Keep the shuttle flying: Fwd: Hyten tells Senate DoD needs to focus on space control, battle management system

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From: "Gary Johnson" <gjohnson144@comcast.net>
Date: September 21, 2016 at 8:48:01 AM CDT
To: "Gary Johnson" <gjohnson144@comcast.net>
Subject: FW: Hyten tells Senate DoD needs to focus on space control, battle management system

Hyten tells Senate DoD needs to focus on space control, battle management system
by Mike Gruss — September 20, 2016
Gen. John Hyten, commander of Air Force Space Command, testifies before the Senate Armed Services Committee Sept. 20. Credit: SASC.
MAUI, Hawaii – As threats to national security satellites evolve, the Defense Department needs to focus on space control programs and a battle management command and control system to prepare for a fight in space, the U.S. Air Force's top space official told a Senate committee Sept. 20.
The Defense Department has become increasingly concerned about technologies from China and Russia that would destroy, or limit the use of, U.S. military and spy satellites in recent years. In response, the Pentagon has shifted about $6 billion over six years for space protection efforts.
At a hearing Sept. 20, Sen. John McCain (R-Ariz.), the chairman of the Senate Armed Services Committee, said China and Russia are building systems "specifically designed to cripple U.S. (space) systems." McCain said such information was "deeply disturbing" and that following a classified meeting earlier this week, he only recently understood the full ramifications of an attack on national security satellites.
Gen. John Hyten, the head of Air Force Space Command, told the Senate Armed Services Committee in written testimony that as a result space control programs and a battle management command and control system should be among the Defense Department's top space priorities.
President Barack Obama nominated Hyten to lead U.S. Strategic Command and Hyten testified before the SASC for his nomination hearing. At STRATCOM, Hyten will oversee space operations, missile defense, cyber warfare, the nuclear arsenal and combatting weapons of mass destruction. If confirmed, he will replace Navy Adm. Cecil Haney. Obama has nominated Lt. Gen. Jay Raymond, the Air Force's deputy chief of staff for operations, to replace Hyten at Space Command.
In March, Defense Secretary Ash Carter said the Pentagon would spend $2 billion this year on space control, which often implies offensive space capabilities.
The Pentagon rarely discusses its own offensive space capabilities or the operational details, which are classified. However, the Air Force's 2017 budget request included funding for several space control programs for the next five years. Among those programs are $144 million for the Counter Communications System, which is used to deny adversaries the use of military communications satellites in conflict and $158 million for the Space Security and Defense Program, which is thought to include some work on offensive space capabilities. Hyten told McCain the Air Force was not developing systems with the intention of limiting specific Chinese or Russian capabilities.
"We are not going down that path," he said.
In addition, a battle management command and control system has been planned for the Air Force's space operations nerve center at the Joint Space Operations Center (JSpOC) at Vandenberg Air Force Base in California. However, with the advent of the experimental Joint Interagency Combined Space Operations Center (JICSpOC), a joint project between the intelligence community and the Defense Department at Schriever Air Force Base in Colorado Springs, Colorado, it is unclear exactly where or how such a command and control system would work.
Hyten said the JICSpOC will "change the warfighting culture of our space cadre as well as ensuring we have the ability to fully plan and employ our space control capabilities."
In written testimony, he also seemed to answer the long-standing question of how the Defense Department views the future of both centers. Many members of the national security space community believe the Pentagon has been unclear in describing the future mission of the two centers. But Hyten said the JSpOC will concentrate on battles on earth and the JICSpOC will assist with fights in space.
"The JSPOC will be focused on the support to the terrestrial fight – but it is envisioned that the two centers will be able to integrate effectively along with the rest of the National Security Space Community," Hyten said. "The JSpOC is fully occupied today with the terrestrial fight – space is critical to every military operation around the world…and many civilian activates as well. They must retain that focus. The JICSpOC is fully occupied figuring out how to prepare to effectively fight conflict that extends into the space domain. If we tried to integrate either with the other, both would be at significant risk of failure. For the foreseeable future, they need to focus on their unique, full time requirements."
Hyten also discussed a series of other national security space issues during the hearing. They include:
– The Air Force's next-generation ground control system for its new GPS satellites. The program, known as the Operational Control Segment, or OCX, is five years and $1 billion over budget. "It's horrible. It's embarrassing to me we find ourselves in that position," he said. The Air Force declared a Nunn-McCready breach on the OCX program in June, setting the stage for the cancellation of the program unless the Secretary of Defense determines the program is vital to national security, no reasonable alternatives exist, and that the Air Force has a solid plan to put the project back on track. Hyten said he would support the continuation or the termination of the OCX program, but that the current GPS ground control system has information assurance security gaps.
– On the future of the Operationally Responsive Space Office, which is used to develop space capabilities to plug gaps or address emerging military needs: "While the Operationally Responsive Space program has been a successful pathfinder to responsiveness – and it will continue this superb service in the future – we must also infuse this thinking across our entire enterprise and into the broader space industry."
– On the pending retirement of United Launch Alliance's Delta 4 rocket: "Given the lack of the price competitiveness of the Delta 4 vehicle and anticipated fielding of several new launch vehicle families, I support the eventual phase out of the Delta 4 launch vehicle family – but only when other capabilities are reliably available that can provide the assured access."
– On whether the new leadership structure for the Defense Department's space enterprise, which is headed by the Principal Defense Space Adviser, has been successful: "It is working so far, but the real test will be how it continues over the change of administration."
– On the need for the Missile Defense Agency to use space-based sensors to discriminate ballistic missile warheads from decoys: "Discrimination (coupled with associated Battle Space Awareness) is the critical component to improving the effectiveness of our deployed interceptors as well as providing multiple response options especially as potential adversaries embark on improving countermeasures against our systems. In addition, I believe a space-based element will be critical to this future."

Time for the U.S. military to let go of the civil space situational awareness mission
by Brian Weeden — September 20, 2016
Applied Minds, Inc. created a vision of how to achieve optimal SSA through the " JSpOC of the Future" demonstration at their Glendale, California, facility. The company designed and built a fullscale, multi-faceted command center mockup that demonstrated advanced tools and techniques for distributed collaboration, data fusion, visualization, and adaptive planning. Credit: U.S. Air Force Research Lab
Four years ago, I wrote an in-depth report called "Going Blind" on how the United States was in danger of losing its ability to "see" in space, a capability known as space situational awareness (SSA). "Going blind" would have detrimental effects on the entire world's ability to use space in a safe, secure, and sustainable manner. While there have been some efforts since to improve the situation, the situation is still dire. The core issues have not been addressed, and the challenges are only increasing.
The time has come for the U.S. military to let go of the spaceflight safety mission, and allow a civil entity — likely with help from the private sector, academia, and international partners — to create its own public, high-accuracy catalog of space objects, and provide safety of spaceflight services to satellite operators. At the same time, the U.S. military should refocus its own efforts on developing SSA capabilities that are critical to protecting U.S national security space capabilities from potential threats.
Currently, there are more than 1,400 active satellites in Earth orbit, and satellite operators are already performing more than 120 maneuvers each year to minimize the risk of a collision with other satellites or one of the tens of thousands of pieces of space debris. There are at least 3,600 new satellites, and possibly thousands more, planned for launch in the next decade. Many of these new satellites are cubesats or large constellations of hundreds to thousands of small satellites, which will vastly increase the complexity and workload to keep on-orbit activities safe and prevent disasters.
Following the 2009 collision between the Iridium 33 and Cosmos 2251 satellites, the U.S. military was tasked to be the main provider of SSA data and close approach warnings for the entire world. The analysts doing the mission are working hard to make the most out of their technological and resource constraints, and senior leaders including Gen. John Hyten, Lt. Gen. Jay Raymond, and Doug Loverro have been working hard to bring necessary changes to U.S. military capabilities, procedures, and policies.
But despite these efforts, the U.S. military is running up against the limitations of a military entity providing an international, safety-orientated mission. Civil SSA is a task that by its very nature requires melding a large amount of diverse data from governmental, commercial, and international sources, developing transparent processes and algorithms, and having an agile software platform to continuously incorporate new analytical technologies and expand capacity to meet growing demand.
The limitations of the current approach are felt the most in two areas: upgrading the legacy computer systems used by the U.S. military to create and provide SSA data, and SSA data sharing policy. After more than a decade of efforts and $500 million spent, the latest acquisitions program to try and accomplish the former, the Joint Space Operations Center Mission System (JMS), has been delayed again until at least 2018. And the SSA sharing strategy unveiled by U.S. Strategic Command in 2014 has led to removal of more SSA data from public access, including data on the estimated size of space debris objects in the public satellite catalog, and limitations on what data is provided privately to satellite operators, due to national security concerns.
There are two options to change the current structure and address these limitations. The first option is for the U.S. military to more fully embrace the task of being the world's provider of SSA data and services for safety of spaceflight. The GPS is a good, if imperfect, model of how the U.S. military can provide services for both defense and civil applications. Five policy decisions were key to the GPS success story: establishing a performance standard for the civil GPS service so end users know what they can rely on; publishing an Interface Control Document (ICD) that specifies exactly how commercial companies can design receivers to make use of the civil signal; giving civil entities a voice in managing GPS; eliminating the artificial error originally added to the civil signal; and negotiating an interoperable civil signal across all the international satellite navigation systems. These policy decisions led to an explosion in civil, commercial, and scientific innovation in GPS receivers and applications, and have yielded tens of billions of dollars in economic value to the United States and benefits for the entire world.
Taking the same approach to SSA — establishing a performance standard for a civil SSA service, dropping artificial limits on the accuracy of data in the public satellite catalog, creating an ICD for machine-to-machine interaction with SSA data and services, and interoperability between international SSA capabilities — would go a long ways to improving the safety and efficiency of space activities. But that outcome is only possible if JMS successfully delivers on all its promises, and major changes are made to SSA data sharing policy. The evidence suggests that neither is likely to happen.
That leads to the second option: for the U.S. military to let go of the part of the SSA mission necessary for safety of spaceflight. Letting go means allowing someone else to develop a public, high-accuracy catalog of space objects based on data from non-military sources, which can be used to provide close approach warnings to satellite operators and other safety services. Letting go of these tasks would enable the U.S. military to focus on the national security aspects of SSA, including enhancing the public catalog with data from exquisite military and intelligence sources, and detecting, characterizing, and defending against potential hostile threats to its satellites.
What makes the second option practical now is the huge leap in private sector SSA capabilities over the last few years. The Space Data Association (SDA) provides participating operators with enhanced close-approach warning and radio-frequency interference resolution services. Several companies, including ExoAnalytics, Rincon, Lockheed Martin, and LeoLabs, are already selling SSA data from privately owned sensors. Other companies such as Analytical Graphics Inc., Boeing, Schafer Corp., and Applied Defense Solutions are using commercial SSA data to create and sell SSA services to governments and satellite operators.
And there's the potential for much more to come. Multiple companies that are currently operating, or plan to operate, new constellations of remote sensing satellites have expressed interest in using the time when their satellites are unable to image the Earth to collect SSA data on space objects. Other companies such as Chandah Space Technologies and OrbitalATK have plans to provide on-orbit satellite inspection and radio-frequency mapping services that could truly revolutionize SSA.
Example of window damage Space Shuttle Endeavour sufered in 2008 from micro-meteroid or
orbital debris particle estimated to be only 0.15mm in diameter. Credit: NASA
Yet the private sector, while an important part of the solution, won't be able to solve this challenge on its own. There will still be a need for a civil agency to ensure that space is being used in a safe and efficient manner, and that the United States continues to meet its obligations under the 1967 Outer Space Treaty for providing authorization and continuing supervision of its private sector space activities. Currently, no U.S. federal agency has clear authority over on-orbit activities, which limits the ability of the U.S. government to provide the regulatory certainty that innovative commercial activities need to reassure investors, and ensure that operators of large constellations and cubesats behave in a responsible and safe manner. Giving a civil agency new authorities to perform these tasks, while leveraging commercial SSA data and software, could yield great benefits for relatively little taxpayer expense.
But implementing either of these choices hinges on resolving one, crucial sticking point — national security. Many of the current policy restrictions on SSA data stem from the desire to try to hide national security satellites and activities on orbit, despite the fact that many of these satellites are already well-known and tracked regularly by amateur hobbyists — to say nothing of potential adversaries. And the same national security concerns discourage, if not outright prohibit, many of the new and innovative SSA services being developed by the private sector, out of concern they might "see" something sensitive in orbit.
The U.S. military, and other governments, still needs to keep some secrets in space. But instead of trying to accomplish this by denying the existence of large, broadcasting space objects — a quixotic task in an increasingly transparent space environment — we need to find an alternative solution, as has been done for the air and sea domains. We don't try and hide the existence of aircraft carriers and cruisers, but we do protect details of their capabilities and tactical operations. And we do allow civil authorities to collect data on air traffic to manage safety and efficiency, while the military aircraft conduct operations with due regard and conceal their own presence when they must.
Letting go of the safety of spaceflight SSA mission would be a win-win move for everyone. The U.S. military would get to protect details on its SSA capabilities, and offload an increasingly demanding mission to free up its operators and resources to focus on national security threats. Civil federal agencies would be able to more effectively supervise and authorize commercial space activities, which in turn will help ensure the commercial space boom lives up to its promise and enable greater international cooperation. All of those benefits would reinforce America's role as a global leader in establishing norms of responsible behavior, and help boost humanity's future in space.
Brian Weeden is the technical adviser for Secure World Foundation, a non-profit dedicated to the long-term sustainable use of space for benefits on Earth, and a former U.S. Air Force officer. He is on the Board of Advisors for Chandah Space Technologies.
This commentary originally appeared in the Sept. 12 issue of SpaceNews.

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