ARMY SCIENCE BOARD SUMMER STUDY FINAL REPORT DEPARTMENT OF THE ARMY ASSISTANT SECRETARY OF THE ARMY ACQUISITION LOGISTICS AND TECHNOLOGY WASHINGTON D C 20310-0103 PRIORITIZING ARMY SPACE NEEDS July 1999 zoom it Distribution Statement Approved for public release distribution is unlimited 031 DTIC QUALITY INSPECTED 1 DISCLAIMER This report is the product of the Army Science Board ASB The ASB is an independent objective advisory group to the Secretary of the Army SA and the Chief of Staff Army CSA Statements opinions recommendations and or conclusions contained in this report are those of the 1998 Summer Study Panel on Prioritizing Army Space Needs and do not necessarily reflect the official position of the United States Army or the Department of Defense DoD CONFLICT OF INTEREST Conflicts of interest did not become apparent as a result of the Panel's recommendations Form Approved OMB No 0704-0188 REPORT DOCUMENTATION PAGE Public reporting burden for the collection of information is estimated to average 1 hour per response including the time for reviewing instructions searching existing data sources gathering and maintaining the data needed and completing and reviewing the collection of information Send comments regarding this burden estimate or any other aspect of this collection of information including suggestions for reducing this burden to Washington Headquarters Services Directorate for Information Operations and Reports 1215 Jefferson Davis Hwy Suite 1204 Arlington VA 22202-4302 and to the Office of Management and Budget Paperwork Reduction Project 0704-0188 Washington D C 20503 2 REPORT DATE 1 AGENCY USE ONLY Leave Blank July 1999 3 REPORT TYPE AND DATES COVERED Army Science Board -1998 Summer Study 5 FUNDING NUMBERS 4 TITLE AND SUBTITLE Prioritizing Army Space Needs N A AUTHOR S MR JOHN CITTADINO MR RAY LEADABRAND VADM ALBERT J BACIOCCO JR USN RET DR GREGORY H CANAVAN MR PHILIP C DICKINSON MR ROBERT E DOUGLAS DR EDWARD T GERRY DR LYNN G GREF DR WALTER B LABERGE MR DAN HELD DR WADE M KORNEGAY MS SUSAN G LOWENSTAM DR CHARLES T NARDO MR ROBERT T PHILLIPS MR ERLING E RASMUSSEN DR JOHN H REESE DR W JAMES SARJEANT MR CLARON W SWONGER DR HARRY L TREDDENNICK 8 PERFORMING ORGANIZATION REPORT NUMBER 7 PERFORMING ORGANIZATION NAMES S AND ADDRESS ES EXECUTIVE SECRETARY Army Science Board SARD-ASB 2511 Jefferson Davis Highway Arlington VA 22202-3911 N A 10 SPONSORING MONITORING AGENCY REPORT NUMBER 9 SPONSORING MONITORING AGENCY NAME'S AND ADDRESS ES GEN JOHN N ABRAMS LTG EDWARD G ANDERSON HQ TRADOC COMMANDING GENERAL FORT MONROE VA 23651-5000 USA SPACE AND MISSILE DEFENSE COMMAND 1941 JEFFERSON DAVIS HIGHWAY SUITE 900 ARLINGTON VA 22215-0280WASHINGTON DC 20310-0103 N A LTG THOMAS N BURNETTE JR DCSOPS 400 ARMY PENTAGON ROOM 3E634 WASHINGTON DC 20310-0400 11 SUPPLEMENTARY NOTES N A 12b DISTRIBUTION CODE 12A DISTRIBUTION AVAILABILITY STATEMENT A Approved for Public Release distribution is unlimited 13 ABSTRACT Maximum 200 words The Army Science Board was tasked to analyze current Army space uses and needs for future space systems to ensure adequate support for Army XXI and AAN The Study highlights the importance of space products to the Army warfighters and recommends more active Army participation in the planning and execution of future US space systems The study provides numerous assessments and recommendations in the areas of organization personnel national space systems use of commercial space capabilities and non-space systems The study also outlines time-urgent organization process recommendations and time-urgent program opportunities requiring immediate attention from Army leadership 14 SUBJECT TERMS Army Space Requirements Army Space Careers DOD Space Organization Satellite Communications Situational Awareness Space Capabilities ISR WTEM POS NAV GPS GBS Information Operations Command and Control DTED 17 SECURITY CLASSIFICATION OF REPORT Unclassified NSN 7540-01-280-5500 18 SECURITY CLASSIFICATION OF THE PAGE Unclassified 19 SECURITY ABSTRACT CLASSIFICATION Unclassified OF 15 NUMBER OF PAGES 116 16 PRICE CODE 20 LIMITATION OF ABSTRACT None Standard Form 298 Rev 2-89 Prescribed by ANSI std 239-18 296-102 ARMY SCIENCE BOARD SUMMER STUDY FINAL REPORT ARMY SPACE July 1999 Table of Contents Study Background Study Terms of Reference Study Sponsors Study Panel Participants Organizational Interactions Prior Space Studies Current Environment and Needs Army Space Today Evolving Space Environment Strategic Army Space Goals Army Vision 2010 Patterns of Operation Likely Future Army Missions Situational Awareness 2010 Warfighting Needs Emerging Concerns Regarding Space Non-Space Capabilities Assessments against 2010 Needs Current Communications against 2010 Needs Fielded ISR against 2010 Needs Fielded WTEM POS NAV against 2010 Needs Current Capability relative to 2010 Needs Current Capability without Space Systems Planned for Fielding Against 2010 Needs Communications and ISR • Weather Terrain and Navigation Assessment Systems Planned for Fielding against 2010 Needs Findings and Recommendations Space Threats Recommendations Threats to from Space and Non-Space Systems Recommendations Requirements Process The GBS Story Issues with Phase II GBS New National Security Space Functional Relationships New National Security Space Organization with ASB Recommended Army Additions Findings Organization and Personnel Recommendations Organization and Personnel Findings National Systems Recommendations National Systems Recommendations National Systems 2 Findings Commercial Space Recommendations Commercial Space Findings Non-Space Solutions Recommendations Action Opportunities Time-Urgent Program Opportunity Recommendations Time-Urgent Organization Process Recommendations Assessment Including All Recommendations Summary • 3 5 7 8 9 10 13 15 17 19 21 22 24 26 28 29 31 32 34 36 38 40 40 41 42 45 47 49 52 54 56 57 58 60 62 64 66 67 68 70 72 74 77 79 80 82 84 Prioritizing Army Space Needs Army Science Board Summer Study FINAL REPORT BRIEFING TOPICS Study Background Current Environment and Needs Assessments Findings Recommendations Action Opportunities Prioritizing Army Space Needs Study Background STUDY TERMS OF REFERENCE To meet the needs of the Army XXI and the AAN 1 Evaluate the adequacy of National space systems 2 Evaluate the potential of commercial space systems 3 Examine non-space alternative systems to - Provide needed capabilities - Augment or reconstitute space 4 Assess technical managerial organization cost and vulnerabilities 5 Identify and prioritize efforts needed to assure Army meet its needs Prioritizing Army Space Needs Study Terms of Reference The background and motivation for the study includes a In order for Army information system materiel developers to make maximum use of current and future space assets specifically focused on national security needs the Army will need to have in-depth understanding of the attributes and limitations of both existing and future space assets regardless of which sector they are focused on supporting This Army understanding will be needed to exploit national security space assets by continuing and expanding its already successful Tactical Exploitation of National Capabilities TENCAP program The Army will need to establish new means to allow it to work cooperatively with the commercial space system developers with the goal of making commercial space systems as supportive as possible of Army needs with minimal or modest Army investments b Although many of the Army's needs for better surveillance intelligence navigation targeting communications and environmental sensing capabilities may be achieved by use of existing and future space systems alternative nonspace means should be considered from the point of view of technology tasking restraints and cost-effectiveness c Alternative nonspace ways to obtain the desired capabilities are associated with the use of organic assets e g GuardRail tactical UAVs tethered balloon systems etc Other capabilities may be provided from shared or joint assets such as Rivet Joint JSTARS A WACS and the emerging high-altitude long-endurance UAV systems Dark Star and Global Hawk d This study is motivated by a recently revamped Army space organizational structure thus making this an appropriate time to reexamine each of the Army's space efforts as new capabilities are identified against the backdrop of continued budget constraints e The Army's initiative in digitizing the battlefield portends a number of new possibilities for the utilization of space assets Space assets are potentially the major enablers of information dominance in the 21st Century A clear understanding of the full potential of space platforms is therefore demanded f The Army has a long successful history of capitalizing on the national investment in space assets through such efforts as the TENCAP program However the traditional Army approach has been more to take advantage of what is available as opposed to influencing the requirements for space assets The Army must develop a stronger voice in asserting the warfighter's needs for space capabilities g The proliferation of a whole host of new and rapidly evolving commercial space systems provides an important new source for the satisfaction of important Army information system needs The Army must capitalize on the potential value of these systems h There are other new organic Army and joint system development activities evolving Tradeoffs between use of space and nonspace systems need to be carefully evaluated in order to maximize the effectiveness of the Army's limited resources a-h are verbatim from the TOR Finally it is important to mention that cost aspects were a consideration included in the formal terms of reference Although cost is clearly an important factor the study panel recognized that to develop a common and current cost baseline and reasonable cost projections would be exceptionally complicated Therefore a conscious decision was made to exclude cost from the scope of our study effort STUDY SPONSORS LTG Edward G Anderson III Commanding General Space and Missile Defense Command Co-Sponsors LTG Thomas N Bumette Deputy Chief of Staff for Operations and Plans LTG John N Abrams Deputy Commanding General Training and Doctrine Command Staff Assistants and other key Army participants SMDC Dr Darrell Collier Cognizant Study Deputy Chief Scientist SMDC LTC Steve Zappalla Principal Staff Assistant Mr Tomas A Pagan Principal Advisor DCSOPS TRADOC LTC William Reiner Staff Assistant Ms Laine Beckwith Staff Assistant Mr John Marrs USA Space Command Mr Jeff Ozimek CECOM Prioritizing Army Space Needs Study Sponsors Early in his tenure as the Commanding General of the Space and Missile Defense Command LTG Edward Anderson approached the ASB in regard to how it might help enhance his new responsibility for Army Space A number of suggestions made by the ASB resulted in the study's terms of reference shown on the previous slide Shortly after the study was initiated LTG Anderson enlarged the sponsorship of the study to include senior Army participation from DCSOPS and TRADOC primarily because of their key roles in the requirements-setting processes In retrospect it would also have been beneficial to the study to have had both DISC4 and DCSINT as sponsors especially in regard to the ASB's examination of how space requirements are generated and approved The study received almost continuous direct support from the Chief Scientist of SMDC as well as support from Army personnel within SMDC DCSOPS and TRADOC Participants from CECOM and the Army Space Command were also available during the course of the study The study was carried out at classified levels which allowed full disclosure of relevant sensitive space-related programs However it has been possible to prepare the product of the study at an unclassified level so that it can receive Army-wide distribution and attention STUDY PANEL PARTICIPANTS Co-Chairs ISR Sub-Panel Mr Ray Leadabrand Mr JohnCittadino Mr John Reese Leader National Security Agency Dr Ed Gerry Mr Dan Held NRAC Mr Ron Swonger Integration Sub-Panel Dr Dr Dr Dr Philip Dickinson Leader Lynn Gref Bruce Wald Naval Studies Board Anthony Hyder Defense Intelligence Agency Communications Sub-Panel Mr John Cittadino Leader Ms Susan Lowenstam Mr Robert Philips Mr Erling Rasmussen WTEM POS NAV Sub-Panel Dr Dr Dr Dr Dr Robert Douglas Leader Greg Canavan Wade Kornegay Jim Sarjeant Harry Tredennick Special Consultants to the Study Dr Randy Clinton USAF Scientific Advisory Board Dr Robert Naka USAF Scientific Advisory Board VADM Albert J Baciocco USN Ret Prioritizing Army Space Needs Study Panel Participants In staffing the ASB study with ASB members special attention was given to selecting individuals with either considerable experience in the space program development and use environment or who were currently involved in such activities An additional effort was made by ASB management to encourage participation of individuals from other DOD advisory activities Arrangements were made to include members of the scientific advisory boards of the Air Force the National Security Agency the Defense Intelligence Agency the Navy and the National Science Board as active study participants This greatly broadened the understanding of the study panel in regard to the many and complex technical and political nuances of space In addition several of the study panel members were associated with commercial space development activities which greatly improved the ability of the panel to examine the potential contributions of commercial space systems to meeting Army needs ORGANIZATIONAL INTERACTIONS TO DATE SMDC DC And Huntsville AMCOM JC2WFC OSD Space Architect NRO USAFAIWC ASPO TRADOC Ft Bragg XVIIIABN Corps Ft Gordon US Space Command CECOM USN Space Command NIMA USNN6 USAF Space Command JCS J3 J8 J6 USAFAIA USA Space Command DARPA USAF Chief Scientist DARO USAF SAB Space Study Threats NAIC DIA NSA CIA DCSINT BMDO DUSD Space DISA Commercial Satellite Association Industry Lockheed Martin Teledesic Boeing DISC4 Motorola Hughes LORAL GTE etc Prioritizing Army Space Needs 7 Organizational Interactions The study team interacted with virtually all military industry and other government organizations significantly involved in space activities Close interaction with the Air Force took place since the Air Force Science Advisory Board AFSAB was concurrently conducting a space study Commercial activities that are developing personal satellite communications provided the study with an indepth understanding of the nature of these soon-to-be-deployed satellite communication systems This information allowed the study team to explore how commercial entities might be utilized by Army warfighters Prior Space Studies Prior Army Studies have contributed to an improved understanding of Space capabilities and needs as well as better organization and processes to engage in Space activities The objective of this study is to build on prior results to provide focused recommendations to Senior Army Leadership to permit a better understanding of requirements capabilities and the ability of warfighters to apply them Prioritizing Army Space Needs Prior Space Studies Over the past decade the Army has examined its interaction with space—its systems providers and products—and has made significant changes in the way it carries out the Army activities that provide space products to its warfighting commanders and forces Previous studies of the Army space processes by both the Army Science Board ASB and the National Research Council's Board on Army Science and Technology BAST indicated a need for greater Army involvement in the planning and requirements-setting processes for new national and military department space program developments The lack of sufficient spaceknowledgeable personnel within the Army space activities is consistently regarded as the most important Army space process deficiency This deficiency not only prevents the Army from exerting influence on emerging space system programs but also has limited consistency continuity within the Army a requirement for achieving maximum exploitation of space products Prior studies also indicate that the Army organizations involved in space matters are unable to be as influential as possible because there is no common Army Space Activity to which they all report A more recent ASB study examining the organizational arrangements of the Army's missile activities and the Ballistic Missile Defense Organization BMDO reviewed both the missilerelated structures and the space structures This study recommended unification of all the Army space-related activities under a common organization As a result within the past year the Army has reorganized the prior strategic missile activities and its space activities in a new common organizational structure named Space and Missile Defense Command SMDC This new arrangement embraces the Army Space Programs Office ASPO and the Army Component 10 Command ARSPACE to US SPACECOM In addition in accordance with ASB recommendations the SMDC and TRADOC activities are working together under a memorandum of understanding MOU to maximize the effectiveness of the Army's space requirements determination process With the many changes in the world's political arrangements the major restructuring of the way in which the United States now considers its national space systems burgeoning new commercial space initiatives for clients both in the United States and abroad and the possibility that Army information system needs might be met by unmanned aerial vehicle UAV systems it was appropriate for a comprehensive new look at Army space needs The ASB was tasked to do this and chose to do it during a focused Summer Study The results of the study include a number of findings about the current deficiencies associated with the Army use of space and recommendations regarding opportunities to provide even more relevant capabilities to its warfighters 11 12 Current Environment and Needs 13 14 ARMY SPACE TODAY The Army is the biggest user of Space products The Army as a major user has validated space products for many years in operations training exercises and experiments Army use of space is recognized and supported to varying degree by NRO USAF and US Space Command New SMDC structure provides centralized leadership for many Army space efforts—cooperative TRADOC SMDC role should further improve requirements process The Army Space Council has gone dormant Informal coupling between ASPO and NRO appears effective Army Space Command is participating in US Space Command's planning meetings— but participation limited by availability of qualified Army staff New FA40 career specialty established to increase space expertise in the Army Prioritizing Army Space Needs Army Space Today Army utilization of space products and services continues to expand as rapidly as these can be adapted to Army doctrine concepts and missions Although it's difficult to perform a rigorous analysis the panel believes that the digitized Army is the largest user of DOD space systems Recent warfighting missions warfighting exercises and technology experiments continue to validate a reliance on Space to achieve Information Dominance The providers of space systems the USAF and the National Reconnaissance Office NRO have a difficult job in attempting to satisfy the disparate needs of numerous customers Clearly the Army has met with varying success in articulating its needs and having them recognized and supported during the acquisition process The Army Space Program Office ASPO is a good example of how the Army through extraordinary measures has been able to work with NRO to bring space intelligence products directly to the battlefield The reorganization of the Space and Strategic Defense Command provides an opportunity to establish an Army focal point for space activities including requirements and acquisition within the Joint arena The close relationship between TRADOC and SMDC regarding the establishment of requirements could lead improved coordination among the Battlefield Operating System BOS and evaluation of a total system of systems architecture However it should be noted that the Army Space Council which could and should be the senior forum to address major space issues has gone dormant Such a forum with the CG SMDC added to the original membership would be invaluable in the vetting of Army space policy requirements and major issues 15 The challenge remains that the number of personnel with space expertise is woefully inadequate to meet needs and to exploit the opportunities available within the National Joint civil and foreign space communities Personnel who can articulate Army needs positions and requirements are needed in the planning of many major space systems under consideration or in early development The ASB Study Panel commends the Army on the formation of the special space personnel category FA40 This is a positive step in creating a permanent cadre of space-knowledgeable staff 16 EVOLVING SPACE ENVIRONMENT • • • • • • Defense Reform Initiative Directive DRID-11 - ASD C3I responsible for space and airborne sensor systems - DUSD Space and DARO disestablished - New and expanded role for DoD Space Architect NRO mission refocusing Greater focus on support to warfighters - Less strategic intelligence focus Army space responsibility consolidated in SMDC Commercial space advances on fast track - R D producing major technology improvements and opportunities - Proliferation of global SATCOM networks and imagery - Multi-national ownership - Exploitation by potential enemy nations likely International treaties are a major factor in use of space Limited budget for DoD space - Reluctance to use Army funds to influence requirements OFFERS BOTH OPPORTUNITIES AND CONCERNS FOR THE ARMY Prioritizing Army Space Needs Evolving Space Environment The US space environment which is continuously in a state of flux has recently experienced major organization changes regarding the way that Military and National Space Programs are managed DOD has approved Defense Reform Initiative Directive 11 DRID-11 which changes the relationship between DOD and National Reconnaissance Office programs The effects of these changes are discussed in detail later in this report The U S space environment is in a state of flux DRID-11 has effected major organizational changes in the way OSD and the Intelligence Community manage National Space Programs which are executed by the NRO Changes within the NRO include the establishment of a new joint National Security Space System Architect NSSA position Most of the Army space activities are now focused in SMDC and except for intelligence requirements for space systems a TRADOC SMDC MOA places the responsibilities for the development of Space requirements on the SMDC with approval by CG TRADOC In recent years a large number of international business consortia have formed to develop space systems to satisfy burgeoning communication remote sensing and other needs Huge investments far beyond the military R D budgets are being made by these concerns as they race to provide service in a competitive environment Although these commercial capabilities offer a major opportunity to satisfy many Army DOD needs it remains to be determined how best to do business in this arena Furthermore the multinational characteristic of this industry virtually assures that this capability will be available to future adversaries at a price The Army at all levels must learn how to react to this eventuality 17 It was clear to the ASB Study Panel members that with the severely restricted Army budgets of recent and projected years there is little enthusiasm to support Space needs with Army funding It therefore remains for the Army to do the very best it can to influence and make its voice heard in the joint arena that decides how to meet Service requirements with space capabilities Having said that the panel further believes that the Army space community must continue to sell the virtues of space in order to compete for Army dollars as they may be needed to meet unique Army space requirements STRATEGIC ARMY SPACE GOALS Surveillance Warning Communications Navigation - r r ic WTEM GAIN INFORMATION DOMINANCE Benefits Capabilities • • • • • • • Intelligence Surveillance Reconnaissance • Warning • Communications • Precision Location and Timing • Remote Sensing • Environmental Monitoring Global Coverage Freedom of Access Direct Down Links Continuous Overwatch Rapid Reaction Fewer Forces in Harms Way The Key Enabler to 21st Century Operations Prioritizing Army Space Needs 12 Strategic Army Space Goals The focus of this study is an examination of how the Army can exploit space to support information dominance on the battlefield Space capabilities and assets have a proven track record of enhancing situational awareness and providing robust communications that are timely and accurate Space is a key enabler for information operations The communications navigation ISR and WTEM data become key building blocks for Information Dominance • • • • Seamless secure communications Near real-time information for situational awareness SA Targeting to disrupt enemy operations The only available weather data for enemy held territory Through a multitude of technologies DOD and the Army benefit from the space assets to achieve information superiority Global coverage from satellite and nonspace means allows the commander to manage the battlespace Wireless communications and access to direct downlinks support strategic operational and tactical missions Through remote sensing and national assets continuous overwatch and blue-force tracking are feasible and attainable Evolving doctrine to develop sensor-to-shooter links puts threat forces in harm's way 19 Given that information dominance will be the key enabler in 21st century operations the information provided by space-based assets is critical to the Army's success 20 ARMY VISION 2010 PATTERNS OF OPERATION Decisive Operations • Continuous Communications • Precision Navigation Precision Targeting Project the Force • Continuous Communications • Continuous ISR • Continuous WTEM Shape the Battlespace • Continuous ISR • Continuous WTEM • Precision Targeting • Updated BDA • Blue Force Tracking Sustain the Force • Continuous Communications • Continuous WTEM • Precision Navigation Protect the Force • Avoid Detection and Obstacles • Avoid Contamination • Early Warning • Combat Identification Prioritizing Army Space Needs Army Vision 2010 Patterns of Operation Army Vision 2010 provides a high-level view of the future battlefield What is lacking on this chart is the element of completeness — the need to provide these capabilities to all elements of the force including brigade battalion company and platoon All component commanders need continuous communications ISR and weather These capabilities shape the battlespace Blue forces can capitalize on precision target location data employ precision weapons and conduct BDA thereby maximizing munition effectiveness Precision navigation is necessary to both targeting and avoidance of fratricide A critically important aspect of this chart is the stated need for continuous ISR continuous communications continuous WTEM precision navigation and precision targeting which implies continuous surveillance on a mobile battlefield Our current capabilities clearly do not meet these needs 21 LIKELY FUTURE ARMY MISSIONS • Rapidly deployed JTF - Lift will be scarce - Unknown Level of CONUS and forward sanctuary Support • Peace keeping to major conflict - Small light agile forces to take and hold ground - Potentially non-linear battlefield - Disconnected enclaves monitoring large areas • Unfriendly Enviomments - Hostile Population - Urban or Jungle combat likely • Can't rule out major conflict - Russia China North Korea India Pakistan Middle East FUTURE WARFARE WILL SEVERELY STRESS TACTICAL COMMUNICATIONS AND ISR Prioritizing Army Space Needs Likely Future Army Missions The Terms of Reference of this study asked for an evaluation of the role of space in meeting the needs of Army XXI and the AAN In an effort to define these needs the study panel reviewed the likely future missions of the Army in light of evolving doctrine Since the end of the Cold War the mission of the U S defense forces particularly the Army has changed dramatically The US military does not have a peer competitor Recent missions have it responding to a variety of situations ranging from major combat in Operation Desert Storm to peacekeeping operations in Bosnia and Haiti The typical mission of the 1990's called for rapid deployment of a Joint Task Force often with allied support to an environment that had not previously been viewed as a potential area of combat The scarcity of dedicated military sealift and the limited number of military and CRAF aircraft resulted in a finite capability to move major forces overseas This necessitated the rationing of lift to the most important elements of the force The aftermath of Desert Storm generated much discussion of sanctuary support for deployed forces that is leaving support personnel and their equipment in the CONUS or in some forward deployed areas rather than deploying them to the theater Discussion included leaving intelligence support elements at home stations and providing just-in-time logistics to avoid stockpiling large quantities of materiel in the theater During this study however we heard little about sanctuary support the doctrine of sanctuary support needs to be fully developed 22 The range of missions and the desire to limit the number of deployed troops often result in small agile forces deployed in very low densities to maintain the peace This low-density discontinuous force creates a difficult challenge for both the communications systems which connect the various force elements and ISR systems since a robust ISR capability is required to monitor unoccupied areas to deny the enemy sanctuary The role of the U S forces may be further complicated by a population that may not be supportive of operations As we saw in Somalia the operation of remote ISR and or communications sites was undesirable or infeasible In addition despite the great progress that has been made in ISR systems we still do not have adequate capability to monitor and target enemy forces operating in a densely vegetated environment certainly not in a rain forest or areas with imperfect coverage such as mid-latitude forests typical in Europe or North America Despite the demise of the Soviet Union the United States cannot ignore or discount the possibility of major conflict against a heavy force from countries such as Iran Iraq Korea China India Pakistan or Russia We must maintain the capability to conduct an MRC anywhere in the world with minimal loss of life Each of these environments puts significant stress on our communications both within the theater and from the theater to the CONUS The need for real-time ISR to be available to every echelon of command in the theater is only now beginning to be satisfied through the concept of situational awareness in the digitized tactical forces 23 SITUATIONAL AWARENESS SITUATION AL AWARENESS PARAMETERS 1KI ITr- 0 CINC JTF Service component - National JCS priority - Strong CON US based intelligence and logistics support - Robust SATCOM Joint tactical warfighting operations - Brigade below - New doctrine requires increased BLOS communications - Accurate ground truth to avoid fratricide - Rapid accurate targeting to impact operations - Accurate current SAM Order of Battle to avoid losses - Tactical information needs NOT a high priority at JTF HQs Hours Kilometers M f '' j ■ W „'Jib W Seconds Meters Prioritizing Army Space Needs Situational Awareness In the early 1970's General Bill Depuy then the Commander of TRADOC coined the phrase see the battlefield Over the ensuing years the improvement in sensor technology and the ability to network heterogeneous communications capabilities into a tactical internet have provided the tools to implement Depuy's vision under the now used term of situational awareness SA With SA one day all commanders will have access to a current display of the battlefield within their areas of responsibilities to the level of resolution necessary for conduct of operations The current implementation tends to favor the needs of the senior commanders as opposed to the commanders and soldiers at Brigade and below At the Joint Task Force and at the service component headquarters the level of information and the timeliness needed to satisfy the SA requirements are relatively easy to meet Information on the location and composition of major elements of the threat forces current to within hours provides enough data to meet the planning and response timelines of the commander and his staff Most of the information needed can be derived from National Technical Means NTM which are exploited in the CONUS by the defense agencies This non-real-time information is provided to the JTF via MILSATCOM or leased commercial satellite Thus the CONUS defense establishment is in essence providing sanctuary support to the JTF operations However at the joint tactical echelons brigade and below a number of factors reduce the adequacy of this SA to both the Army and its sister Services To successfully execute joint tactical operations the commanders need 24 • Accurate real-time target acquisition data if they are to deny the enemy free access to unoccupied areas • Complete and accurate representation of all blue-force elements to avoid fratricide while controlling the battlespace • Accurate description of the threat air defenses so that Army and USMC rotary wing attack helicopters as well as Navy USAF and USMC fast movers can operate in the battlespace with minimal loss Satisfaction of these needs is exacerbated by inadequate BLOS communications to connect distributed ground forces and to maintain continuous contact with joint and allied aircraft operating over the battlefield Furthermore SA provided by CONUS support to the JTF is insufficient in that it generally is not real time and does not provide the level of detail needed to support effective fires i e the location of every blue combat element and the precise location of critical red elements Existing surveillance systems lack the capability to support continuous real-time SA The detailed tactical needs of the combatants are usually below the radar screen at the JTF headquarters The ASB Study Panel is concerned that Army leadership fails to realize that the needs of the joint tactical warfighters are not being met and that it will take major concerted efforts to mitigate this deficiency and to advance the vision of the digitized battlefield 25 2010 WARFIGHTING NEEDS The Army's vision of XXI century operations and the digitization AWE provide a model for future warfare However without robust - Near continuous real-time ISR and - Reliable digital communications to the lowest elements and - Voice communication for C2 Platoon through Division and - Accurate mapping weather and reliable POS NAV then - Force XXI will not achieve full potential Prioritizing Army Space Needs 2010 Warfighting Needs The Depuy vision of seeing the battlefield began to evolve in hardware and software in battle lab experiments at Ft Knox a decade ago These early experiments looked at the power of interconnecting tank commanders in Mi's to improve coordination among the elements of the platoon company and battalion This was done by providing real-time reporting of the position of each track and the ability to coordinate fire and to maneuver among units These early trials led to the Army digitization program which has been evaluated experimentally in a series of FTXs and CPXs from 1994 to the present The observations from these exercises formed the basis of the Army vision of XXI The experiments to date have been limited in scope and have suffered the growing pains of implementing some very complex technology in demanding military environments For example the Tactical Internet which supports the distribution of SA products to the warfighters is built to the commercial standards of the internet Unfortunately civilian users have not demanded mobile operation on an unprepared environment representative of the future battlefield and this important standard has yet to be established Multiple factors limit the Army's ability to realize the vision of the digital battlefield • High-resolution spaceborne sensors do not have the ability to provide continuous coverage of an area unless the number of spacecraft is very large Likewise most manned sensor platforms are not operated in a small geographic area due to the inherent danger to the system and its crew This lack of continuous coverage is a serious limitation on the future battlefield • Technology is not available to fly and process real-time imaging systems with the capacity and resolution needed to continuously describe the tactical battlefield 26 • The communications to and among the lowest elements of the force are not adequate to deliver the real-time data flow to support SA and voice coordination which is an inherent element of battle command • Our ability to develop map products for a new area the ability to provide micro weather information to support precise artillery fire and air operations hundreds of kilometers into enemy territory and robust position location navigation are not yet available The vision of Force XXI cannot be realized until each of these problems is solved Space systems can be major enablers in the solutions to these complex problems 27 EMERGING CONCERNS REGARDING SPACE NON-SPACE CAPABILITIES What are the threats from military and terrorist adversaries to US military space systems space non-space and terrestrial • What are the vulnerabilities of both military and commercial systems to possible enemy or terrorist attacks • What will be the ability of adversaries to capitalize on commercial space capabilities which hold promise to approximate US military performance • What can US military system developers and users do by using Space Control tools to assure freedom of operations in space and deny others adversaries the use of space Prioritizing Army Space Needs Emerging Concerns Regarding Space Non-Space Capabilities The study panel was highly sensitive to the need to assess Space threats and vulnerabilities Recognition was given to the fact that the nature of world politics has made dramatic turns in the past decade The questions above indicate the areas explored during the conduct of the study In addition to the classic concern of how to protect U S systems it quickly became evident that the burgeoning commercial capability being brought on line is creating a new concern for Army commanders It is highly likely that future adversaries will have access to substantial space capability as long as they can afford to pay for it It is incumbent that the Army knows and understands the extent of these capabilities and be prepared to counter them Much of the work done by the panel relative to threat and vulnerability is classified The classified findings and recommendations have been briefed to the Army leadership In order to keep this report unclassified and achieve the widest possible distribution only the unclassified findings and recommendations are discussed later in this document 28 Assessments against 2010 Needs 29 30 ASSESSMENT CURRENT COMMUNICATIONS AGAINST 2010 NEEDS • • • • • • Extended battlespace requires - Beyond LOS voice and data communications - Video bandwidths down to Battalion Company level MILSATCOM with commercial augmentation provides multi-megabit capability to theater - Voice and data - JTF Corps enjoys high priority - Terminal equipment available in supporting organization - GBS Phase I demonstration in Bosnia TF XXI and Division XXI TRI-TAC MSE equipment - JTF down to Corps Division and Brigade - Limited capacity mobility and BLOS capability Division has MILSATCOM capability UHF TACSAT provides limited fragile voice data 16Kbps Below Brigade - No wide-band broadcast capability - Tactical communications SINCGARS EPLRS limited to low data rates and LOS Prioritizing Army Space Needs Current Communications against 2010 Needs Examination of communications needed to adequately support Army missions in the post-2010 time frame immediately points to requirements of units at Brigade and below to transport large quantities of information beyond line of sight In addition recent Army requirements such as Video-Teleconferencing among commanders call out video bandwidth down to company level MILSATCOM has planned upgrades that will satisfy the higher echelons of Army command such as at the JTF Corps level GBS is programmed evolve to a more satisfactory capability than now exists in Bosnia and should satisfy the need to get video intelligence logistics medical and other large datafiles down to the tactical-level forces Unfortunately given capacity limitations of the planned MILSATCOM architecture the planned capabilities do not appear adequate to provide beyond-line-of-sight voice and data communications to the lower echelons such as at the battalion and company levels sufficient to meet the goals of Army digitization SINCGARS EPLRS will be available but these systems will be limited to low data rates and LOS 31 ASSESSMENT CURRENT ISR AGAINST 2010 NEEDS • • • Multiple collection systems under Corps JTF control meet most surveillance needs - Supports planning cycle measured in hours - Real-time targeting ATACMS OK for fixed not for moving - Low capability against fleeting deep targets e g Scud TELs - JTF responsible for tasking Primary Division support from Corps via ASAS with delay - TENCAP - JSTARS MTI SAR direct via CGS - Few tasking requirements for non-organic sensors satisfied for Division and below Limited ISR to Brigade and below - Delay in providing real-time targeting data from sensor JSTARS to shooter helicopter artillery - Need for timely 1 hr latency imagery not met • Void exists regarding timely high resolution 1 m intelligence products at Battalion level - Passage of JSTARS tracks CGS to ASAS to FBCB2 unlikely to meet realtime maneuver needs at Battalion Company level Prioritizing Army Space Needs Fielded ISR against 2010 Needs The improvements in ISR that will evolve over the next decade will be substantial with respect to coverage revisit times integrated asset management and product dissemination to the field Still these will be evolved capabilities not the revolutionary capabilities that will be available beyond the 2010 timeframe None of the advanced new ISR systems that are currently in the planning stage e g Discoverer II IOSA will be operational by that time However many of the new processing and dissemination initiatives will be in place to provide better support to military units Army TENCAP will continue to be a key element of the direct-to-battlefield dissemination architecture of the Army In any case the Corps will continue to have very limited deep targeting capability under its control and therefore must rely on Joint and National sensors for this vital function Capabilities are being planned to better use the JSTARS information and disseminate it to the tactical forces even though it is not expected to meet real-time maneuver needs at battalion company levels Airborne ISR systems will continue to provide battlefield support and the dissemination within the battlefield will improve Systems such as GBS with in-theater rebroadcast will support improved product dissemination as will common ground stations and data link standards It is possible that some new capabilities might come into existence due to the new HALE UAV platforms but since these programs are still experimental there is no assurance that they will become operational by 2010 32 Some enhancement of ISR capabilities can take place due to tactical UAV capabilities that might be available by 2010 However the current situation with the Army TUAV offers little confidence that the Army tactical forces will have a truly usable TUAV for enhanced ISR by 2010 unless major restructuring of the current TUAV program is implemented soon Major improvements are possible in the areas of integrated tasking processing exploitation and dissemination TPED Integrated and tightly coupled tasking and management of the broad spectrum of ISR systems space airborne and ground will be improved by 2010 but the availability to the lower echelon forces will remain constrained with little ability to effectively task the integrated system within the required timelines at brigade level and below minutes versus days 33 ASSESSMENT FIELDED WTEM POS NAV AGAINST 2010 NEEDS • • • Weather Environmental Monitoring - Essential to optimize force operations - Weather balloons every 4 hrs acoustical sounder for low altitude data - Communication links to Defense Meteorological Support Program DMSP cloud cover but not cloud bottom and course wind data with 4 hrs latency vs wind velocity 2 m s NRT - Weather trafficability interaction not available - GOES cloud cover with 1 km resolution Terrain - Mandatory for battlefied visualization BV envisioned for digitized force - Global DTED Level 2 required for BV-less than 5% of earth covered - DTED Level 4-5 required for targeting-less than 1 % of earth covered - Very limited feature data - Near term change data not available - Rapid terrain data acquisition and exploitation over denied areas not possible Corps area coverage in 12 days POS NAV - Critical for 2010 force operations - GPS use widespread - Very vulnerable to jamming airborne KW jammers preclude use over wide area - Selective availability disabled no later than 2006 - Radio POS NAV infrastructure deteriorating Prioritizing Army Space Needs Fielded WTEM POS NAV against 2010 Needs Weather and Environmental Monitoring Weather and Environmental Monitoring are essential to optimizing force operations Weather impacts a variety of combat elements For example inaccuracies in wind data can significantly affect the number of artillery rounds required to neutralize a target Visibility and wind data are also important in planning and executing helicopter operations A third area in which wind data are vital is in predicting chemical biological agent dispersion Cloud bottom data are important to USAF delivery of smart munitions and affects close air support operations Cloud bottom data can also affect helicopter route planning Moisture content in the soil affects its trafficability and thus the maneuver options and timing The Army sources of weather data include weather balloons and acoustical sounders These systems have certain shortcomings The byproducts of launching weather balloons have an adverse environmental impact there is latency depending on time from launch and the area collected is dependent on winds aloft Acoustical sounders can only provide low-altitude wind data in the vicinity of the sounder Communication links exist to the ground segment for the Defense Meteorological Satellite Program DMSP Through this system cloud cover data are available with 4-hour latency from the time of the satellite pass Note that cloud cover information is not cloud bottom data which the USAF needs Algorithms have been developed to generate course and wind data The accuracy is dependent on the surface land or sea and as with the cloud data there is latency from the time of the satellite pass 34 At the present time there is no capability to determine the soil moisture content and its consequent interaction on trafficability Hyperspectral imagery can yield an indication of moisture content however the capability does not exist to incorporate these data with soil type for estimation of impact on trafficability Terrain Digitized terrain data are mandatory for the digitized force's battlefield visualization BV Digitized terrain elevation data DTED have been prepared for a large fraction of the earth to Level 1 i e 100-meter posting and 50-meter absolute accuracy However Level 2 with 30meter posting which is required for BV is available for less than 5 percent of the earth Higher absolute accuracy is required for targeting 5 to 10 meters and is available with DTED Levels 45 This higher accuracy can increase artillery effectiveness for preplanned fires by 17 to 25 percent Only a very small fraction of the earth is covered at these levels Feature data that include buildings roads bridges forested areas etc are integral to maneuver planning but are largely not available in digitized form—neither are recent change data such as a washed out bridge or a barricade under construction A rapid collection and exploitation capability of terrain data over denied areas does not exist Terrain data are currently available for contingency areas such as Korea and Iraq however in many third world areas data are sparse and so a rapid collection and exploitation capability is required It should be noted there may be significant inaccuracies on the order of 300 meters between map coordinates and GPS coordinates These potential inaccuracies prompt the need for rapid collection The timeliness requirement is for a corps-sized area 300 km by 300 km to be collected and exploited within 12 days POS NAV Accurate position location and navigation are integral to 2010 force operations and are facilitated through the widespread use of GPS Many munitions such as JDAM and guided MLRS are also dependent on GPS for increased accuracy Unfortunately GPS is very susceptible to jamming Heliborne jammers can block use of GPS over a very wide area Other jammers are hockeypuck-sized and can block GPS locally these are cheap and can be constructed with Radio Shack parts The threat may also rely on GPS Selective availability was designed to preclude such usage but with the widespread commercial use of GPS national policy states that this capability shall not be invoked after 2006 The infrastructure that supports radio navigation systems such as LORAN is deteriorating as a result of switching to GPS 35 ASSESSMENT CURRENT CAPABILITY RELATIVE TO 2010 NEEDS Satisfactory Marginal Inadequate Army Vision 2010 Needs Echelons Division Corps Above Brigade Below Communications ISR Weather Terrain POS NAV Prioritizing Army Space Needs Current Capability relative to 2010 Needs This chart presents a consensus summary of the ASB subjective assessment of the current capabilities that are available to the force to support Army operations in 2010 This assessment is subdivided by functional area communications ISR weather and terrain POS NAV against echelon Overall the assessment of current capabilities was marginal at division and above At brigade and below capabilities are inadequate Communications As previously discussed the Army communications needs at corps and above are satisfactorily met by MILSATCOM systems with the continued augmentation of commercial capabilities such as INMARSAT The limited access at division to DSCS along with the limited and fragile capacity offered by UHF TACSAT is marginally adequate support needs At Brigade and below current communications is inadequate when measured against 2010 Army needs The digitized force of 2010 requires high data rates in the megabit per second range among the brigade and below units The CONOPS requires support beyond line of sight These requirements are not met by the limited fragile capacity of the beyond-line-of-sight systems TACSAT and tactical radio SINGARS EPLRS Thus communication is assessed to be inadequate at brigade and below ISR The theater task force is supported by the national ISR capability and sets tasking priorities for the entire force The theater task force commander controls theater organic capabilities such as 36 JSTARS These capabilities are assessed to be satisfactory in meeting most of the corps and above ISR requirements As previously identified a significant exception is the deep targeting mission of the Corps The division has only limited access including tasking to national and theater joint ISR systems Thus the increased ISR needs commanded by the 2010 force are only marginally supported Brigade and below have little priority on national and theater capabilities but the brigade and below ISR needs are more demanding in resolution frequency and latency Ground based scout patrols with their SINGARS cannot meet coverage and latency needs The Army UAV could provide much needed capability if available but considered doubtful at this time Thus the ISR support to the brigade and below is inadequate for 2010 operations Weather and Terrain Current capabilities provide weather information that is very coarse relative to Army operations and is nominally at least 4 hours old Weather data is marginal for division and above however it is not of sufficient resolution to support optimized operations at brigade and below DTED-2 is required for battlefield visualization and planning DTED-1 is available for approximately 70 percent of the earth and can be used with marginal effectiveness for planning and visualization when coupled with high-resolution imagery For these reasons division and above weather and terrain capabilities are assessed as marginal The inability to provide high resolution weather and terrain data to support operations leads to an inadequate assessment for brigade and below POS NAV As discussed previously good POS NAV is essential to Army operations in the 2010 timeframe It is fundamental to the digitization of the force GPS has become the underpinning technology to provide this essential capability Jamming even at moderate power levels can preclude the use of GPS receivers over a large area of the battlefield Alternative POS NAV systems such as LORAN are not being maintained and units are not issued the necessary equipment Thus the Army is totally dependent on GPS which provides excellent capability but is subject to simple jamming therefore the current capability is assessed to be marginal across the echelons 37 ■ ASSESSMENT CURRENT CAPABILITY WITHOUT SPACE Current Capability Satisfactory Marginal Inadequate ■fl 1 Y V ■v V Y Y Echelons Army Vision 2010 Needs Division Corps Above Brigade Below Communications Y m ISR ' B H Weather Terrain POS NAV 1 H m m Prioritizing Army Space Needs Current Capability without Space This slide dramatizes the contribution of space resources to Army warfighting needs Comparing this slide which addresses current capability minus space assets with the preceding slide shows that those areas which were marginal with space assets are now inadequate and those that were satisfactory are now marginal Communications Without satellite communications SATCOM the Army would revert to terrestrial communications At Corps and above such media as transoceanic cable and fiber host nation communications military and PTT and military beyond line of sight such as HF and Tropospheric communications would probably meet minimal requirements But at Division and below the increased needs of the 2010 Army could not be met without SATCOM ISR With no national ISR and no space communications the corps and above ISR needs are marginally met by organic assets The absence of beyond-line-of-sight communications coupled with limited tasking priority makes for an inadequate ISR capability in support of the division and below Weather and Terrain A significant portion of weather and terrain data are currently collected by space-borne systems Terrain data can be collected by airborne assets in a benign situation e g Bosnia data collected by ERIM airborne IFSAR Weather balloons can provide localized data over uncertain areas These limited capabilities are inadequate to support Army operations in 2010 38 POS NAV The Army has become totally dependent on GPS and alternate capabilities are no longer maintained and deployed in adequate numbers to support Army operations in 2010 Thus without space-borne GPS there is inadequate POS NAV support to a digitized force 39 ASSESSMENT PLANNED SYSTEMS FOR FIELDING AGAINST 2010 NEEDS • Communications - Division through Brigade BLOS and increased capacity with new terminals SMART-T AND STAR-T - Brigade through Battalion • SCAMP Block I small MILSTAR terminal low-rate voice data IOC 4ID 1999 • GBS Mobile Satellite Service MSS must be affordable and effective • ISR - Significant improvement increased and more timely coverage in National and Joint system support --SBIRS High and Low Cobra Brass JSTARS Discoverer II FIA IOSA HSI MSI - But tasking ability and distribution to Division and below are still limited - Shortfalls in organic ISR systems will be helped if TUAV is successful • WTEM - NPOESS and GOES fielded limitations still exist on cloud bottom accurate wind - Global DTED from SRTM available 30m • POS NAV - GPS status selective availability and improvements NAVWAR uncertain - New initiatives not in sight Prioritizing Army Space Needs Systems Planned for Fielding Against 2010 Needs Communications and ISR A number of communications and ISR developments are being planned to meet 2010 needs of the Army warfighters The Army has or will have on contract acquisition of new terminals for use with UFO DSCS MILSTAR and Commercial CSCI satellites Included in the MILSATCOM architecture are two undefined systems which if successfully implemented will add significant capability GBS Phase III should overcome the shortfalls of the existing system but the Army must ensure that terminals are affordable and tactically usable DOD is already experimenting with commercial systems Iridium and Globalstar as an answer to beyond line of sight mobile users The MILSATCOM architecture designates this capability though the specific system the Mobile Satellite System MSS remains to be determined For ISR capabilities a number of new adjuncts of current systems should improve the ISR capability for Army tactical forces Also there is a new commitment of NRO NIMA NSA and DIA to be relevant to the tactical needs The new SBIRS High and Low system should provide the Army much needed new surveillance and reconnaissance capabilities The range of capabilities being planned to address the 2010 needs is phenomenal but most will come into full operation beyond 2010 However as these systems become operational the Army will have the opportunity to have significantly improved ISR results delivered to the fighting units The entire range of existing systems will be augmented by new systems such as Discoverer II with MTI and SAR by evolving HSI MSI systems and a more robust communications system to provide more timely dissemination The Army will have the opportunity by engaging in the design and specifications now to refine these systems to support Army needs Perhaps the most 40 critical area is the TPED tasking processing exploitation and dissemination architecture that will be evolved to support these future systems as part of the integrated DODISR architecture of the future TPED for national and theater ISR systems will continue to provide very limited support to brigade and below This could be substantially improved in the 2010 timeframe if appropriate actions were taken by the Army Weather Terrain and Navigation Within weather and environmental monitoring the major planned system is the National Polar Orbiting Environmental Sensor System NPOESS The capability of NPOESS to support military operations is similar to that described for DMSP NRT cloud cover data will be available through direct downlink Cloud data from other systems such as GOES will complement the NPOESS data Nevertheless cloud bottoms and accurate wind and weather terrain interaction data will still not be available The digital-terrain elevation data situation will have improved largely through the shuttle mission scheduled for the Fall of 1998 flew in February 2000 which will produce global DTED Level 2 data Limited feature data will be collected however no funding for exploitation has been provided The Rapid Terrain Visualization ACTD will be complete and a residual capability will exist to collect the DTED via UAV within timeliness requirements given access to the collection area Discoverer II will have the capability to collect DTED at Levels 4-5 Some feature data may also be available Despite these described gains in collection capabilities processing of feature data remains time consuming and manpower intensive The cost associated with this effort suggests there will continue to be a substantial gap in providing these data to the field Note a suggested workaround is to drape imagery over the DTED data This enables the user to see the roads buildings forested areas etc and plan accordingly Change data may be available through imagery sources however distribution issues still remain The POS NAV situation will also be improved Some elements of the NAVWAR program will have been implemented but the degree to which this program is implemented remains to be seen Elements under consideration include increased power in the next-generation GPS satellites addition of pseudo-lites to recreate and higher power local positioning system and improved jamresistant receivers The potential use of low-cost inertial navigation systems could bridge some gaps in GPS availability The situation with regard to selective availability and radio POS NAV is not projected to change from previous discussions 41 ■ ASSESSMENT PLANNED SYSTEMS FOR FIELDING AGAINST 2010 NEEDS Current Capability Satisfactory Marginal Inadequate ' Y V Y r Echelons Army Vision 2010 Needs Division Corps Above Advance Architecture ■ ISR K l Hl l II ■91 Weather Terrain NPOESS 1 Brigade Below Y 1 H -r Y POS NAV Hc l Modernization NAVWAR 1 13 Y 1 Prioritizing Army Space Needs Assessment Systems Planned for Fielding against 2010 Needs This chart presents a summary of how well the new systems planned for fielding will meet the 2010 needs Communications STAR-T increases bandwidth capability to the division and above GBS adds significant information dissemination down to the battalion SCAMP adds protected forward operations communications capability SMART-T provides protected bandwidth capability to the division Thus division communications are assessed to be improved sufficiently to be considered satisfactory ISR Improvements in national systems provide increased capability for the corps and above but shortfalls at division and below are not overcome Planned systems provide little improvement for division and below Latency and revisit requirements will not be met by currently planned capabilities However improvements in the latency and revisit can be made through the TPED process which would substantially reduce the latency and tasking problems for lower echelons units These need to be championed by the Army over the next decade 42 Weather and Terrain DTED Level 4 data will be available from planned programs by 2010 The combined highresolution DTED and imagery data enhance operations at all echelons Also IMETS and NPOESS will provide additional weather data Timely wind and cloud bottom data still will not be available in theater to optimize operations Concerns also remain about the availability of feature data timely terrain feature change information and weather impact on trafficability POS NAV The GPS constellation will be virtually unchanged by systems now planned although there will be a few satellites with higher power NAVWAR analyses will identify potential mitigation techniques against the jamming of GPS This reduced vulnerability will provide some benefit at a distance from the threat and enhance reliability on GPS above the division level 43 44 Findings and Recommendations 45 FINDINGS THREATS TO FROM SPACE NON-SPACE SYSTEMS • A multiplicity of threats exist - no single focused adversary • Functioning of US systems can be threatened by - Laser ASAT missiles RF weapons - Ground systems vulnerable to military and terrorist attack - Sensors and data links susceptible to jamming • Russia and others developing RF weapons -available commercially • Commercial space systems will provide future enemies an overhead reconnaissance and communications capability • Vulnerability of air-breathing platforms is different than space systems - Platforms - closer easier to attack - Data Links - shorter harder to jam - ISR - less predictable harder to CC D easier to attack sensor - POS NAV - high power pseudolites far more difficult to jam Prioritizing Army Space Needs Space Threats In the foreseeable future the space threat to the Army and the United States defense posture can be characterized as follows • Unlike the Cold War era the space threat to the United States is becoming increasingly diffuse It will be scattered across an increasing number now more than a dozen of emerging second- and third-tier nations as well as terrorist interests world-wide • The threat includes hazards to both the space segment and the supporting ground segments of our space systems • Technologically the threat includes radio-frequency RF optical laser and kinetic attacks on space systems and physical or cyber attacks on ground segments and communications links • Russia and a number of other more advanced nations friendly or not are proliferating the means to attack space assets to any who will pay for the technology In addition to the diffusion and proliferation of classical military space threats there is an explosion of commercial space activities of all types communications and EO IR MS HS imaging of satellite systems and related services in a growing number of countries These systems constitute a threat to the Army in the sense that potential adversaries are likely to have access for the first time to highly capable and affordable communications and overhead 47 reconnaissance capabilities These capabilities will approach the capabilities possessed by the U S military intelligence community in imaging and perhaps radar capabilities Given the foregoing discussion it is clear that alternative platforms to satellites be employed to provide similar capabilities As indicated air-breathing platforms both manned and unmanned — provide a suitable alternative and have an intrinsically different set of vulnerabilities both the platform and the payload 48 RECOMMENDATIONS THREATS TO FROM SPACE NON-SPACE SYSTEMS • Extend existing reconnaissance satellite warning system to include commercial reconnaissance systems • Task the Survivability Lethality Assessment Division SLAD to track emerging threats and evaluate the vulnerability of US and Commercial C4ISR WETM and POS NAV systems • Based on these vulnerability assessments ensure that warfighters are aware of system weaknesses and TRADOC should develop tactics techniques and procedures TTP to mitigate their vulnerabilities and counter commercial systems exploitation CC D -Conceal Cover and Deception • Develop unmanned non-space systems to compliment space capabilities to provide robust capability with reduced overall vulnerability Prioritizing Army Space Needs Recommendations Threats to from Space and Non-Space Systems In the early days of Satellite reconnaissance a warning system was established which advised US commanders when they were to be imaged by Soviet systems As Commercial ISR satellites are launched a process should be established to advise the warfighter when he is within the field of view of any ISR bird Without this capability the clandestine Left Hook of Desert Storm will be a thing of the past As the US fields more complex networked systems of systems it becomes more important that The vulnerability of new systems be understood The users of these systems are aware of these vulnerabilities The Army Research Laboratory ARL has established an organization SLAD which is chartered to perform these assessments This organization should be used to fill this void Given that the system weaknesses are known TRADOC and the warfighters need to develop and practice TTP to mitigate the vulnerabilities Concealment cover and deception will become more critical when the threat can buy a world-class ISR system Manned and unmanned C4ISR platforms present the threat with a significantly different counter measure challenge to that of satellites To maximize the threat's problems and increase the likelihood of adequate blue coverage air-breathing collectors are an important part of the C4ISR mix 49 FINDINGS REQUIREMENTS PROCESS Army DoD lacks an overarching visionary architecture for communications and ISR Army must satisfy needs through the Joint process and the NSSA Space does not compete well for resources within the Army Army DoD lacks the integrated capability to assess and perform trades involving space commercial and nonspace solutions Prioritizing Army Space Needs Findings Requirements Process The organizations which support the warfighter's communications and ISR have developed architectures for their systems DISA has produced an architecture for the long-haul communications and the Space Architect is currently producing architectures in its FIA IOSA and FC A The Army DOD needs overarching operational and system architectures for all of the C4ISR system that addresses joint tactical needs These architectures must address the needs of the end user particularly at the lower echelons with the necessary mobility latency bandwidth weights volume etc To fully capitalize on the commercial technology explosion these networked systems can not be realized as an evolutionary upgrade of the current stove-piped systems Space systems are essential to all Services and all echelons in 2010 Development of these systems is a joint process in which the USAF Navy or NRO are usually given responsibility to acquire the systems The Army must influence the systems development process to ensure that its needs are met The primary available mechanisms are through the DOD Space Architect and the developer's requirement process The UHF TACSAT program is an example in which the Army successfully influenced the requirements to provide limited support for beyond-line-of-sight communications at echelons brigade and below Tanks and helicopters are essential to the fulfillment of Army commitments and they are assigned the highest priority in planning and budgeting Further space does not compete well within the Army primarily because its benefits are not well understood by the leadership As a result funding for space related programs frequently falls through the cracks 50 SMDC has been tasked to integrate the use of space to satisfy warfighter needs This mission includes assessing commercial space and non-space solutions and evaluating them against the requirements of the tactical warfighter A balance of solutions is needed to achieve the robustness and performance that future operations require particularly given the digitized geographically distributed forces of the future A major deficiency is the inability of the Army DOD to evaluate complex C4ISR capabilities in a tactical context Without such a tool the trade-off between and among military and commercial candidates will continue to be made on a less than rigorous basis 51 RECOMMENDATIONS REQUIREMENTS PROCESS • SMDC lead an ICT to develop integrated future operational and system architecture for communications and ISR with TRADOC DISC4 SARDA DCSINT Team Ft Monmouth • Build on SMDC CECOM STRICOM capabilities to establish ISR and comm modeling test bed to support continuing evaluation of Space Programs • Build on test bed results validated in AWEs and trained people to evaluate demonstrate and advocate Army solutions in the Joint Arena Prioritizing Army Space Needs Recommendations Requirements Process SMDC has been given the mission to focus space within the Army and has an MOU with TRADOC to fulfill the Army mission for space requirements Under these agreements SMDC should lead an ICT to develop integrated future operational and system architectures for communications and ISR Membership should include the TRADOC DISC4 ASAALT DCSINT and Team Ft Monmouth CECOM and PEOs on the ICT As the Army lead SMDC would coordinate these architectures with the Marine Corps Air Force and Navy These products will then provide a basis for Army input to the national space architectures Perhaps the best opportunity for the Army then will be to effectively influence the NSSA validated space architectures of the future to satisfy the integrated information and support needs of Army 2010 and the AAN This will require a strong single Army position across the broad spectrum of ISR WTEM and communications to provide the vision for the future With this developed the NSSA can be used as an effective single focus to put in place the architectures that will provide the Army with integrated support on the battlefield from space air and ground systems As the focus for space the Army should build on SMDC CECOM STRICOM capabilities to develop a comprehensive ISR and communications modeling and simulation testbed to support the continuing evaluation of Army NRO and DOD selected programs This testbed should be capable of supporting a variety of tradeoff analyses including platforms i e spacecraft manned airborne unmanned airborne ground-based ground terminal versus spacecraft capability communications bandwidth versus processing capability etc Finally testbed results need to be validated in AWEs This investment will open the possibility of strongly influencing national 52 space policy architectures and systems to benefit the Army with a very high return on investment The SMDC TRADOC MOU should be the vehicle for evaluating demonstrating and advocating space solutions for Army requirements The Army needs to build on the results gained and people trained to evaluate demonstrate and advocate solutions to future Army needs As a critical component of this advocacy SMDC must insure appropriate career paths education and meaningful assignments for Army space personnel 53 THE GBS STORY • In an effort to capitalize on commercial system design with expectations of small $700 terminals for military application the DoD directed program included - Adding GBS transponders on Navy UHF Follow-On UFO Satellites - Inclined synchronous UFO satellites require larger tracking ground terminal antenna with accompanying operational complexity - Payload design fixed prior to understanding of needs and CONOPS - Limited CONUS foot-print required dual band receivers to train and fight with same equipment - Formation of a Joint Program Office for acquisition - Lack of GBS CONUS coverage requires receivers to be dual-band • Army gave up its terminal role now part of JPO IPT's • Acquisition approach employed high level requirements rather than detailed specifications • Satellite and terminals designed and acquired prior to I DM development limits usefulness • Result Major Army Issues Prioritizing Army Space Needs The GBS Story The evolution of the Global Broadcast Service program provides an interesting case study of DOD's approach to space systems development The DOD GBS program began as a technology push to capture new commercial technology to rapidly provide significant wide-bandwidth capability via direct SATCOM broadcast It offered the promise of numerous channels of video and the transfer of large data files into the tactical equivalent of a VCR-sized $700 satellite receiver The rush to apply the technology resulted in a DOD decision to add wide band transponders to the already on contract UHF Follow On UFO satellites This decision and subsequent implementation long before Army requirements and CONOPS were mature resulted in first generation receivers far larger and more expensive than envisioned In addition the design created a need to provide a larger tracking antenna vice an 18 fixed dish Noticeably lacking were plans to implement an information dissemination management system without which the GBS system would have marginal utility The acquisition management was assigned to a joint program office with the Army to buy the ground terminals The Army later acquiesced to passing the acquisition of the ground terminals to the JPO under a single contract The JPO acquisition strategy provided the contractor with high-level requirements without sufficient detail to ensure that size weight and cost goals would be achieved The lesson learned from this program is not unique The DOD approach to space development historically has been to determine a space architecture fix the satellite design and then allow the user terminal to follow in a highly sub-optimized fashion This approach precludes the system 54 trade-offs between satellite and user terminals at the time it would have the largest payoffs The commercial industry does not repeat these errors They have adopted a paradigm which first completes the user requirements size weight cost and functionality and then has the satellite designed to complete the system 55 ISSUES WITH PHASE II GBS Ground terminals 6 configurations large and costly Cost Cases Weight Volume Lowest Highest 1 $90K $190K 9 5501b 49cuft 950 lb 55cuft 13 Satellite system design - Requires larger tracking ground terminal antennas - Requires additional path for reachback and request links - Access may not be continuously available to Army component down-link beam may be repositioned often within a day - Up-link antennas preclude geographically separated TIP'S and PIP's - Limits TIP capacity to less than full receiver capability Prioritizing Army Space Needs Issues with Phase II GBS This chart provides some details on the problems created by the GBS decisions A major concern of the Army is the size of the receiver system which consists of a tracking antenna workstation and separate com-sec box The family of terminals coming out of the contract at the time of the first design review had the characteristic shown above The addition to size weight and cost create the following operational issues that must be resolved in order for the Army to receive capability that complements its method of tactical operations • The satellite does not provide a path to get in-theater data to the uplink for broadcast nor does it integrate a path for the users to request specific information • Emerging operating plans have the satellite downlink antennas moving around throughout the course of a day This means the Army may not have the continuous coverage it needs • Similarly because the satellite antennas are narrow beam uplinking from geographically separate locations may not be possible GBS holds the promise of dramatic improvement in information delivery But as this example shows the benefits are diminished by the awkwardness of its implementation The GBS outcome indicates the need for the Army to take an active and controlling interest in all aspects of space systems design and implementation 56 NATIONAL SECURITY SPACE ARCHITECT FUNCTIONAL RELATIONSHIPS DRID-11 Senior Executive Board Membership TBD Existing Requirements Processes' Chairs VCJCS DDCI CM JROC IC Process Other Agencies f- Senior Steering Group Existing Acquisition Processes Chairs USD A T DDCI CM DAB IC Process Other Agencies NSSA Deputy NSSA CINCs Joint Staff Services IC Agencies T Recommendations Concepts and Validated Requirements Operational Architectures Resources Prioritizing Army Space Needs New National Security Space Functional Relationships This new organizational structure for national space system development called out under DRID11 has features that make it potentially more responsive to the needs of all the Services Key to the new organization is the designation of a new joint National Space System Architect NSSA for all systems The NSSA reports directly to the Senior Steering Group which is made up of the ASD C3I the Deputy Director Central Intelligence DCI the Vice-Chairman JCS VCJCS and others who are major stakeholders in the development of space systems The position of Deputy Under Secretary of Defense DUSD Space has been eliminated and Space responsibility within OSD has been assigned to ASD C3I A special advisory group has been formed to work directly with the NSSA and with the Senior Steering Group This advisory activity consists of the CINCs Joint Staff Military Department Representatives and Intelligence Community Agencies A key to the new organization is that ALL space requirements will go through the JROC process to be assigned to the NSSA for incorporation into a common architecture and be managed within DOD by the standard DAB process This new organization affords the potential to eliminate the duplication and conflicts resulting from two separate organizations responsible for complementary but not independent space systems It should also aid in the transition of emphasis of national assets from strategic support of the top leadership of the U S Government to tactical support of the warfighting forces 57 RECOMMENDED CHANGES TO NATIONAL SPACE ACQUISITION ORGANIZATION Senior Executive Board Membership TBD Existing Requirements Processes Chairs VCJCS DDCI CM JROC IC Process Other Agencies -- Senior Steering Group Existing Acquisition Processes Chairs USD A T DDCI CM DAB NSSA Deputy Ground Segment CINCs Joint Staff Services Recommendations IC Agencies Concepts and Validated Requirements j Operational Architectures Resources IC Process Other Agencies NSO for Acquisition Prioritizing Army Space Needs New National Security Space Organization with ASB Recommended Army Additions The ASB applauds the changes brought about by DRID-11 and has studies them to assess how the Army can exert a greater influence on future national space system developments to better serve Army users We have three recommendations which we believe can significantly improve the bottom-line result of delivering space capabilities and products to the Army that are affordable timely tactically applicable and reasonably survivable The first of these recommendations can be accomplished unilaterally the others require consensus agreement of OSD the other Services and other major space stakeholders First the ASB recommends the designation of the CDR SMDC as the Army representative to the Joint Steering Group with the responsibility of coordinating all pertinent space issues and positions with appropriate Army stakeholders Second the ASB recommends that the Army promotes the establishment of a second Deputy NSSA Ground Segment responsible for representing user needs to ensure their consideration in a balanced system approach to space architecture Third the ASB recommends that the Army promote establishing a new special joint procurement organization that could be designated the National Space Organization NSO This NSO would consolidate the space acquisition responsibilities of NRO and USAF and become the acquisition authority for all space systems DOD budgets for these activities should be removed from service TORs and put into a purple DOD budget line The significance of doing this is to create a process that whereby National Joint systems are responsive to total warfighter needs as opposed to how much money any individual service shareholder brings to the table As an example 58 such an organization will bring new emphasis to tasking processing exploitation and dissemination TPED of intelligence and afford the Army the proper forum to influence future architectures with regard to its TPED requirements 59 FINDINGS ORGANIZATION AND PERSONNEL • National Space systems do not incorporate an overall system approach to space ground segment design to insure overall cost-effectiveness including affordable ground terminals • Inactivity of Army Space Council has inhibited Space policy review and emphasis • Lack of leadership and the resultant limited space trained personnel have reduced Army's ability to influence the Joint Space Process • SMDC because of funding imbalance is skewed to missile defense Prioritizing Army Space Needs Findings Organization and Personnel The DOD implements the space segment with one organization primarily the NRO or the AF and the ground segment with the user organization e g NSA NIMA the Army As a consequence the space segment is optimized as a standalone system The minimal cost solution that meets the requirements results in the ground segment being larger heavier more sophisticated and more expensive than it needs to be From a total system perspective the complete system including ground terminals is not cost effective and the operational suitability utility is reduced In contrast the satellite communications industry started with the terminal specification e g the dish and receiver for direct broadcast TV and the handset for satellite cellular phone This has driven the satellite design and resulted in more user-friendly less-expensive solutions The bottom line is that DOD systems require an overall system approach to space ground segment design Space is acknowledged to be important to everything the Army does However there is a lack of leadership focus and attention This is validated by the inactivity of the Army Space Council As a result the number of space-knowledgeable personnel in the Army is relatively small at least an order of magnitude smaller than that of the Air Force Further the space education of Army warfighters and leadership is inadequate Few know understand and appreciate the value of and the Army's dependence on space systems As a consequence space represents a very large national investment that is inadequately influenced and leveraged by the Army SMDC is currently skewed to focus on missile defense with approximately 84 percent of the workforce assigned to missile defense and only 16 percent assigned to space-related functions 60 The Army invests little in space so few staff are assigned Space represents a very large investment of other agencies' money that the Army could leverage to benefit the Army and save Army investments e g in ground terminals Staff needs to be assigned on the basis of potential return of value to the Army 61 Recommendations Organization and Personnel Propose changes to DRID-11 - Create an NSO for acquisition of all DoD space systems - Establish a Deputy NSSA for earth segment with Army candidate Re-establish Army Space Council with CG SMDC as a principal Establish 0-7 DCG SMDC Space and assign responsibility for FA-40 Significantly increase Army representatives in key high payoff space programs and organizations - Candidate organizations include NRO NSO NSSA DARPA NIMA - Candidate programs include ACN DISCOVERER II FIA IOSA GBS Prioritizing Army Space Needs Recommendations Organization and Personnel Multiple organizations acquire space assets resulting in an overlap of efforts additional costs and difficulty in influencing solutions to meet the users' needs We recommend the establishment of a single DOD IC acquisition organization National Space Organization NSO for the acquisition of all space systems This would improve the acquisition of DOD space assets and would be more responsive to all service user needs Such an organization should be truly purple and move urgently to institute a systems approach satellite and user equipment defined simultaneously to space acquisition Service needs would no longer be addressed at the services funding level For many years the VCSA chaired a pace council which focused Army Space Policy We recommend that the Army Space Council be reestablished with CG SMDC as principal This will provide greater focus on space matters within the Army and support the SMDC commander in executing his space role We recommend that the Army propose a Deputy NSSA for user segments be established and that they nominate a candidate for the position This would raise the visibility of the ground segment in the architectures and assist in developing a total system acquisition approach Establishing an 0-7 DCG SMDC Space would be a start toward making space an equal to missile defense within SMDC providing a focal point for space at the command level As a GO the DCG could also represent the commander to interface with external organizations on space 62 issues The DCG SMDC Space could also be assigned responsibility for FA40 including establishing career paths to flag-level offices for critical national positions managing personnel assignments in FA40 and educating warfighters in the use of space The goal is to greatly increase the numbers of space-knowledgeable personnel in the Army through a stable program of career progression The DOD spends significant dollars in space and non-space systems With few Army staff assigned to these programs the situation will remain the same To influence others to spend their organizations' money in the Army's behalf requires significantly greater numbers representing the Army on staffs of these programs To increase Army involvement will require a reversal of its position of heavily supporting those programs involving large Army investments to one of support based on the total benefit to the Army 63 FINDINGS NATIONAL SYSTEMS • Communications - Adequate for Corps and above but insufficient at Brigade below because System mobility vulnerability and information throughput are not adequate - GBS required for wideband dissemination has major problems including program to develop Information Dissemination Management IDM at tactical levels • ISR - Definition of next generation space ISR programs are in final stages -Army strategies and participation are not well organized - SBIRS FIA IOSA FCA do not adequately reflect Army tactical requirements • Weather Environmental Monitoring - Lack of timely high precision accurate local weather data and forecasts • Terrain • Lack of rapid capability to acquire and process high resolution elevation and feature data to support the digitized forces in many contingency areas POS NAV - Virtually complete dependence on GPS - GPS issues such as jamming vulnerability reduced control frequency allocation issues etc jeopardize assured availability • Prioritizing Army Space Needs Findings National Systems Desert Storm clearly demonstrated that communications are adequate for corps and above but insufficient at brigade and below Solving these deficiencies will require direct Army participation in the definition and development of the next generation of space and terrestrial communications systems The Space Architect NSSA is developing an integrated architecture from a set of intelligence requirements documents which will define future national capabilities The Future Imagery Architecture FIA is a National Reconnaissance Office NRO program to provide balance in tasking processing exploitation and dissemination capabilities at the strategic operational and tactical levels for the next generation of imagery systems There is a lack of understanding within the national intelligence community concerning the need for specific direct support for the Army The results of this DIA process done in coordination with the services will allow the JROC to validate military requirements that best support the evolving military doctrine of the Army This provides the and opportunity for Army concurrence in the requirements The area of changing military doctrine is a critical issue for the future Enclaves of Army units interdispersed within hostile areas will raise substantial issues concerning the use of airborne and ground assets what national assets TPED issues will be and how this will be communicated to and from these enclave units While the capabilities of the future architecture units such as FIA 64 will add substantial potential value the true value will be realized if Army doctrine can be used to effectively influence future architectures and adjust to their final capabilities Of particular concern for the Army in both the FIA and IOSAII studies are data links to tactical commands This capability is needed to fulfill the Army requirements outlined in the Mission Need Statement dated July 2 1990 for assured receipt of imagery The Army is a strong proponent of the data link and has funded the ground architecture hardware and resources to support and demonstrate its viability Failure to have this capability suboptimizes the Army's investment and potentially constrains the Army's ability to exercise future warfighting concepts There will be a lack of capability to provide timely high-precision accurate weather data The technology to support this need from space is simply lacking The Army weather support although possibly the best in the world is based on traditional forecasting methods based on available data — local surface observations and satellite data Information dominance requires a detailed understanding of current elevation feature data and vegetation Recent contingencies in support of MOOTW have revealed a lack of digital and vegetation data in the planning and execution of deployments The digital Army of XXI requires digital terrain databases of high resolution to support division brigade and battalion operations The digital vehicle we build will need to be towed if we don't also have the digital terrain databases required to understand and exploit the battlefield of the future DCSINT DCSOPS provided the impetus for the shuttle radar topographic mission SRTM which will provided DTED Level 2 DCSINT is supporting NIMA in obtaining land cover maps Finally the high reliance on GPS for POS NAV and its fragility with respect to threat jamming are a key concern 65 RECOMMENDATIONS NATIONAL SYSTEMS Communications - Prioritize efforts to develop CONOPS and IDM for GBS Phase 2 and acquire affordable terminals - Develop framework to strongly influence GBS Phase 3 design - Gear-up to influence next generation MILSATCOM starting with Advanced UHF ISR - Join Discoverer II partnership to assure satisfying Army tactical needs in imaging and GMTI - Implement a full-court press to incorporate Army tactical requirements into FIA IOSA and FCA e g tasking direct down link timeliness accuracy processing exploitation and dissemination Weather Environmental Monitoring - Research capability for acquisition of more accurate wind data and cloud bottoms Terrain - Implement 1997 ASB Battlefield Visualization Study recommendations Prioritizing Army Space Needs Recommendations National Systems The Army needs to give priority attention to the development of a realistic and implementable CONOPS for GBS Phase 2 as well as active involvement in the development of an information dissemination management system for GBS phase 2 The Army must continue to give priority attention to translating user needs to space technical requirements to be in a position to influence planned MILSATCOM systems such as GBS Phase 3 and Advanced EHF Space ISR programs like the DARPA-Air Force moving target indicator MTI radar planned for Discoverer II could provide MTI continuous in a practical sense depth of coverage in conjunction with airborne systems including JSTARS ARL EP-3 and U-2 MTI programs Army partnerships in this demonstration program are strongly encouraged Concurrently implementing a full-court press in the cited NRO studies can have a significant impact on Army intelligence communications and operations This requires a coordinated ARSTAFF TRADOC SMDC and INSCOM effort With respect to weather there is a need to support research in technologies that could provide more accurate wind velocity data and determine ways to estimate the altitude of the cloud bottoms Specific solutions have been pursued such as Army artillery developing and fielding a radar wind profile As indicated this ASB Study Group fully supports the recommendations formulated by the ASB Summer Study of 1997 on battlefield visualization 66 RECOMMENDATIONS NATIONAL SYSTEMS 2 POS NAV - TRADOC evaluate GPS vulnerability by platform application to determine hardening requirements - Actively pursue recommendations coming out of the Joint NAVWAR Program including support for higher power GPS satellites as soon as possible - Importance of GPS to virtually all military operations obliges proactive Army role in setting DOD and National postitions Prioritizing Army Space Needs Recommendations National Systems 2 The NAVWAR program Analysis of Alternatives is ongoing As a part of this analysis the relative cost effectiveness of the alternative solutions will be calculated When an alternative is selected and funded then TRADOC needs to evaluate the vulnerability of GPS and of Army systems dependent on GPS This is not limited to platforms but applies also to munitions in which GPS is an integral guidance element 67 FINDINGS COMMERCIAL SPACE • Commercial space drives systems and technology development • Opportunity to benefit by competing commercial ventures • Communications - CSCI provides a valuable augmentation to WB MILSATCOM fixed users - Emerging commercial solutions for Mobile Satellite Service MSS have potential to solve tactical beyond LOS communications but how to acquire remains an issue • ISR - Commercial products have potential to support Army tactical units • Weather Environmental Monitoring - Can complement DoD Civil sources • Terrain - Wide array of commercial foreign imaging satellites - Raises concern of information leveling Prioritizing Army Space Needs Findings Commercial Space The commercial space industry is exploding with many new systems and applications in development The years of DOD being the principal source of funding for space development has ended Commercial investment in space may exceed $0 5 trillion by 2010 This burgeoning of services and applications is true not only in communications but is also happening in remote sensing and other areas Commercial vendors have a vested interest in reducing their costs They will be relatively conservative in adding a new technology unless a return on investment can be identified However the commercial application of technology and manufacturing methods will in general be on time schedules much shorter than those typical of government-owned systems Although the private sector will avoid risky new technology it will implement proven technology with generation changes that can be designed and incorporated in new satellites in less than 5 years This compares favorably to government systems that may not be flow until 10 to 20 years after their design was frozen Commercial ventures constantly look for profit opportunities Many of them are willing to enter joint ventures with the government or sell their services to the government The government funding of an Iridium ground station and the USAF partnership with industry to fly a hyperspectral imaging payload are examples of cooperative activities US Space Command's Long Range Plan calls for the development of global partnerships to take advantage of these types of opportunities 68 Communications is the area with the most opportunities to exploit commercial investments The Commercial Satellite Communication Initiative CSCI already provides a mechanism to augment wideband military satellite communication for fixed users Commercial leasing or buying of onorbit capabilities will continue to be of interest and in the current environment of reduced DOD budgets may be the politically acceptable solution to add capacity Emerging capabilities in mobile subscriber systems offer the opportunity for worldwide cellular phone capabilities Pointto-point communications of this type will pose both advantages and risks to military operations One obvious risk is the ready availability of this communications capability by threat forces in a relatively protected mode The nature of multi-national satellite communications would preclude destructive targeting of these systems for a number of reasons In remote sensing both commercial and foreign systems are being developed or are currently being flown with the intent to sell imagery and other products on the open market Commercial imagery at 1 meter will soon be widely available Russian imagery in the 2 meter or less resolution range is available now Although not provided in time for targeting of mobile systems such imagery is certainly relevant for fixed targets as well as for a variety of planning functions The weather terrain and environmental monitoring space systems remain a government function However many commercial satellites produce data that have environmental applications and can serve to augment civil and or foreign sources The remote sensing satellites in the commercial arena tend to be focused on terrain exploration and or vegetation assessment Both functions are militarily useful Visible and infrared imagery multispectral imagery and in the near future hyperspectral imagery will provide significant capabilities Many of these capabilities will be available to our adversaries A relatively technically impoverished enemy which utilizes the available access to sophisticated space capabilities in the commercial arena will benefit from the leveling effect on the playing field for future conflict 69 RECOMMENDATIONS COMMERCIAL SPACE • Exploit commercial systems and technology through competitive strategy • Explore policy issue of control of commercial imaging satellites during periods of crisis • Communications - Establish a funded program at CECOM to develop and execute an optimum strategy to procure commercial communications for Army requirements e g MSS - This includes the effort required to develop sound Army positions to influence decisions in the Joint arena - Acquire universal handset terminals for access to multiple systems • ISR - Develop an understanding of commercial imagery to support Army tactical users - augment National systems capability • Weather - Develop capability to tap commercial sources integrate into forecasts • Terrain - Employ commercial geo-spatial workstation software to supplement NIMA Prioritizing Army Space Needs Recommendations Commercial Space The Army should continue and expand its efforts to exploit commercial systems and spacerelated technologies It is imperative however that DOD apply conservative strategies to take maximum advantage of commercial capability The Army DOD should be able to leverage the substantial commercial investments with relatively little requirement for funding from Army DOD research and development However it is imperative that the Army establish a funded program designed to understand all aspects of the commercial space industry to learn how to best translate military requirements into commercial capabilities and to develop an optimal procurement model which points to the most efficient way to acquire needed capability The issue of commercial imaging satellites providing valuable information to an adversary during periods of crisis is one that deserves serious attention A first step may be to raise these concerns to OSD in order to prompt an exploration developing a national policy to deal with this problem Within the area of communications the Army should give priority to the category of systems designated as mobile subscriber systems These systems could provide an immediate solution to the critical beyond line of sight battlefield communications needs of Army warfighters The funded program mentioned above could search for innovative business practices that could be applied to developing partnerships with leading vendors As part of this effort the Army should determine if market forces are likely to produce multimode multisystem universal handsets terminals If not the Army should apply research and development funds in this area 70 The Army should develop a thorough understanding of the availability and use of commercial imagery to support tactical users This understanding must be comprehensive and include not just intelligence and engineering functions but also logistics and other support functions The Army should determine how commercial imagery systems could supplement standard weather satellite systems to improve the methods by which forecasts for tactical forces are produced The Integrated Meteorological System should include access to commercial products as well as existing government systems The Army should address tactical needs by ensuring that commercial geospatial workstation technology is rapidly moved to the field to supplement traditional NIMA products with tailored products that combine terrain data from commercial and other sources 71 FINDINGS NON-SPACE SOLUTIONS Space systems have limitations - non-space promises high payoff augmentation for focused localized continous rapid revisit for ISR and some communications needs of tactical users Current manned airborne systems effective but limited Loitering high altitude pseudo-sats could complement space systems Army should leverage DARPA Airborne Communications Node ACN Program Foreign weather sites and nowcasting could support tactical units Prioritizing Army Space Needs Findings Non-Space Solutions Space-based systems have limitations Low earth orbit LEO satellites provide excellent image resolution and short delays for communications LEO satellites however do not stay overhead for very long and may not provide coverage in remote areas Furthermore unless constellation density is high there will be revisit delays Geosynchronous GEO satellites maintain a fixed position overhead but their distance from earth introduces a significant communication delay -0 25 second and limited image resolution Each satellite's payload and power budget may limit access to imaging and communications channels High concentrations of troops and platforms in remote areas may overtax limited satellite coverage for both communications and imaging Airborne systems can be used to augment space-based capabilities Loitering high-altitude platforms could be based and supported outside the theater and used to augment space-based communications and ISR capabilities These high-altitude long-endurance HALE platforms have operational limitations and vulnerabilities Communications relay platforms would be strong emitters and must therefore stay well back of forward areas to reduce exposure Imaging platforms must still fly near or over hostile territory at greater risk DARPA's Airborne Communications Node ACN is an experiment in augmenting space-based communications capabilities from a HALE platform This ambitious program is investing heavily in very advanced technology to demonstrate the capability to relay many channels of radio communications in a modest package This technology has high potential for other 72 applications including other HALE platforms tactical UAVs manned platforms or lighter than air craft Other non-space systems such as ground-based weather stations in foreign countries can be used to augment information collected by satellites Some information such as very localized weather winds at low altitudes and cloud bases must still be collected by non-space means Very current very localized weather forecasting known as nowcasting depends on local weather measurements and is highly desirable but not yet available 73 RECOMMENDATIONS NON-SPACE SOLUTIONS Army assume lead for a Joint HALE unmanned system to provide ISR communications GPS pseudolite capability rapid terrain and weather data Expand role to full partner with DARPA on ACN and assign Army Deputy PM Pursue development of unattended ground met NBC stations for Now-casting Prioritizing Army Space Needs Recommendations The Requirements stated earlier for near-continuous real-time coverage of the tactical battlefield argues for loitering unmanned C4ISR platforms Likewise augmentation of GPS communications and weather collection capabilities are logical applications for this class of Platform Based on the needs of each of the services a case can be made for a joint tactical C4ISR platform s to support tactical warfighters To enable this idea we recommend that the Army take the lead in defining and developing a joint HALE C4ISR system Certain rice bowls must be broken to avoid USAF dominance of the program but the focus must be on the utilities of the capability to tactical warfighters rather than who flies the platform To fully capitalize on the DARPA investment in the ACN the panel proposes expanded participation in the program The DARPA PM should be augmented by assignment of an Army Acquisition Corps Deputy PM This DPM would provide interpretation of Army requirements day-to-day Army input and coupling with the Army Tech base of CECOM to facilitate transfer of ACN technology to other applications Specifically ACN subsystems could provide communications payload packages to the Army TUAV programs In the interval since Vietnam much progress has been made in unattended ground sensor technology Capitalizing on these advantages one can envision remote sensors capable of • Broadcasting instant local weather winds cloud cover cloud decks visibility and other meteorological data 74 • Broadcasting NBC warnings to local users The detection of some Chemical and most Biological agents remains a challenge that must be addressed 75 76 Action Opportunities 77 78 TIME-URGENT PROGRAM OPPORTUNITIES RECOMMENDATIONS System POM$ Capabilities Agency Billions Activity GBSIII JPO WB data to tactical users 1 4 BADD IDM DARPA DIS s Adequacy of Army Involvement Resources Needs Statemen X Info manager for GBS 0 3 Discoverer 1 DARPA Near-continuous coverage 0 1 Demo MSS Commercial Cell phone anywhere anytime 100 X ACN DARPA Battlefield command relay 0 1 X SBIRS H AFSPC Early Warning NRT meteorology potential 2 SBIRS L AFSPC MD ground targets 2 FIA NRO Imagery to Army shooters 2 X IOSA NRO SIGINT to Army shooters 2 X FCA NRO Timely data to Army shooters 2 Army objectives should be to • Focus Program Direction • Leverage investments • Refine requirements • Harvest Technology On the order of $100 billion Near-term cost to Army A few smart people Prioritizing Army Space Needs Time-Urgent Program Opportunity Recommendations Beyond the personnel organization recommendations made we found that there are on the order of a dozen major programs which have great potential benefit to the Army The list includes GBS Global Broadcast System and MSS Mobile Satellite Service future communications systems that build on the current commercial revolution in space The Battlefield Awareness and Data Distribution Information Dissemination Manager systems BADD IDM are information management programs that will be necessary to effectively manage the flow of information through wideband links like GBS The DARPA Airborne Communications Node ACN relay program will develop radio relay technology with direct application to the tactical battlefield Discoverer II a DARPA demonstration project and SBIRS High and Low represent opportunities to leverage next-generation space systems Future architectures will define the next generation of national collectors Collectively the programs represent an investment on the order of $100 billion The investment of one or two Army individuals in each program study can help to focus the results to meet Army needs By being involved in the shaping of the programs the Army should be able to leverage the results for a fraction of the total program cost Exposure to these programs and their analyses and or demonstration will help the Army refine its own requirements and in many cases may lead to the development of joint requirements If the demonstration programs fail to transition to the field there is still a major opportunity to harvest technology developed with non-Army dollars We believe the investment of 12 to 20 individuals in the near-term can reap major returns in the future 79 TIME-URGENT ORGANIZATION PROCESS RECOMMENDATIONS • Investigate the feasibility of a NSO for DOD Space Systems acquisition • Designate the CG SMDC as the spokesman for the Army space community with appropriate organizations e g NSSA • increase staffing to ensure adequate representation of Army's interest - Appoint 0-7 DCG SMDC Space with priority to strengthen FA-40 - Propose and nominate deputy NSSA for user terminal environment - Army personnel in key positions of Joint space programs and organizations • SMDC coordinate technical and programmatic basis for consensus Army position on major joint space issues - NRO Architectures SBIRS MILSATCOM GBS • Task SMDC to insure robust trade-off between space and non-space solutions Prioritizing Army Space Needs Time-Urgent Organization Process Recommendations The recommendations presented here are time-urgent actions that the Army should address immediately The creation of the National Security Space Architect has brought focus to the DOD and national space community development As this new organization settles into its responsibilities the Army has an opportunity to join the effort by ensuring that it speaks with one voice on space issues The first step to ensure that the Army presents a unified position on all space issues is to designate the CG SMDC as The Army Spokesman to NSSA and other space-focused organizations To ensure that the Army's needs are addressed the Army should place manpower in critical locations in the DOD and national space communities and ensure that it has a visible effective commitment to space activities The panel recommends that a DCG Space general officer position be created within SMDC At present the only DCG position is devoted primarily to missile defense issues and the amount of space activities requiring flag officer involvement is too great to be handled by this position or that of the CG SMDC The principal risk to the Army in the creation of the NSSA is the continuance of an attitude of designing space systems from the satellites to the ground rather than looking at the ground requirements and working up to the satellites The panel recommends that the Army strongly advocate the creation of an additional deputy NSSA for the user terminal environment and offer a General Officer SES to fill the position The FA40 category will need a senior officer to oversee it and ensure that it becomes and stays healthy The panel recommends that the new SMDC DCG 80 Space perform this function FA40 personnel need to know that space is a viable and welldefined career path from company grades to general officers The need to put more space-qualified Army personnel in the space development agencies e g NIMA NRO US Space Command DARPA is highlighted by the fact that NRO assignments are 54 percent USAF 24 percent CIA 8 percent Navy 12 percent NRO internal infrastructure and less than 1 percent Army A major revolution is taking place in space systems and capabilities Many old systems will be replaced MILSATCOM and DSP and new capabilities such as Discoverer II hyperspectral imaging and commercial systems will be added in the next 10 to 20 years The potential of these systems to address Army needs will materialize only if there is thorough technical analysis to formulate requirements and articulate personnel directly involved in the development of these systems To operate effectively in the joint space community the Army must have an analytical basis undergirding its positions Note the Army is taxed to support these programs but does not fund them directly SMDC should be prepared to execute the lead role in coordinating all Army efforts related to space systems The analyses and tradeoffs between space and non-space solutions must also be addressed Again the panel recommends that this effort be led by SMDC the Army's focal point for space ASSESSMENT INCLUDING ALL RECOMMENDATIONS Satisfactory Current Capabilities Marginal Inadequate MM1 ■ Y « Y Y Army Vision 2010 Needs y Echelons Corps Above Division r - ß 1 Brigade Below Communications ISR Weather Terrain ■r POS NAV - ■ V Prioritizing Army Space Needs Assessment Including All Recommendations The ASB Study Panel believes that the capabilities to provide information dominance will be significantly enhanced if all the recommendations are implemented The investment in spaceborne capabilities at the national level and by the commercial sector by 2010 will be very large total dollars comparison to Army investment in modernization etc - The challenge for the Army is to wisely and effectively leverage this investment to meet its needs with a minimal investment of its own Our recommendations will provide a basis for the Army to achieve the upgraded assessments reflected in this chart Communications The Army could have a much smarter communications user community in regard to space systems and their alternatives Commercial communications could be better exploited to meet Army requirements MSS could provide very mobile beyond-line-of-sight capability Military plus commercial SATCOM with UAV augmentation could provide robust mobile versatility and sufficiently wide bandwidth to satisfactorily support all Army communications needs in 2010 ISR Influencing the national ISR systems capabilities has the potential for high payoff As previously discussed new systems will augment current ISR capabilties significantly Discoverer IIA deployed in a 24-satellite constellation and combined with an Army HALE ISR capability employing effective tasking from all echelons and dissemination capability could provide the responsive capability to meet the revisit coverage and latency requirements of the lower 82 echelons Under these assumptions ISR capabilities would be satisfactory to support all echelons in 2010 The division ISR capabilities are assessed to change from marginal to satisfactory Similarly the brigade and below capability is assessed to change from inadequate to satisfactory Weather and Terrain Weather data collection and forecasting will be enhanced but still not judged adequate to optimize operations High resolution terrain elevation data will be available thus brigade and below operations will be significantly enhanced This is the basis for assessing the weather and terrain monitoring capability at brigade and below to be upgraded to marginal from inadequate Nevertheless concerns remain about the availability of feature data timely terrain feature change information and weather trafficability inaction POS NAV GPS jamming vulnerabilities will not be entirely solved by 2010 Thus the POS NAV assessment remains marginal for division and below NAVWAR analyses will likely identify some means operational procedures and receiver enhancements for mitigating vulnerability to standoff high-power jamming Assuming that the Army implements these recommendations the POS NAV situation would be significantly improved Summary The study panel recognizes the personnel stress and financial burden that will face top Army decision makers as they consider which are the most important opportunities Determining how best to pursue them in the environment of personnel cuts and budget downsizing will not be easy However pursuing a course that fails to exploit these opportunities will in our opinion seriously limit the Army's goal of achieving and maintaining information dominance We urge the Army to take the high road and continue to improve its posture regarding exploitation of space and to ready its forces for possible future missions 83 SUMMARY Joint environment Economy of force Time right to press harder to meet needs Bite the bullet to get people into space Leverage key on-going programs Prioritize programs that need fixing NOW Establish competitive strategy to effectively capitalize on commercial capability Prioritizing Army Space Needs Summary Early in the study it became clear that most space activities are Joint and that the Army must operate in this Joint environment if it is to get what it wants from space The Army has exercised economy of force in space with relatively good success in the TENCAP program Projected budget limitations suggest the Army stay in this mode but aggressive participation in the Space Program offices can maximize the benefit of space to the warfighter As illustrated by this study space is vital to military operations The time is right to press the Joint environment NSSA to provide the Army better products To do that the Army must identify train and assign a relatively few people to key positions in both staff and leadership roles The ASB has identified a number of key programs that can pay huge dividends if the Army leverages them through more active participation There are ongoing programs GBS for example that deserve Army attention now Operational input can help to focus the program aimed at capitalizing on the commercial technology The multi-billion investment being made in Commercial Space Systems can be a windfall to financially strapped military users The tailoring of these commercial systems to military use and the selection of the Best of Breed represent a significant challenge to the Acquisition Corps A spectrum of approaches needs to be evaluated ranging from straight leasing to CRAF-like system 84 modifications to purchase of a percentage of system capacity and might include the purchase of a duplicate system which could be leased back to the industry in peace time 85 APPENDIX A TERMS OF REFERENCE A-l DEPARTMENT OF THE ARMY OFFICE OF THE ASSISTANT SECRETARY RESEARCH DEVELOPMENT AND ACQUISITION 103 ARMY PENTAGON WASHINGTON DC 20310-0103 23 DEC 1997 REPLY TO ATTENTION OF Dr Michael S Frankel Chair Army Science Board 103 Army Pentagon Washington DC 20310-0103 Dear Dr Frankel Request that the Army Science Board ASB initiate a study Prioritizing Army Space Needs This study as a minimum must address the Terms of Reference TOR described below The ASB members appointed will consider the TOR as guidelines and may include in their discussion related issues deemed important by the sponsor Modification to the TOR must be coordinated with the ASB office Background a In order for Army information system materiel developers to make maximum use of current and future space assets specifically focused on national security needs the Army will need to have in-depth understanding of the attributes and limitations of both existing and future space assets regardless of which sector they are focused on supporting This Army understanding will be needed to exploit national security space assets by continuing and expanding its already successful Tactical Exploitation of National Capabilities TENCAP program The Army will need to establish new means to allow it to work cooperatively with the commercial space system developers with the goal of making commercial space systems as supportive as possible of Army needs with minimal or modest Army investments b Although many of the Army's needs for better surveillance intelligence navigation targeting communications and environmental sensing capabilities may be achieved by use of existing and future space systems alternative nonspace means should be considered from the point of view of technology tasking restraints and cost-effectiveness c Alternative nonspace ways to obtain the desired capabilities are associated with the use of organic assets e g Guard Rail tactical UAVs tethered balloon systems etc Other capabilities may be provided from shared or joint assets such as Rivet Joint JSTARS AWACS and the emerging high- altitude long-endurance UAV systems Dark Star and Global Hawk d This study is motivated by a recently revamped Army space organizational structure thus making this an appropriate time to reexamine each of the Army's space efforts as new capabilities are identified against the backdrop of continued budget constraints e The Army's initiative in digitizing the battlefield portends a number of new possibilities for the utilization of space assets Space assets are potentially the major enabler of information dominance is the 21st Century A clear understanding of the full potential of space platforms is therefore demanded f The Army has a long successful history of capitalizing on the national investment in space assets through such efforts as the TENCAP program However the traditional Army approach has been more to take advantage of what is available as opposed to influencing the requirements for space assets The Army must develop a stronger voice in asserting the warfighter's needs for space capabilities g The proliferation of a whole host of new and rapidly evolving commercial space systems provides an important new source for the satisfaction of important Army information system needs The Army must capitalize on the potential value of these systems h There are other new organic Army and joint system development activities evolving Tradeoffs between use of space and nonspace systems need to be carefully evaluated in order to maximize the effectiveness of the Army's limited resources Terms of Reference In order to provide the senior leadership of the Army with a new futureoriented Army Space System Alternatives Plan the Army Science Board is requested to undertake a study that focuses on the following tasks a Examine the ability of current and future national space systems to provide the surveillance intelligence navigation targeting communications and environmental sensing capabilities that Army XXI and Army After Next need b Determine those existing and planned capabilities of the civilian space program which may provide some of the capabilities that Army XXI and Army After Next need Also identify instances in commercially driven space development efforts where the Army might make modest investments or propose alternatives that could serve to satisfy critical Army needs c Examine nonspace means to achieve needed surveillance intelligence navigation targeting communications and environmental sensing capabilities for the Army In particular examine the use in theater of High Altitude Long Endurance UAV's to act as either augmentation to or reconstitution of space-based capabilities d Critically assess the technical managerial organizational cost and vulnerabilities of the capabilities provided by each class of systems described in the foregoing paragraphs e Identify and prioritize those efforts needed to ensure that recommended capabilities are appropriately leveraged in Army XXI and Army After Next Study Support Cosponsors of this study are LTG Edward G Anderson Commanding General U S Army Space and Missile Defense Command LTG Thomas N Bumette Deputy Chief of Staff for Operations and Plans LTG John N Abrams Deputy Commanding General TRADOC The Study Cognizant Deputies are Dr Darrell Collier Chief Scientist SMDC and Dr Herb Fallin Director Assessment and Evaluation Office of the Assistant Secretary of the Army Research Development and Acquisition The primary staff assistant is LTC Zappalla SMDC other staff assistants are LTC William Reiner ODCSOPS Mr Andy Scharein HQ TRADOC Schedule The study panel will initiate the study immediately and conclude its effort at the report writing session to be conducted 13-23 July 1998 at the Beckman Center on the campus of the University of California Irvine As a first step the study cochairs will submit a study plan to the sponsors and the Executive Secretary outlining the study approach and schedule Conclusion of this study group will result in a final report to the sponsors in December 1998 Special Provisions It is not anticipated that this inquiry will go into any particular matters within the meaning of Section 208 Title 18 of the United States Code Sincerely Kenneth J Oscar Acting Assistant Secretary of the Army Research Development and Acquisition APPENDIX PARTICIPANTS LIST B-l PARTICIPANTS LIST ARMY SCIENCE BOARD SUMMER STUDY ON PRIORITIZING ARMY SPACE NEEDS Co-Chairs Mr John Cittadino President JCC Technology Associates Inc Mr Ray L Leadabrand President Leadabrand and Associates Inc ASB Panel Members Dr Greg Canavan Senior Scientific Advisor Los Alamos National Laboratory Ms Susan G Lowenstam Attorney Dr Philip C Dickinson Consultant Mr Robert Phillips Director of Technology Planning GTE Systems Corporation Dr Robert Douglas Systems Analysis Director Lockheed-Martin Electronics Missiles Mr Erling Rasmussen Corporate Vice President Motorola Inc Dr Edward T Gerry Executive Vice President and CTO Schäfer Corporation Dr Jim Sarjeant James Clerk Maxwell Professor Department of Electrical Engineering State University of New York at Buffalo Dr Lynn Gref Flight Systems Program Manager Jet Propulsion Laboratory Mr Claron W Swonger President Executive Automation System Inc Dr Wade Kornegay Division Head Radar Measurements Division Dr Harry L Tredennick Consultant B-3 Non-ASB Panel Members Dr Randy Clinton AFSAB Dr Robert Naka AFSAB Mr Dan Held NRAC Mr John Reese NSA-SAB Mr Anthony Hyder DIA-SAB Dr Bruce Wald NSB CNA Staff Assistants Ms Laine Beckwith TRADOC LTC Steve Zappalla Space and Missile Defense Command LTC William Reiner DCSOPS Sponsors LTG Edward G Anderson III Commanding General Space and Missile Defense Command GEN JohnN Abrams Commanding General TRADOC LTG Thomas N Burnette Deputy Chief of Staff for Operations and Plans Cognizant Deputy Dr Darrell W Collier Cognizant Study Deputy Gov't Advisor Tomas A Pagan Space and Missile Defense Command Mr Jeff Ozimek CECOM Mr John Marrs USA Space Command B-4 APPENDIX ACRONYMS C-l ABN ACC ACN ACTD AFSAE AFSPC AJ AMCOM AOR ASAS ASAT ASB ASD C31 ASPO ATACMS AWE BADD IDM BDA BLOS BMDO BV CDR CECOM CGSMDC CGS CIA CINCSPACE CONOPS CONUS CSA CSCI DAB DARO DARPA Airborne Air Combat Command Airborne Communications Node Advanced Concept Technology Demonstration Air Force Service Acquisition Executive Air Force Space Command Anti-Jamming Aviation and Missile Command Area of Responsibility All Source Analysis System Anti-Satellite Army Science Board Assistant Secretary of Defense Command Control Communications and Intelligence Army Space Program Office Army Tactical Missile System Advanced Warfighting Experiments Battlefield Awareness and Data Distribution Information Dissemination Manager Battle Damage Assessment Beyond Line Of Sight Ballistic Missile Defense Organization Battlefield Visualization Commander Communications-Electronics Command Commanding General Space and Missile Defense Command Common Ground Station Central Intelligence Agency Commander-In-Chief Space Concept of Operations Continental United States Chief of Staff Commercial Satellite Communication Initiative Defense Acquisition Board Defense Airborne Reconnaissance Office Defense Advanced Research Projects Agency C-3 DCG SMDC DCI DCSINT DCSOPS DIA DISA DISC4 Deputy Commanding General Space and Missile Defense Command Director of Central Intelligence Deputy Chief of Staff for Intelligence Deputy Chief of Staff for Operations Defense Intelligence Agency Defense Information Systems Agency Director of Information Systems for Command Control Communications and Computers DNRO Director of the National Reconnaissance Office DRID-11 Defense Reform Initiative Directive 11 DTED Digital Terrain Elevation Data DUSD FA40 FBCB2 FCA FIA GBS GOES Deputy Under Secretary of Defense Functional Area 40 Space Operations Officer Force XXI Battle Command Brigade and Below System GPS HALE HSI MSI ICT IDM IPT ISR JCS JPO JPO JROC JSTARS JTF LOS MCCDC MILSATCOM MILSTAR Future Communications Architecture Future Imaging Architecture Global Broadcasting System Geostationary Operational Environmental Satellite Global Positioning System High Altitude Long Endurance Hyperspectral Imagery Multispectral Imagery Integrated Concept Team Improved Data Modem Integrated Process Team Intelligence Surveillance and Reconnaissance Joint Chiefs of Staff Joint Program Office Joint Program Office Joint Requirements Oversight Council Joint Surveillance and Target Attack Radar System Joint Task Force Line of Sight Marine Corps Combat Development Command Military Satellite Communications Military Strategic Tactical and Relay Satellite Communications C-4 MOA Memorandum of Agreement MSS MTI SAR NAIC NAVWAR NBC NIE NIMA NPOESS Mobile Satellite Service Moving Target Indicator Synthetic Aperture Radar NATO Intelligence Center Navigation Warfare Nuclear Chemical Biological National Intelligence Estimate National Imaging and Mapping Agency National Polar-orbiting Operational Environmental Satellite System NRAC Naval Research Advisory Board NRO NRT NSA NSO NSSA OA ORD OSD PIP PM POS NAV RF ROW SA SAM SAR MTI SARDA SATCOM SBIRS SBIRS H SBIRS L SCAMP SIGINT SINCGARS EPL RS SMART-T National Reconnaissance Office Near Real Time National Security Agency National Security Office National Security Space Architect Operational Architecture Operational Requirements Document Office of the Secretary of Defense Product Improvement Program Program Manager Positioning Navigational Radio Frequency Rest of the World Secretary of the Army Surface to Air Missile Synthetic Aperture Radar Secretary of the Army for Research Development and Acquisition Satellite Communications Space Based Infrared System Space Based Infrared System - High Space Based Infrared System - Low Single Channel Anti-Jam Manportable terminal MILSTAR Signal Intelligence Single Channel Ground Airborne Radio System Extended Position Locating and Reporting System Secure Mobile Anti-Jam Reliable Tactical Terminal MILSTAR C-5 SMDC SPAWAR SRTM TENCAP TRADOC TRI-TAC MSE UHF TACSAT USAF AIA USD A T Space and Missile Defense Command Space and Naval Warfare Systems Command Shuttle Radar Topography Mission Tactical Exploitation of National Capabilities Training and Doctrine Command Tri-Service Tactical Communications Mobile Subscriber Equipment Ultra High Frequency Tactical Satellite Air Intelligence Agency of the USAF Under Secretary of Defense for Acquisition and Technology WIN-T Wide Band Warfigther Information Network - Telecommunications WTEM Weather Terrain and Environment Monitoring WB C-6 APPENDIX DISTRIBUTION D-l Addressee _Cogies ARMY Secretary of the Army Pentagon Room 3E700 Washington DC 20310-0101 Under Secretary of the Army Pentagon Room 3E732 Washington DC 20310-0102 Deputy Under Secretary of the Army Operations Research Pentagon Room 2E660 Washington DC 20310-0102 Administrative Assistant to the Secretary of the Army Pentagon Room 3E733 Washington DC 20310-0105 General Counsel OSA Pentagon Room 2E722 Washington DC 20310-0104 Assistant Secretary of the Army Civil Works Pentagon Room 2E570 Washington DC 20310-0108 Assistant Secretary of the Army Financial Management and Comptroller Pentagon Room 3E606 Washington DC 20310-0109 Assistant Secretary of the Army Installations and Environment Pentagon Room 2E614 Washington DC 20310-0110 Assistant Secretary of the Army Manpower and Reserve Affairs Pentagon Room 2E594 Washington DC 20310-0111 Assistant Secretary of the Army Acquisition Logistics and Technology Pentagon Room 2E672 Washington DC 20310-0103 Military Deputy to the ASA ALT Pentagon Room 2E672 Washington DC 20310-0103 Deputy Assistant Secretary for Plans Programs and Policy OASA ALT Pentagon Room 3E432 Washington DC 20310-0103 Deputy Assistant Secretary for Procurement OASA ALT Pentagon Room 2E661 Washington DC 20310-0103 Deputy Assistant Secretary for Research and Technology OASA ALT Pentagon Room 3E374 Washington DC 20310-0103 Deputy for Systems Management and International Cooperation OASA ALT Pentagon Room 3E448 Washington DC 20310-0103 Deputy for Ammunition OASA ALT Headquarters Army Materiel Command 5001 Eisenhower Ave Alexandria VA 22333-0001 Deputy for Combat Service Support OASA ALT Headquarters Army Materiel Command 5001 Eisenhower Ave Alexandria VA 22333-0001 Director Assessment and Evaluation OASA ALT Pentagon Room 2E673 Washington DC 20310-0103 Director Army Digitization Office DACS-ADO Pentagon Room 2B679 Washington DC 20310-0200 Director of Information Systems for Command Control Communications and Computers Pentagon Washington DC 20310-0107 Inspector General Pentagon Room 1E736 Washington DC 20310-1700 Chief of Legislative Liaison Pentagon Room 2C631 Washington DC 20310-1600 Chief of Public Affairs Pentagon Room 2E636 Washington DC 20310-1500 Chief of Staff Army Pentagon Room 3E668 Washington DC 20310-0200 Vice Chief of Staff Army Pentagon Room 3E666 Washington DC 20310-0200 Assistant Vice Chief of Staff Army Pentagon Room 3D652 Washington DC 20310-0200 Director of the Army Staff Pentagon Room 3E665 Washington DC 20310-0200 Director Program Analysis and Evaluation Directorate Pentagon Room 3C718 Washington DC 20310-0200 Assistant Chief of Staff for Installation Management and Environment Pentagon Room 1E668 Washington DC 20310-0600 Deputy Chief of Staff for Personnel Pentagon Room 2E736 Washington DC 20310-0300 Deputy Chief of Staff for Operations and Plans Pentagon Room 3E634 Washington DC 20310-0400 Assistant Deputy Chief of Staff for Operations and Plans Force Development Pentagon Room 3A522 Washington DC 20310-0400 Deputy Chief of Staff for Logistics Pentagon Room 3E560 Washington DC 20310-0500 Deputy Chief of Staff for Intelligence Pentagon Room 2E464 Washington DC 20310-1000 The Surgeon General HQDA Skyline Place Building No 5 Falls Church VA 22041-3258 Chief National Guard Bureau Pentagon Room 2E394 Washington DC 20310-2500 Chief Army Reserve Pentagon Room 3E390 Washington DC 20310-2400 Chief U S Army Center of Military History 103 Third Avenue Ft McNair DC 20319-5058 Chief of Engineers HQDA Pulaski Building 20 Massachusetts Ave NW Washington DC 20314-1000 Commander U S Army Corps of Engineers HQDA Pulaski Building 20 Massachusetts Ave NW Washington D-3 Addressee Copies DC 20314-1000 Commander U S Army Concepts Analysis Agency 6001 Goethals Rd Ft Belvoir VA 22060-5230 Commander U S Army Evaluation Center Park Center IV 4501 Ford Ave Alexandria VA 22302-1458 Commander US Army Test and Evaluation Command USATEC 4501 Ford Ave Alexandria VA 22302-1458 Commanding General U S Army Space and Missile Defense Command P O Box 15280 Arlington VA 22215-0280 Dr Collier U S Army Space and Missile Defense Command P O Box 15280 Arlington VA 22215-0280 Mr Pagan U S Army Space and Missile Defense Command P O Box 15280 Arlington VA 22215-0280 Deputy Commander for Space U S Army Space Command 1670 N Newport Rd Colorado Springs CO 80916-2749 U S Army Space Command Forward ATTN MOSC-ZC 1670 N Newport Rd Suite 211 Colorado Springs CO 80916 Commander National Ground Intelligence Center 220 7th St NE Charlottesville VA 22901 Director U S Army Research Institute for the Behavioral Sciences 5001 Eisenhower Ave Alexandria VA 22333-5600 Commander U S Total Army Personnel Command Hoffman Building II 200 Stovall St Alexandria VA 22332-0405 Commander-in-Chief U S Army Europe and Seventh Army APO AE 09014 Commanding General Eighth U S Army APO AP 96205 Commanding General U S Army South HQ US Army South P O Box 34000 Ft Buchanan Puerto Rico 00934-3400 Commanding General U S Army Pacific Ft Shatter HI 96858-5100 Commanding General U S Army Forces Command Ft McPherson GA 30330-6000 Commanding General Third United States Army Army Central Command Deputy Commanding General U S Army Forces Command ATTN AFDC Ft McPherson GA 30330 U S Army Space Command Forward ATTN MOSC-ZC 1670 N Newport Rd Suite 211 Colorado Springs CO 80916 Commanding General U S Army Signal Command Ft Huachuca AZ 85613-5000 Commanding General U S Army Special Operations Command Ft Bragg NC 28307-5200 Commanding General U S Army Intelligence and Security Command Ft Belvoir VA 22060-5370 Commanding General U S Army Medical Command Ft Sam Houston TX 78234 Commander U S Army Medical Research and Materiel Command Ft Detrick MD 21702-5012 Commanding General U S Army Materiel Command ATTN AMCCG 5001 Eisenhower Ave Alexandria VA 22333-0001 Commanding General U S Army Materiel Command ATTN AMCRDA-TT 5001 Eisenhower Ave Alexandria VA 22333-0001 Commander U S Army Chemical and Biological Defense Command ATTN AMSCB-CG Aberdeen Proving Ground MD 21005-5423 Commander U S Army Communications-Electronics Command ATTN AMSEL-CG Ft Monmouth NJ 07703-5000 Director Army Systems Engineering Office ATTN AMSEL-RD-ASE Ft Monmouth NJ 07703 Commander U S Army Industrial Operations Command ATTN IOC-AMSIO-CG Rock Island IL 61299-6000 Commander U S Army Aviation and Missile Command ATTN AMSMI-CG Redstone Arsenal AL 35898 Commander U S Army Security Assistance Command ATTN AMSAC Alexandria VA 22333-0001 Commander U S Army Simulation Training and Instrumentation Command ATTN AMSTI-CG 12350 Research Parkway Orlando FL 32836-3276 Commander U S Army Soldier Systems Command ATTN AMSSC-CG Natick MA 01760-5000 Commander U S Army Tank-Automotive and Armaments Command ATTN AMSTA-CG Warren Ml 48397-5000 Commander U S Army Test and Evaluation Command ATTN AMSTE-CG Aberdeen Proving Ground MD 21005-5055 D-4 Addressee Copies Commander U S Army Tank-Automotive and Armaments Command ATTN AMSTA-CG Warren Ml 48397-5000 Commander U S Army Test and Evaluation Command ATTN AMSTE-CG Aberdeen Proving Ground MD 21005-5055 Commander U S Army Armament Research Development and Engineering Center ATTN SMCAR-TD Picatinny Arsenal NJ 07806-5000 Commander U S Army Aviation Research Development and Engineering Center ATTN AMSAT-R-Z 4300 Goodfellow Blvd St Louis MO 63120-1798 Commander U S Army Communications-Electronics Research Development and Engineering Center ATTN AMSEL-RD Ft Monmouth NJ 07703 Commander U S Army Edgewood Research Development and Engineering Center ATTN SGBRD-TD Aberdeen Proving Ground MD 21010-5423 Commander U S Army Missile Research Development and Engineering Center ATTN AMSMI-RD Redstone Arsenal AL 35898 Commander U S Army Natick Research Development and Engineering Center ATTN SATNC-T Natick MA 01760 Commander U S Army Tank-Automotive Research Development and Engineering Center ATTN AMSTA-CF Warren Ml 48397 Director U S Army Field Assistance in Science and Technology Activity 5985 Wilson Rd Suite 100 Ft Belvoir VA 22060-5829 Director U S Army Logistics Support Activity ATTN AMXLS Bldg 5307 Redstone Arsenal AL 35898-7466 Director U S Army Materiel Systems Analysis Activity ATTN AMXSY-D Aberdeen Proving Ground MD 21005-5071 Director U S Army Test Measurement and Diagnostic Equipment Activity ATTN AMXTM Redstone Arsenal AL 35898-5400 Commander USAWSMR Electronic Proving Ground ATTN Intelligence Office Ft Huachuca AZ 85613-7110 Director U S Army Research Laboratory ATTN AMSRL-D 2800 Powder Mill Rd Adelphi MD 20783-1145 Director U S Army Research Office ATTN AMXRO-D P O Box 12211 Research Triangle Park NC 27709-2211 Commanding General U S Army Training and Doctrine Command Ft Monroe VA 23651-5000 Deputy Commanding General U S Army Training and Doctrine Command Ft Monroe VA 23651-5000 Deputy Commanding General U S Army Training and Doctrine Command for Combined Arms Commander U S Army Combined Arms Center Commandant Command and General Staff College Ft Leavenworth KS 66027-5000 Deputy Commanding General U S Army Training and Doctrine Command for Combined Arms Support Commander U S Army Combined Arms Support Command and Ft Lee Ft Lee VA 23801-6000 Commander U S Army Aviation Center and Ft Rucker Commandant U S Army Aviation School Commandant U S Army Aviation Logistics School Ft Eustis Ft Rucker AL 36362-5000 Commander U S Army Signal Center and Ft Gordon Commandant U S Army Signal School Ft Gordon GA 30905-5000 Commandant U S Army War College Carlisle Barracks PA 17013-5050 Commander U S Army Air Defense Artillery Center and Ft Bliss Commandant U S Army Air Defense Artillery School Ft Bliss TX 79916-5000 Commander U S Army John F Kennedy Special Warfare Center and School Ft Bragg NC 28307-5000 Commander U S Army Engineer Center and Ft Leonard Wood Commandant U S Army Engineer School Ft Leonard Wood MO 65473-5000 Commander U S Army Quartermaster Center and School Deputy Commander U S Army Combined Arms Support Command and Ft Lee Commandant U S Army Quartermaster School Ft Lee VA 23801-6000 Commander U S Army Infantry Center and Ft Benning Commandant U S Army Infantry School Ft Benning GA 31905-5000 Commander U S Army Chemical and Military Police Centers and Ft McClellan Commandant U S Army Military Police School Ft McClellan AL 36205-5000 Commander U S Army Ordnance Center Commandant U S Army Ordnance School Aberdeen Proving Ground MD 21005-5201 Commander U S Army Field Artillery Center and Ft Sill Commandant U S Army Field Artillery School Ft Sill OK 73503-5000 D-5 Addressee oples Commander U S Army Transportation Center and Ft Eustis Commandant U S Army Transportation School Ft Eustis VA 23604-5000 Commander U S Army Armor Center and Ft Knox Commandant U S Army Armor School Ft Knox KY 40121-5000 Commander U S Army Intelligence Center and Ft Huachuca Commandant U S Army Intelligence School Ft Hua'chuca AZ 85613-6000 Commandant U S Army Ordnance Missile and Munitions Center and School Redstone Arsenal AL 35897-6000 Commandant Army Logistics Management College Ft Lee VA 23801-6053 Director U S Army Training and Doctrine Command Analysis Center Ft Leavenworth KS 66027-5200 Commander Battle Command Battle Lab ATTN ATZL-CDB 415 Sherman Ave Ft Leavenworth KS 66027-5300 Director Space and Missile Defense Battle Lab P O Box 1500 Huntsville AL 35807-3801 Commander Battle Command Battle Lab ATTN ATZH-BL Ft Gordon GA 30905-5299 Commander Battle Command Battle Lab ATTN ATZS-BL Ft Huachuca AZ 85613-6000 Commander Combat Service Support Battle Lab ATTN ATCL-B Ft Lee VA 23801-6000 Commandant Depth and Simultaneous Attack Battle Lab ATTN ATSF-CBL Ft Sill OK 73503-5600 Commandant Dismounted Battle Space Battle Lab ATTN ATSH-WC Ft Benning GA 31905-5007 Commander Early Entry Lethality and Survivability Battle Lab ATTN ATCD-L Ft Monroe VA 23651-5000 Commander Mounted Battle Space Battle Lab ATTN ATZK-MW Ft Knox KY 40121-5000 Commander Battle Lab Integration Technology and Concepts Directorate ATTN ATCD-B Ft Monroe VA 23651-5000 Program Executive Officer Armored Systems Modernization ATTN SFAE-ASM Warren Ml 48397-5000 Program Executive Officer Aviation ATTN SFAE-AV 4300 Goodfellow Blvd St Louis MO 63120-1798 Program Executive Officer Command Control and Communications Systems ATTN SFAE-C3S Ft Monmouth NJ 07703-5000 Program Executive Officer Field Artillery Systems ATTN SFAE-FAS Picatinny Arsenal NJ 07806-5000 Program Executive Officer Intelligence and Electronic Warfare ATTN SFAE-IEW Ft Monmouth NJ 07703-5000 Program Executive Officer Missile Defense ATTN SFAE-MD P O Box 16686 Arlington VA 22215-1686 Program Executive Officer Standard Army Management Information Systems ATTN SFAE-PS 9350 Hall Rd Suite 142 Ft Belvoir VA 22060-5526 Program Executive Officer Tactical Missiles ATTN SFAE-MSL Redstone Arsenal AL 35898-8000 Program Executive Officer Tactical Wheeled Vehicles ATTN SFAE-TWV Warren Ml 48397-5000 Program Executive Officer Cruise Missiles Project and Unmanned Aerial Vehicles Joint Project ATTN PEO-CU 47123 Buse Rd Unit 1PT Patuxent River MD 20670-1547 Program Executive Officer Combat Support Systems ATTN AF PEO CB 1090 Air Force Pentagon Washington DC 20330-1090 Program Executive Officer Joint Program Office for Biological Defense 5201 Leesburg Pike Suite 1200 Skyline #3 Falls Church VA 22041-3203 Program Manager Comanche Program Office Bldg 5681 Redstone Arsenal AL 35898 Program Manager for Chemical DeMilitarization ATTN SFAE-CD-Z Aberdeen Proving Ground MD 21010-5401 Superintendent U S Army Military Academy West Point NY 10996 NAVY Secretary of the Navy Pentagon Room 4E686 Washington DC 20350 Under Secretary of the Navy Pentagon Room 4E714 Washington DC 20350 Assistant Secretary of the Navy Research Development and Acquisition Pentagon Room 4E732 Washington DC 20350 Chief of Naval Operations Pentagon Room 4E674 Washington DC 20350 Vice Chief of Naval Operations Pentagon Room 4E636 Washington DC 20350 Commandant U S Marine Corps Pentagon Room 4E714 Washington DC 20380 Naval Research Advisory Committee 800 N Quincy Street Arlington VA 22217-5660 President Naval War College Code 00 686 Cushing Rd Newport Rl 02841-1207 D-6 Addressee Copies AIR FORCE Secretary of the Air Force Pentagon Room 4E871 Washington DC 20330 Under Secretary of the Air Force Pentagon Room 4E886 Washington DC 20330 Assistant Secretary of the Air Force Acquisition ATTN SAF AQ Pentagon Room 4E964 Washington DC 20330 Chief of Staff United States Air Force Pentagon Room 4E924 Washington DC 20330 Vice Chief of Staff United States Air Force Pentagon Room 4E936 Washington DC 20330 Air Force Scientific Advisory Board Pentagon Room 5D982 Washington DC 20330 President Air War College 325 Chennault Circle Maxwell Air Force Base AL 36112-6427 OSD Secretary of Defense Pentagon Room 3E880 Washington DC 20301 Deputy Secretary of Defense Pentagon Room 3E944 Washington DC 20301 Under Secretary of Defense for Acquisition and Technology Pentagon Room 3E933 Washington DC 20301 Under Secretary of Defense Personnel and Readiness Pentagon Room 3E764 Washington DC 20301 Under Secretary of Defense for Policy Pentagon Room 4E808 Washington DC 20301 Under Secretary of Defense Comptroller Chief Financial Officer Pentagon Room 3E822 Washington DC 20301 Assistant Secretary of Defense Command Control Communications and Intelligence Pentagon Room 3E172 Washington DC 20301 Assistant Secretary of Defense for Economic Security Pentagon Room 3E808 Washington DC 20301 Deputy Under Secretary of Defense for Advanced Technology Pentagon Room 3E1045 Washington DC 20301 Deputy Under Secretary of Defense for Acquisition Reform Pentagon Room 3E1034 Washington DC 20301 Deputy Under Secretary of Defense for Environmental Security Pentagon Room 3E792 Washington DC 20301 Principal Deputy Under Secretary of Defense for Acquisition and Technology Pentagon Room 3E1006 Washington DC 20301 Chairman Joint Chiefs of Staff Pentagon Room 2E872 Washington DC 20318-9999 Vice Chairman Joint Chiefs of Staff Pentagon Room 2E860 Washington DC 20318-9999 Director Operational Test and Evaluation Pentagon Room 3E318 Washington DC 20301-1700 Director Defense Research and Engineering Pentagon Room 3E1014 Washington DC 20301-3030 Director Defense Advanced Research Projects Agency 3701 N Fairfax Dr Arlington VA 22203-1714 Director Ballistic Missile Defense Organization Pentagon Room 1E1081 Washington DC 20301-7100 Director Defense Information Systems Agency 701 S Courthouse Rd Arlington VA 22204-2199 Director Defense Intelligence Agency Pentagon Room 3E258 Washington DC 20301-7400 Director Defense Intelligence Agency Missile and Space Intelligence Center Building 4505 Redstone Arsenal AL 35898-5500 Director Defense Logistics Agency 8725 John J Kingman Rd Suite 2533 Ft Belvoir VA 22060-6221 Director National Imagery and Mapping Agency 4600 Sangamore Road Bethesda MD 20816-5003 Director Defense Threat Reduction Agency 6801 Telegraph Rd Alexandria VA 22310-3398 Director Defense Threat Reduction Agency 45045 Aviation Dr Dulles VA 20166-7517 Director Defense Security Assistance Agency 1111 Jefferson Davis Highway Suite 303 Arlington VA 22202 Director National Security Agency 9800 Savage Rd Ft Meade MD 20755 Director On-Site Inspection Agency 201 W Service Rd Dulles International Airport P O Box 17498 Washington DC 20041-0498 Defense Science Board Pentagon Room 3D865 Washington DC 20301 Commandant Defense Systems Management College 9820 Belvoir Rd Suite G-38 Ft Belvoir VA 22060-5565 President National Defense University 300 5th Avenue Ft McNair Washington DC 20319-5066 Commandant Armed Forces Staff College 7800 Hampton Blvd Norfolk VA 23511-1702 Commandant Industrial College of the Armed Forces 408 4th Ave Bldg 59 Ft McNair Washington DC 20319-5062 Commandant National War College Washington DC 20319-5066 National Security Space Architect 2461 Eisenhower Avenue Suite 164 Alexandria VA 22331-0900 D-7 Addressee Copies OTHER Defense Technical Information Center ATTN DTIC-OCP 8725 John J Kingman Rd Suite 0944 Ft Belvoir VA 22060-6218 Director Central Intelligence Agency Washington DC 20505 National Research Council Division of Military Science and Technology Harris Bldg Rm 258 2101 Constitution Avenue NW Washington DC 20418 Director Institute for Defense Analyses ATTN TISO 1801 N Beauregard St Alexandria VA 22311-1772 Library of Congress Exchange and Gift Division Federal Document Section Federal Advisory Committee Desk Washington DC 20540 D-8 1 1 1 1 1
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