frequency. You can bump up the frequency and keep the same power by improving process and reducing supply voltage.
Terrestrial bound commercial microprocessors have kept pushing process improvements (lower switching and quiescent power per gate), and supply voltage reductions. Analagous improvements in rad-hard microprocessors are more difficult and have been slower-paced since reducing gate geometries and switching threshold voltages typically makes them more susceptible to particle induced single event upsets. And there is less economic demand for rapid improvements in rad-hard proceessors than in commercial processors. Rad-hard processors are thus more likely than commercial processors to require more power for higher switching frequencies. |
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Jun 25 2006, 10:09 AM
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#98
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Dublin Correspondent Group: Admin Posts: 1799 Joined: 28-March 05 From: Celbridge, Ireland Member No.: 220 |
Rad-hard processors are thus more likely than commercial processors to require more power for higher switching frequencies. 100% true however it is worth pointing out that as the technologies improve the general trend is towards (much) more computing power per watt within similar processors. The MER RAD6000 from BAE consumes 20watts @ 20Mhz. The RAD750 comsumes 5-14watts @ 132Mhz. The 750 in it's most stringent radiation hardened mode is at least 20x more efficient (in terms of instructions/watt) than the 6000 used on the MER's. |
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Jun 26 2006, 12:12 AM
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#99
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Senior Member Group: Members Posts: 1636 Joined: 9-May 05 From: Lima, Peru Member No.: 385 |
Well, I wouldn't say definitely. In general, power = C*v^2*f where C is a constant depending on the number of gates and the process (how small the gates are), v is the supply voltage, and f is the switching frequency. You can bump up the frequency and keep the same power by improving process and reducing supply voltage. Thanks for your comments which are good. About the power consumption of microprocessors depends what you mentioned (more gates or transitors and frequency, leads greater temperature due to greater power consumption in Watts). There is a limit of temperature that the semiconductor material becomes unstable its electrical conducting properties (leakages currents). That is the Moore's law. The other factor that influences the consumption of watts is related to the type of material (Bipolar versus CMOS). Historically, there is a growing power consumption when the frecquency and number of circuits grows until a change of material technology, drops the power consumption. As an example: Bi-polar material was requering lots of much power energy versus CMOS. Now there is a new variety of CMOS which needs less power than the original CMOS for the same frequency and density of circuit. So I was saying the previous post as the general principle. However, a new semiconductor material technology helps to consume less power for the same computing capacity. Rodolfo |
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Jun 26 2006, 09:13 AM
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#100
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Member Group: Members Posts: 599 Joined: 26-August 05 Member No.: 476 |
Sounds like a different Moore than the one I am familiar with. Something may be getting lost in translation here. What you refer to as material, e.g. bipolar vs. cmos, I would refer to as design. Or in your other use of material, I would use process technology. Detailed discussion of semiconductor physics and fabrication are getting somewhat OT here. Suffice to say that there will be continued improvements in computational power per watt in processors, whether commercial or rad-hard. Care should just be taken in comparing performance / power of commercial vs. rad-hard. Somewhat different beasties.
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