Image: Orbital debris
Melrae Pictures, Space Junk 3D
Human-made orbital debris threatens use of Earth orbiting spacecraft.
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updated 1/28/2013 1:14:52 PM ET 2013-01-28T18:14:52

The saga of what steps that must be taken to deal with the evolving threat of Earth-circling orbital debris is a work in progress.  This menacing problem — and the possible cleanup solutions — is international in scope.

Space junk is an assortment of objects in Earth orbit that is a mix of everything from spent rocket stages, derelict satellites, chunks of busted up spacecraft to paint chips, springs and bolts. A satellite crash in February 2009, for example, marked the first accidental hypervelocity crash between two intact artificial satellites in Earth orbit. That cosmic crash created significant debris — a worrisome amount of leftover bits and pieces.

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Against this backdrop of untidiness in space and the global worry among spacefaring countries it causes, experts continue to tackle the issue of exactly what to do about orbital debris. A number of rules have been pondered to address the space debris problem, from regulations that attempt to cut down on the shedding of new debris to better tracking of the human-made refuge, as well as scavenging concepts including fishing nets, lasers and garbage scows.

The saga of what steps that must be taken to deal with the evolving threat of Earth-circling orbital debris is a work in progress.  This menacing problem — and the possible cleanup solutions — is international in scope.

Space junk is an assortment of objects in Earth orbit that is a mix of everything from spent rocket stages, derelict satellites, chunks of busted up spacecraft to paint chips, springs and bolts. A satellite crash in February 2009, for example, marked the first accidental hypervelocity crash between two intact artificial satellites in Earth orbit. That cosmic crash created significant debris — a worrisome amount of leftover bits and pieces.

Against this backdrop of untidiness in space and the global worry among spacefaring countries it causes, experts continue to tackle the issue of exactly what to do about orbital debris. A number of rules have been pondered to address the space debris problem, from regulations that attempt to cut down on the shedding of new debris to better tracking of the human-made refuge, as well as scavenging concepts including fishing nets, lasers and garbage scows.

But how to best characterize the orbital debris dilemma, and its future, also stirs up debate and heated dialogue.

Point of no return
The clutter in Earth orbit is a situation that will continue to worsen, according to Marshall Kaplan, founder and principal of Launchspace in Bethesda, Md.

"The problem is that we've already fallen off that cliff," Kaplan told SPACE.com. "That's the reality of it and people don't want to admit that reality." [Photos of Space Junk & Cleanup Ideas]

Spending millions of dollars to retrieve space junk isn't effective, Kaplan said.

Now, ways to better track and identify space debris are being devised. Low-Earth orbit is where the main problem is — from roughly 435 miles (700 kilometers) to about 745 miles (1,200 km), he said.

"It's a serious, serious challenge," Kaplan said. "This is not a U.S. problem … it's everybody's problem. And most of the people that produced the debris, the serious offenders, like Russia, China, and the United States, are not going to spend that kind of money. It's just not a good investment."

Image: Depiction, space debris fishing net
Melrae Pictures, Space Junk 3D
Various concepts have been proposed to rid space of orbital clutter, like this fishing net to bag debris.

While the creation of orbiting junk continues rise with each rocket launch, there is no market for tackling the issue directly, Kaplan said.

"We've reached the point of no return. The debris will continue to get worse in terms of collision threats … even if not another satellite were launched, the problem will continue to get worse," he added.

Speeding debris crashes
Kaplan said the frequency of collisions between active satellites and debris pieces is going to increase.

The real question, Kaplan said, is not what everyone is going to do about debris. Rather, the true question is what needs to be done about active satellites in harm's way of speeding riffraff.

"My prediction is that we are going to evacuate the areas of high debris density. It's just too dangerous to operate there. We're going to need to reinvent how we use space," Kaplan said. [Worst Space Debris Events of All Time]

In the case of large national security satellite assets, one option may be to distribute smaller satellites in lower altitudes, Kaplan added. These multiple layers of spacecraft would collectively create virtual products, such as imagery and other intelligence data. The users of this information would receive the same kind of data, but from a different satellite constellation, he said.

As one step toward that future, Kaplan is working with multiple universities to help establish new research centers on space debris and a next-generation national security space architecture.

Environmental stability
Darren McKnight, technical director for Integrity Applications Incorporated, headquartered in Chantilly, Va., suggested that the current debate on active debris removal and the evolution of the debris environment is still developing.

McKnight said that, currently, policymakers and engineers examine environmental stability, preventing the cascading of derelict collisions from increasing exponentially over the next century. This scenario, known as the "Kessler Syndrome," is the primary metric to judge how many derelicts need to be removed and when they should be removed.

The Kessler Syndrome is one in which the density of objects in low Earth orbit is high enough that collisions between objects could cause a cascade. Each collision generates space debris, which increases the likelihood of further collisions. [Solar Sails Could Sweep Up Space Junk (Video)]

"The overall issue is that as we continue to consider active debris removal options, I question whether or not environment stability is the only metric to be tracking," McKnight told SPACE.com.

Lethal space debris
McKnight, along with company colleague Frank Di Pentino, propose that the probability of satellite failure from impact from non-trackable, yet lethal debris fragments — in the 5 millimeter to 10 centimeter size range — is a more appropriate metric. The reason is because it directly reflects harmful effects of space debris on space operations. Furthermore, these effects are likely to occur much sooner than observable manifestations of the cascading effect.

McKnight and Di Pentino's research suggests that any mitigation scheme, be it just-in-time collision avoidance, active debris removal or other methods, cannot rely on a model that does not account for projected add rates, new launches on other factors. They contend that collision rate is “not a sufficient metric” for assessing operational risk.

Wanted: A long-term plan
There is much work to do regarding orbital debris, said Donald Kessler, chair of the 2011 National Research Council (NRC) report "Limiting Future Collision Risk to Spacecraft: An Assessment of NASA's Meteoroid and Orbital Debris Programs." He is a retired head of NASA’s Orbital Debris Program Office and is a space debris and meteoroid consultant in Asheville, N.C.

Kessler said that the NRC committee that produced the report strongly felt that what was missing from the programs was a long-term strategic plan — one that outlined a path that eventually determines how  manage future space operations in a way that preserves the environment.

"However, this is not simply a NASA issue … it is an international issue, and will require a carefully coordinated effort," Kessler said.

Can the space junk problem be solved?
NASA and the international community, Kessler said, "have already done enough research to know that the environment will continue to get worse if we continue on the same path … the only environmental issue to be resolved is how quickly the environment in various regions deteriorates."

The international community, through the Inter-Agency Space Debris Coordination Committee (IADC), has been very active in understanding the current environmental trends, sharing information and establishing internationally recognized mitigation requirements.

However, Kessler said that current mitigation practices are insufficient, even with 100 percent compliance. Missing in action is a plan to determine what do about the predicted worsening space environment, he said — that is, how to stop or reverse the trend of increased debris resulting from increased collisions.

Sustainable environment

Kessler added that the fundamental issues to be resolved are:

  • How do we minimize the possibility of future high-velocity collisions between spacecraft and upper stage rockets?
  • If we cannot eliminate that prospect, how do we clean up after a collision?

"Removal from orbit, collision avoidance, satellite servicing and repair, satellite recycling in orbit, debris storage locations, change to using a 'stable plane' at higher altitudes especially in Geosynchronous Earth Orbit (GEO) … are all possibilities," Kessler added. "Some are mutually exclusive and may not be appropriate at all altitudes, while others could combine to be more effective."

Still to be sorted out is what type of legal structure might be needed in order to implement any plan, Kessler said.

Human-made orbital debris threatens use of Earth orbiting spacecraft.

CREDIT: Melrae Pictures, Space Junk 3D: http://www.spacejunk3d.com/

View full size image

The saga of what steps that must be taken to deal with the evolving threat of Earth-circling orbital debris is a work in progress.  This menacing problem — and the possible cleanup solutions — is international in scope.

Space junk is an assortment of objects in Earth orbit that is a mix of everything from spent rocket stages, derelict satellites, chunks of busted up spacecraft to paint chips, springs and bolts. A satellite crash in February 2009, for example, marked the first accidental hypervelocity crash between two intact artificial satellites in Earth orbit. That cosmic crash created significant debris — a worrisome amount of leftover bits and pieces.

Against this backdrop of untidiness in space and the global worry among spacefaring countries it causes, experts continue to tackle the issue of exactly what to do about orbital debris. A number of rules have been pondered to address the space debris problem, from regulations that attempt to cut down on the shedding of new debris to better tracking of the human-made refuge, as well as scavenging concepts including fishing nets, lasers and garbage scows.

But how to best characterize the orbital debris dilemma, and its future, also stirs up debate and heated dialogue.

Point of no return

The clutter in Earth orbit is a situation that will continue to worsen, according to Marshall Kaplan, founder and principal of Launchspace in Bethesda, Md.

"The problem is that we've already fallen off that cliff," Kaplan told SPACE.com. "That's the reality of it and people don't want to admit that reality." [Photos of Space Junk & Cleanup Ideas]

Spending millions of dollars to retrieve space junk isn't effective, Kaplan said.

Now, ways to better track and identify space debris are being devised. Low-Earth orbit is where the main problem is — from roughly 435 miles (700 kilometers) to about 745 miles (1,200 km), he said.

"It's a serious, serious challenge," Kaplan said. "This is not a U.S. problem … it's everybody's problem. And most of the people that produced the debris, the serious offenders, like Russia, China, and the United States, are not going to spend that kind of money. It's just not a good investment."

While the creation of orbiting junk continues rise with each rocket launch, there is no market for tackling the issue directly, Kaplan said.

"We've reached the point of no return. The debris will continue to get worse in terms of collision threats … even if not another satellite were launched, the problem will continue to get worse," he added.

Various concepts have been proposed to rid space of orbital clutter, like this fishing net to bag debris.
CREDIT: Melrae Pictures, Space Junk 3D: http://www.spacejunk3d.com/View full size image

Speeding debris crashes

Kaplan said the frequency of collisions between active satellites and debris pieces is going to increase.

The real question, Kaplan said, is not what everyone is going to do about debris. Rather, the true question is what needs to be done about active satellites in harm's way of speeding riffraff.

"My prediction is that we are going to evacuate the areas of high debris density. It's just too dangerous to operate there. We're going to need to reinvent how we use space," Kaplan said. [Worst Space Debris Events of All Time]

In the case of large national security satellite assets, one option may be to distribute smaller satellites in lower altitudes, Kaplan added. These multiple layers of spacecraft would collectively create virtual products, such as imagery and other intelligence data. The users of this information would receive the same kind of data, but from a different satellite constellation, he said.

As one step toward that future, Kaplan is working with multiple universities to help establish new research centers on space debris and a next-generation national security space architecture.

Environmental stability

Darren McKnight, technical director for Integrity Applications Incorporated, headquartered in Chantilly, Va., suggested that the current debate on active debris removal and the evolution of the debris environment is still developing.

McKnight said that, currently, policymakers and engineers examine environmental stability, preventing the cascading of derelict collisions from increasing exponentially over the next century. This scenario, known as the "Kessler Syndrome," is the primary metric to judge how many derelicts need to be removed and when they should be removed.

The Kessler Syndrome is one in which the density of objects in low Earth orbit is high enough that collisions between objects could cause a cascade. Each collision generates space debris, which increases the likelihood of further collisions. [Solar Sails Could Sweep Up Space Junk (Video)]

"The overall issue is that as we continue to consider active debris removal options, I question whether or not environment stability is the only metric to be tracking," McKnight told SPACE.com.

Lethal space debris

McKnight, along with company colleague Frank Di Pentino, propose that the probability of satellite failure from impact from non-trackable, yet lethal debris fragments — in the 5 millimeter to 10 centimeter size range — is a more appropriate metric. The reason is because it directly reflects harmful effects of space debris on space operations. Furthermore, these effects are likely to occur much sooner than observable manifestations of the cascading effect.

McKnight and Di Pentino's research suggests that any mitigation scheme, be it just-in-time collision avoidance, active debris removal or other methods, cannot rely on a model that does not account for projected add rates, new launches on other factors. They contend that collision rate is “not a sufficient metric” for assessing operational risk.

Wanted: A long-term plan

There is much work to do regarding orbital debris, said Donald Kessler, chair of the 2011 National Research Council (NRC) report "Limiting Future Collision Risk to Spacecraft: An Assessment of NASA's Meteoroid and Orbital Debris Programs." He is a retired head of NASA’s Orbital Debris Program Office and is a space debris and meteoroid consultant in Asheville, N.C.

Kessler said that the NRC committee that produced the report strongly felt that what was missing from the programs was a long-term strategic plan — one that outlined a path that eventually determines how  manage future space operations in a way that preserves the environment.

"However, this is not simply a NASA issue … it is an international issue, and will require a carefully coordinated effort," Kessler said.

Can the space junk problem be solved?

NASA and the international community, Kessler said, "have already done enough research to know that the environment will continue to get worse if we continue on the same path … the only environmental issue to be resolved is how quickly the environment in various regions deteriorates."

The international community, through the Inter-Agency Space Debris Coordination Committee (IADC), has been very active in understanding the current environmental trends, sharing information and establishing internationally recognized mitigation requirements.

However, Kessler said that current mitigation practices are insufficient, even with 100 percent compliance. Missing in action is a plan to determine what do about the predicted worsening space environment, he said — that is, how to stop or reverse the trend of increased debris resulting from increased collisions.

Sustainable environment

Kessler added that the fundamental issues to be resolved are:

How do we minimize the possibility of future high-velocity collisions between spacecraft and upper stage rockets?If we cannot eliminate that prospect, how do we clean up after a collision?

"Removal from orbit, collision avoidance, satellite servicing and repair, satellite recycling in orbit, debris storage locations, change to using a 'stable plane' at higher altitudes especially in Geosynchronous Earth Orbit (GEO) … are all possibilities," Kessler added. "Some are mutually exclusive and may not be appropriate at all altitudes, while others could combine to be more effective."

Still to be sorted out is what type of legal structure might be needed in order to implement any plan, Kessler said.

"I believe it is time that the international community takes a serious look at the future of space operations," Kessler said. "There's need to begin a process to answer these questions and determine which path will most effectively provide a sustainable environment for spacecraft in Earth orbit."

Leonard David has been reporting on the space industry for more than five decades. He is former director of research for the National Commission on Space and a past editor-in-chief of the National Space Society's Ad Astra and Space World magazines. He has written for SPACE.com since 1999.

© 2013 Space.com. All rights reserved. More from Space.com.

Photos: Month in Space: January 2014

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  1. Southern stargazing

    Stars, galaxies and nebulas dot the skies over the European Southern Observatory's La Silla Paranal Observatory in Chile, in a picture released on Jan. 7. This image also shows three of the four movable units that feed light into the Very Large Telescope Interferometer, the world's most advanced optical instrument. Combining to form one larger telescope, they are greater than the sum of their parts: They reveal details that would otherwise be visible only through a telescope as large as the distance between them. (Y. Beletsky / ESO) Back to slideshow navigation
  2. A balloon's view

    Cameras captured the Grandville High School RoboDawgs' balloon floating through Earth's upper atmosphere during its ascent on Dec. 28, 2013. The Grandville RoboDawgs’ first winter balloon launch reached an estimated altitude of 130,000 feet, or about 25 miles, according to coaches Mike Evele and Doug Hepfer. It skyrocketed past the team’s previous 100,000-feet record set in June. The RoboDawgs started with just one robotics team in 1998, but they've grown to support more than 30 teams at public schools in Grandville, Mich. (Kyle Moroney / AP) Back to slideshow navigation
  3. Spacemen at work

    Russian cosmonauts Oleg Kotov, right, and Sergey Ryazanskiy perform maintenance on the International Space Station on Jan. 27. During the six-hour, eight-minute spacewalk, Kotov and Ryazanskiy completed the installation of a pair of high-fidelity cameras that experienced connectivity issues during a Dec. 27 spacewalk. The cosmonauts also retrieved scientific gear outside the station's Russian segment. (NASA) Back to slideshow navigation
  4. Special delivery

    The International Space Station's Canadian-built robotic arm moves toward Orbital Sciences Corp.'s Cygnus autonomous cargo craft as it approaches the station for a Jan. 12 delivery. The mountains below are the southwestern Alps. (NASA) Back to slideshow navigation
  5. Accidental art

    A piece of art? A time-lapse photo? A flickering light show? At first glance, this image looks nothing like the images we're used to seeing from the Hubble Space Telescope. But it's a genuine Hubble frame that was released on Jan. 27. Hubble's team suspects that the telescope's Fine Guidance System locked onto a bad guide star, potentially a double star or binary. This caused an error in the tracking system, resulting in a remarkable picture of brightly colored stellar streaks. The prominent red streaks are from stars in the globular cluster NGC 288. (NASA / ESA) Back to slideshow navigation
  6. Supersonic test flight

    A camera looking back over Virgin Galactic's SpaceShipTwo's fuselage shows the rocket burn with a Mojave Desert vista in the background during a test flight of the rocket plane on Jan. 10. Cameras were mounted on the exterior of SpaceShipTwo as well as its carrier airplane, WhiteKnightTwo, to monitor the rocket engine's performance. The test was aimed at setting the stage for honest-to-goodness flights into outer space later this year, and eventual commercial space tours.

    More about SpaceShipTwo on PhotoBlog (Virgin Galactic) Back to slideshow navigation
  7. Red lagoon

    The VLT Survey Telescope at the European Southern Observatory's Paranal Observatory in Chile captured this richly detailed new image of the Lagoon Nebula, released on Jan. 22. This giant cloud of gas and dust is creating intensely bright young stars, and is home to young stellar clusters. This image is a tiny part of just one of 11 public surveys of the sky now in progress using ESO telescopes. (ESO/VPHAS team) Back to slideshow navigation
  8. Fire on the mountain

    This image provided by NASA shows a satellite view of smoke from the Colby Fire, taken by the Multi-angle Imaging SpectroRadiometer aboard NASA's Terra spacecraft as it passed over Southern California on Jan. 16. The fire burned more than 1,863 acres and forced the evacuation of 3,700 people. (NASA via AP) Back to slideshow navigation
  9. Where stars are born

    An image captured by NASA's Spitzer Space Telescope shows the Orion Nebula, an immense stellar nursery some 1,500 light-years away. This false-color infrared view, released on Jan. 15, spans about 40 light-years across the region. The brightest portion of the nebula is centered on Orion's young, massive, hot stars, known as the Trapezium Cluster. But Spitzer also can detect stars still in the process of formation, seen here in red hues. (NASA / JPL-Caltech) Back to slideshow navigation
  10. Cygnus takes flight

    Orbital Sciences Corp.'s Antares rocket rises from NASA's Wallops Flight Facility on Wallops Island, Va, on Jan. 9. The rocket sent Orbital's Cygnus cargo capsule on its first official resupply mission to the International Space Station. (Chris Perry / NASA) Back to slideshow navigation
  11. A long, long time ago...

    This long-exposure picture from the Hubble Space Telescope, released Jan. 8, is the deepest image ever made of any cluster of galaxies. The cluster known as Abell 2744 appears in the foreground. It contains several hundred galaxies as they looked 3.5 billion years ago. Abell 2744 acts as a gravitational lens to warp space, brightening and magnifying images of nearly 3,000 distant background galaxies. The more distant galaxies appear as they did more than 12 billion years ago, not long after the Big Bang. (NASA / NASA via AFP - Getty Images) Back to slideshow navigation
  12. Frosty halo

    Sun dogs are bright spots that appear in the sky around the sun when light is refracted through ice crystals in the atmosphere. These sun dogs appeared on Jan. 5 amid brutally cold temperatures along Highway 83, north of Bismarck, N.D. The temperature was about 22 degrees below zero Fahrenheit, with a 50-below-zero wind chill.

    Slideshow: The Year in Space (Brian Peterson / The Bismarck Tribune via AP) Back to slideshow navigation
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