Posted on 04/01/2005 5:12:21 AM PST by Cincinatus' Wife
A major review last week of servicing the Hubble Space Telescope has led NASA officials to a "deorbit only" position.
Thats an outcome from an intensive preliminary design review held last week at the NASA Goddard Space Flight Center in Greenbelt, Maryland. That appraisal involved volumes of technical data, with over 200 experts from NASA and aerospace industry contractor teams attending.
The assessment backs an earlier decision by the White House to scuttle the Hubble. A robotically-controlled liquid-fueled motor would eventually be docked to the telescope. Once ignited, the engine would push the huge observatory into a controlled nose-dive into a remote ocean spot.
Intensive work has been underway at Goddard to develop the tools, technology, and procedures for telerobotic servicing of Hubble. That NASA-contracted effort has been led by MD Robotics of Brampton, Ontario.
Impressive, but not revelatory
"The NASA position is [that] we are not contemplating continuing the telerobotic servicing mission," said the space agencys program executive for the Hubble Robotic Servicing Mission, Mark Borkowski, who also led last weeks review. "We are planning to convert to a deorbit-only mission," he told SPACE.com.
Borkowski said that those engaged in working toward the Preliminary Design Review (PDR) did a "super job". But he mirrored the view of an earlier National Academy of Sciences look at Hubble servicing options. That blue-ribbon panel study took the position that the chance of success for a robotic makeover of Hubble was remote.
"Now were going to go through a very deliberative decision process here [at NASA Headquarters]. We will listen to what people have to say," Borkowski said. "We dont want to sound like were irrationally inflexible," he added, "but at this point we dont see a likelihood that there is some new information out there thats going to cause us to have a revelation. What we saw was impressive, but not revelatory."
The PDR captured the work done to date on telerobotic servicing. There is no plan to do a critical design for a robotic servicing mission, Borkowski said.
Risk management plan
The four-day long review last week also brought to the forefront several issues needing close watch.
One is the entire concept of doing an autonomous docking of deorbit hardware with Hubble, Borkowski said. "Thats not a trivial little exercise," he said.
Provisions are being made in the event that Hubble could be in a slow tumble. "We have to account for a lot of this being done autonomously. Thats probably a significant technical challenge not insurmountable but, again, its the kind of thing that makes you scratch your head about the schedule," Borkowski advised.
Among other issues deserving of added attention, Borkowski continued, is software development. Keeping close tabs on software development will be key, to avoid any potential risk of impacting the deorbit schedule. Lastly, integrating all the computer smarts and hardware is likely to create surprises. A risk management plan to deal with uncertainty will be needed, he said.
Hubbles health
Just how healthy is the Hubble at this point in time?
The telescopes gyroscopes are the first threat to the observatorys scientific utility, Borkowski said. Gyro lifetime is based on a probability distribution, he said, but studies point to the hardware working out as far as 2008. "And we think our batteries will be good until then."
There are a range of projections when Hubbles batteries might fail, with sometime around 2010 the best guess, Borkowski said. "Our best estimate is we probably will be able to continue to do science as were doing it somewhere into 2008," he explained.
To reach that 2008, there is now talk of turning one of Hubbles three working gyros off. A two gyro option appears workable, while maintaining the telescopes roster of science looks into the universe. That third gyro would be placed in storage mode, brought on line in the event that one of the operating gyros breaks down.
Last weeks preliminary design review for Hubble servicing was "one of the better ones Ive seen," Borkowski. Volumes of technical documents were amassed, he said.
"We now have a job here in the agency to collect all that information and to make a good comprehensive, deliberative decision about how to convert the mission to deorbit only," Borkowski stated.
Moving forward on that decision should happen in early May. "Well then issue whatever direction we need to issue...whatever notification we need to make to Congress about how were proceeding," Borkowski concluded.
Robots versus humans
While NASA blanches at any suggestion of humans versus robots in regards to future space exploration, the ongoing Hubble saga has brought to center stage such deliberation.
For example, leaders from two public space advocacy groups have called for repairing and upgrading the Hubble Space Telescope dismissing telerobotics in favor of humans.
In a joint statement released this week, Mars Society president Robert Zubrin and Space Frontier Foundation founder, Rick Tumlinson, called upon NASA "to do what is necessary and mount a human mission to repair and upgrade the Hubble Space Telescope."
"The technology simply does not exist to repair and upgrade Hubble using robotic or tele-robotic means. This leaves NASA with a clear choice: either send astronauts to repair and upgrade Hubble as originally planned, or lose the greatest astronomical observatory ever built," their joint press release explained.
Their statement explained that if the space frontier is to be opened, "it can only be done through courage. A decision to mount a human mission to repair Hubble would send a signal that the spirit that built this nation is alive and well."
No showstoppers
But according to insiders close to the Hubble servicing effort, significant progress has been made in readying telerobotic gear. Furthermore, adding more time onto Hubbles life by finessing gyroscopes and better battery management adds up to less pressure in readying a robotic visit.
"When you tell people working on Hubble that something cant be done they just take that as a challenge," said one senior official taking part in last weeks review. The telerobotic experts working on Hubble servicing have "hit a home run" in demonstrating an ability to overhaul the telescope, as well as give it a set of new instruments, the source said.
"We sure dont see any showstoppers," the source said.
Much the same as W's was -- think about the Korean War...
I doubt Truman would have sent representatives globally to make sure it was OK with everyone that we defend ourselves.
Or sign a contract to lease the telescope to a corporation, foundation, or university. New technology on the drawing boards makes even ground based telescopes a viable hubble option.
Truman went into Korea under the UN banner. And yet Truman, like Bush, would have done what he did regardless.
Apples and oranges. The Koreans didn't fly airplanes into any of our skyscrapers. And just for the record, I think W has done a tremendous job given the political climate here and abroad.
It's not that simple. I'm an Ohioan and proud of the Wright Brothers, but it's not true that the private sector always outshines the public.
The private sector is not going to come up with enormous amounts of money to fund something without some kind of an expected return. Nobody in the private sector would have funded Apollo, the Shuttle, or the Hubble Space Telescope. The Manhatten Project is another example.
There's no way selling Hubble for $1 to anyone will result in repairs -- it's just too expensive, and for what?
There's more ... think mining rights, the ultimate place to dump toxic waste and colonies.
And great technological discoveries along the way.
Do you have a cost per ton figure for waste disposal in outer space? What price for minerals do you need to cover variable cost, much less the initial investment? And if colonization of the moon made any sense, why aren't there colonies on Antarctica? That's a much less hostile environment than space, and far cheaper.
If it were cheaper to send toxic waste into space, the launch vehicles would be leaving Earth daily. It isn't. It's a pipe dream.
It's going to happen.
Bump!
The reason there are no colonies on either are UN treaties. Nations are prohibited from having permanent colonies or from doing resource extraction on that continent.
Outer Space treaty prevents ANY private property claims offworld. Otherwise there would be a booming industry.
As far as price per ton of materials, give me 20 billion dollars in startup costs and I would be able to undercut EVERY mining operation on the planet for precious and semi precious metals for the next 50 years.
In the process I'd also give Earth a new moon and a nice close in base for cislunar and HEO operations.
Considering the fact that NO ONE has a solution for long term high level radioactive waste storage going, price is almost irrelevant.
But for 100 million dollars I could put 500 tons of high level nuclear waste into a solar orbit that would decay and drop it into the sun. Look up the SEA DRAGON booster.
Space is a permanent solution for a lot of problems.
Space mining is economically possible. The technology was mature enough 30 years ago and the business numbers add up. If anybody is actually interested enough to try to figure out how to do it rather than why to not do it, a discussion is possible.
That was explained in the President's Commission Report on Moon, Mars and Beyond. It is the Treaty.
I wholly disagree. If I could fly on the next Shuttle to service Hubble for future science knowing for a fact I would not get back, I would jump at the chance. Many a scientist gave his or her life in the pursuit of knowledge. I am going to die anyway. Dying to further mankind's knowledge of the universe is not a bad way to go in my book.
No. It is the small steps that put the infrastructure in place to make the larger leaps in the future.
Concur. People risk their lives in pursuit of MUCH less important and noble goals every single day.
But there's a more practical, if colder, reason why Hubble is worth a man's life--indeed, many men's lives. The entire Hubble program, including the cost of the attending Shuttle missions, is of order $10 billion. (The science was very well worth it; not many fields of study can be overhauled for that price.) Now consider: how many individual lives are worth $10 billion to save? There are a few individuals who might be worth that: Bill Gates, President Bush, etc. But the overwhelming majority of human lives are simply not worth $10 billion, or even $10 million to save, even in our wealthy society. (In some parts of the world, even $10 would be a steep price, I'm afraid.)
This is an interesting read:
http://www.physicstoday.org/vol-58/iss-4/p10.html
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