IG(SPACE) MEETING

11 Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 FROM: INTELLIGENCE COMMUNITY STAFF 25 March 1986 DD/PPS (Policy SUBJECT: IG(Space) Meeting Cover memo (Tab A) contains recommendations on the Issues. - Report (Tab B) has a more recent version of the Executive Summary, - Tabs C and D contain 170d_Pla.pers prepared separately b3 If you have time, they woulde worth reading. INFORMATION npclassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 STAT STAT STAT 1.. I! Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Table of Contents IG(Space) Meeting (3/25/86) A - (IG) Space Meeting, 3/25/86. B - Interagency Group on Space Recommendations for the US Space Launch Program. C - Aide-Memoire for 3/25/ IG(Space) Meeting D - Recommend ?? e Aftermath of the Challenger Accident Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 STAT STAT Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 IG(Space) Meeting (3/25/86) Draft report is almost fully coordinated and ready for SIG(Space) consideration: Executive Summary not yet coordinated. Appendices missing. Minor editing needed. Cost figures must be checked. Draft NSDD needs to be written. - Report calls out four issues that are likely to be of these is discussed on the following pages. discussed. Each Recommendation: Concur with conclusions and recommendations in report subject to Working Group clean-up. Point out that Issues and Executive Summary need more work. Point out the need for the IG(Space) to consult with the Rogers Commission on the following technical points. o Is basic orbiter design sound? (Can Commission recommendations on orbiter be accommodated within the 1990 production schedule?) o Can anomaly resolution be accomplished within 12 months and within NASA funding estimate? o Will Commission recommendations impact orbiter turn-around time? (This will affect realizability of "NASA-planned" vice "conservative" flight rates.) Rogers Commission consultation is also important to ensure that there is no political disconnect between these two administration efforts. Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 1 I I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Funding Report: - OMB advises offsets are required. - No offsets identified. - Administration decision on funding approach needed. Discussion: - Report does not give the information needed to resolve the issue such as: )o ? Pros/cons o Alternatives(f o Process We have previously stated that our space budget is already very tight and offsets are not available. o We, therefore, favor treetf supplemental. Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 STS Competition for Commercial and Foreign Launches i I ,(C- Report: - Agreement on policy reached. - Issue over timing and definition. -- NASA: Must honor commitments. - DoT : Earliest practical transition. Discussion: We favor a healthy commercial ELV industry to off-load Shuttle so it ( can be devoted to its best and highest priority uses. Report does not contain sufficient information for choice between NASA and DoT alternatives: o Task Working Group to include this information in report. o If this can't be done, we should go ahead and reserve this decision for further study. Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Report: Timing of Decisions Consolidated strategy is advantageous. - Rogers Commission recommendations could delay NASA recovery plan submission. ELV capability must be available in 1988-89 and must start in next few months. Discussion: - We need to start on ELVs and payload transition now to have them available by 1988-89. - As a minimum, DoD part of supplemental and NASA anamoly resolution part cannot be delayed to wait for Rogers Commission recommendations. - We doubt that Rogers Commission affect our recommendations. recommendations will significantly Should have IG(Space) consult with Rogers Commission to confirm this. - We, therefore, favor supplemental ASAP. Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Flight Rate Planning Report: - NASA--planned flight rates (consistent with Presidential policy). - Conservative flight rates. Discussion: More realistic for overall planning purposes. Provides reserve capacity for contingencies. think conservative rates should b used in near- t24 fligh s year p awing goa s ould be e iminated. - - it 24 this issue can be resolved-with_compromise language./i/ Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part-Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 DRAFT March 24, 1986 3:07 AM INTERAGENCY GROUP ON SPACE RECOMMENDATIONS FOR THE U.S. SPACE LAUNCH PROGRAM March 25, 1986 NOT FOR RELEASE WITHOUT APPROVAL OF THE NSC Rev. L.3 03-24 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 FOREWORD This draft report has been prepared in response to the directives received from the National Security Council Interagency Group (Space) per memorandum dated February 7th 1986, Rodney B. McDaniel to Donald P. Gregg and al., subject: IG (Space) Actions. The following members of the IG(Space) Working Group participated in the preparation: Otho Eskin / Col. Malehy Robert H. Brumley IC. Stadd M. Johnson / Karlyn Daube D. Taft /J. Struthers / A. Wu T. J. Bishop / M.L. Hunter L. Nosenzo/ V. Teplitz Department of State Department of Commerce Department of Transportation Office of Management and Budget Intelligence Community Staff Department of Defense (OJCS) Arms Control and Disarmament Agency M. Roesch / R. Johnson Office of Science and Technology C. 0. Forsythe National Aeronautics and Space Administration (Co-Chairman) T.P. Rona /T.E. Maultsby Department of Defense (Co-Chairman) Rev. 1.3 03-24 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 STAT _ 11 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 COORDINATION Department of State Department of Commerce Department of Transportation Office of Management and Budget Intelligence Community Staff Department of Defense (0.1CS) Arms Control and Disarmament Agency Office of Science and Technology National Aeronautics and Space Administration Department of Defense (OSD) Concur Non-Concur* * Please See Page Number as Shown II Rev. L.3 03-24 a.- ..I....A ..4+1.1.14 11Itr annreval Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 a_ I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 NOTICE This report is for official U.S. Government use only. It shall not be reproduced or released without the authorization of Col. G. May, Executive Secretary of the IG (Space), National Security Council. III Rev. 1.3 03-24 RIV" Annrewal Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 fr 11 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 INDEX EXECUTIVE SUMMARY INTRODUCTION PAGE 1 I. BACKGROUND 3 A. The CHALLENGER Accident 3 B. U.S. Space Program 3 C. National Space Goals and Objectives 4 D. The Space Transportation System 5 E. Expendable Launch Vehicles 5 II. IMPACTS A. Introduction 7 B. Impact on Launch Capability 8 C. Impacts during the Accommodation Period (FY 86-88) 11 III. RECOVERY OPTIONS A. Objectives 12 B. Criteria 12 C. Common Assumptions and Considerations 15 D. Options 19 1. Return to Pre-Accident Baseline 20 2. Three Orbiters With Expanded ELVs 23 3A Four Orbiters With Expanded ELVs 27 36 Four Orbiters (delayed delivery) With Expanded ELVs 30 IV. ISSUES 34 V. CONCLUSIONS AND RECOMMENDATIONS 36 APPENDIX I APPENDIX II APPENDIX III RECOMMENDED STRATEGY ao S. Rev. L.3 03-24 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03.: CIA-RDP92B00181R001501430001-6 11 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 EXECUTIVE SUMMARY Following the CHALLENGER accident on January 28, 1986, the National Security Council directed an Interagency Group to develop the recommendations for actions to be taken in re- gard to the U.S. space program. This draft report, developed under joint NASA - DoD chair- manship, is the current summary of the Group's findings and recommendations. The loss of the CHALLENGER has serious bearing on the Nation's ability to implement the President's space policy as promulgated in NSDD-42. It disrupts the planned timetable for national security and for civil Government missions. The disruption threatens to delay during the 1989-1995 period the transportation support for the Space Station and for the Strategic Defense Initiative-related experiments. It forces reconsideration of the role of the space shuttle in flying commercial and foreign customers' satellites. Beyond the schedule disruptions, the CHALLENGER accident highlights the vulnerability of all space launch systems regardless of their degree of sophistication and reliability. It de- monstrates the risk of relying on a single system for all U.S. space programs. The accident thus raises broader questions in regard to the Nation's means for gaining access to space with the requisite degree of assurance, flexibility and surge capability. Actions need to be efined and implemented in order to improve these attributes at an affordable cost and to enhance the public perception of these improvements. In the absence of recovery actions, the CHALLENGER accident will cause a backlog of space missions in all sectors of the space program (military, civil and commercial). Based on a possibly optimistic 12-month stand-down period before the current 3-orbiter STS resumes operations, and assuming the planned NASA flight rates thereafter, this backlog could reach approximately 70 shuttle-equivalent payloads by FY 1995. Should the stand-down period be extended, or should the planned flight rates not be achieved, the backlog could be signifi- cantly larger. While some of the planned missions can be cancelled or delayed, many of them are time-critical and a significant fraction is vital to the Nation's security posture. The only recovery action for the immediate future, where new launch resources cannot be introduced, is to cancel or delay missions judged less critical to the U.S. space goals. Be- yond 1989, some of the critical national security related payloads will be reassigned from the shuttle to expendable launch vehicles (ELVs), and more effective use will be made of the combined STS and ELV resources then available by replacing the orbiter equipment lost in the accident, by making the payloads compatible with both types of launchers whenever pos- sible and by providing East and West Coast launch facilities for both. With all these actions -ombined, the impact on the Nation's critical military and civil space missions can be held to )Ierably low levels. Rev. L.3.1 3-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II 11- 111% :Jill/ 1 i agi t/i0 NA. 110 I a. ? -lormrur , Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Decisions taken now, or in the immediate future, could result in significant improvements the U.S. space launch posture projected for the period beyond 1989-1990. First, the lost or- oiter can be replaced, at a total cost of approximately $ B, adding both inherent ca- pacity and increased assurance of maintaining the scheduled flight rates. Second, additional ELVs can be made available by accelerating and/or augmenting the current Government procurement. Third, by explicitly encouraging the private sector, commercially produced ELVs could become available in roughly the same time frame. The combination and timing of these actions define the several options for longer-term recovery and reconstitution. Two objectives are to be achieved by all these options: (a) to accelerate recovery from the interruption of space launch operations; and (b) to rebuild a more balanced and flexible na- tional space launch posture that will support the U.S. space goals in all three sectors (national security, civil and commercial) while being largely independent of failures in a given system. Four options have been examined by using the criteria of capability / risk, ability to reduce the mission backlog or the lost mission opportunities, affordability, and impact on the private sector. The assessment and comparison of the four options results in the following: Option 1. Return to Pre-accident Baseline - Procure the fourth (replacement) orbiter with no hange in STS goals or objectives and with no additional ELV procurement. This option will restore the lost assets but does not provide for improved diversity or flexibility of the U.S. launch posture. It will not meet the requirement for launch capability essentially independent of single launch system failure. Option 2. Three Orbiters with Expanded ELVs - Do not replace the fourth orbiter; use the remaining three orbiters as efficiently as possible and augment launch capability with USG and commercial ELVs. This option provides adequate nominal capacity, with launch diversity beyond that planned prior to the CHALLENGER accident, and it satisfies the requirement for assured access to space. However, it provides inadequate flexibility in terms of responding to changes in payload schedules and delays. In the event an orbiter (of the three in service) was out of service for any extended time, the remaining two orbiters could not satisfy the manned space, the shuttle-unique and the national security mission requirements. With the ap- propriate declaratory policy, this option will support and encourage the development of U.S. private launcher and launch services industry. Option 3A. Four Orbiters with Expanded ELVs - Replace the fourth orbiter by 1990 and aug- ment launch capability with USG and commercial ELVs. This option provides adequate nominal capacity, with launch diversity beyond that planned prior to the CHALLENGER accident, and it would retain the U.S. commitment to the STS, while satisfying the requirement for assured ac- Rev. L.3.1 3-24 Not to be released without NSC approval Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 ii Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 r-vn vrrm.u.n. %Jac ?JIIILT rage t5 - !ss to space. It provides adequate flexibility in terms of responding to changes in payload schedules and delays. With the appropriate declaratory policy, this option will support and encourage the development of U.S. private launcher and launch services industry. Option 38. Fourth Orbiter by 1992 with Expanded ELVs - This option is identical to 3A, but the delivery of the fourth orbiter would be delayed until 1992. The merits of the option are the same as those of 3A, but the planned capacity becomes available two years later. The purpose of the delay is to reduce the'procurement outlays in the early years of the program. Additionally, there might be more and better opportunity to incorporate in the replacement orbiter design all the recommendations derived from the Presidential Commission on the causes of the CHALLENGER accident. Under the criterion of "affordability", these options compare as follows: IBUDGET YEARS 1986 GRH 1987 1988 1989 1990 1991 BTC TOTAL WI years) OPTION 1 Budget Authority 494 934 1114 590 72 277 0 3481 Outlays 177 906 1081 1147 364 185 102 OPTION 2 Budget Authority 798 947 1061 835 368 683 373 5064 Outlays 280 1115 1098 1085 440 595 464 OPTION 3A Budget Authority 1055 1679 1970 1295 721 1039 373 8131 Outlays 370 1763 1951 1691 818 972 566 - OPTION 3B Budget Authority 988 1047 1826 1667 966 1016 373 7882 Outlays 310 1200 1810 1892 1089 999 582 Rev. L.3.1 3-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 . - r?on vrrmuita. 11 ?BP 1116 I r ow= GJ The quasi-unanimous position of the Working Group favors Option 3A. While the ,orresponding budget outlays are significantly larger than those for the other options , the latter do not satisfy the needs of the space program developed to support the U.S. space policy goals. If the replacement orbiter is not procured, this is tantamount on planning to operate with the 3-orbiter STS until the late 1990's. The Nation's manned space program and many shuttle-unique national security missions can ill afford the significantly higher level lof risk associated with a 3-orbiter fleet. The Office of Management and Budget takes the position that, whether or not the Gramm-Rudman-Hollings budget constraints apply, the imperatives of budget reduction mandate a relatively slow procurement. The OMB's preference would be for Option 3B; which in addition would also afford the time required to incorporate in the program the recommendations of the "Rogers Commission". The Office of Science and Technology Policy tends to support a less hasty decision on the procurement of the replacement orbiter until broad agreement is reached that the design of the STS (not only that of the orbiter) is sound and that further investment in the STS is warranted. The Department of Transportation agrees with the recommendation in support of Option 3A, provided that NASA be directed to publicly and unambiguously commit to a policy of not competing with private industry for ELV-based launch services. The Working Group is unanimous in accepting the view that advanced technology space launchers, such as the National Aerospace Plane and other concepts currently being studied by the Space Transportation System Architecture Study under NSSD 6-85, will not contribute to the U.S. space launch posture before the early years of the 21st century. The Working Group recognizes, however, that the furthering of these advanced space transportation technologies will call for substantial and sustained investments, in addition to those associated with the options discussed above. ' A few unresolved issues pertinent to the subject have been identified. Among these, the following should be addressed by other groups or in a follow-on effort: o Mechanism for providing the funding for the recommended additional outlays o Specific timing of the formal decision in relation to the Rogers Commission report o Modalities and timing of NASA's new policy on commercial launch services o STS flight rates for planning purposes as contradistinguished from "target" rates. A draft NSDD is forwarded under separate (classified) cover to embody the recommenda- tions of Option 3A. Rev. 1.3.1 3-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 I ' j Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 INTRODUCTION This Interagency Group (Space) draft report responds to the National Security Council directive dated February 7, 1986 on the subject of recovery from the accidental loss of the STS orbiter CHALLENGER on January 28, 1986. Three specific objectives have been set forth for the study reported here. First, consider, and report on, the expected impacts on the nation's capabilities to implement the national space policies. Second, summarize the recommendations made by the cognizant agencies on the ways to mitigate the immediate impact of the CHALLENGER accident on the on- going programs in the three sectors of the U.S. space activities: national security, civil, and commercial. Third, develop and assess the measures to be taken for reconstituting the U.S. means for providing assured access to space in order to accommodate the President's broad space policy objectives. The Group was encouraged to identify any longer-term policy issues that may require future consideration in the light of the CHALLENGER accident. In broad terms, the several tasks have been completed. Two essential ques-tions have not been answered: how will the recommendations of the Presidential Commission on the causes of the CHALLENGER accident ("Rogers Commission") impinge upon the schedule and the cost of regaining operational status of the Space Transportation System; and are there sound approaches for providing the resources recommended for the reconstitution. The Interagency Working Group has made assumptions on the effects of the Rogers Commission's recommendations and has limited its work to the identification of the funding requirements associated with the recommendations. The main body of the report contains the essential facts, suppported by background, approach and argument. Detailed qua ntitative background and supporting information is provided in Appendices. Chapter I recapitulates the background of the situation addressed by the Working Group in the period immediately following the CHALLENGER accident. Chapter ll discusses the impacts on policy implementation and the means for mitigating the impact on our immediate space launch capability prior to resumption of operations and in the following period when the 3-orbiter STS fleet is operational. Chapter III defines and assesses the options available to recover and reconstitute the U.S. space launch posture to a level adequate to support the U.S. space policy goals for the mid-to late 1990's. Rev. L.3 03-24 tun+ tn ho roleased without NSC aoproval Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92600181R001501430001-6 11 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 ChapterIV briefly identifies the issues pertinent to the recovery / reconsti- tution, but which have not been explicitly addressed or resolved by the Working Group. Chapter V summarizes the conclusions and recommendations. Rev. L.3 03-24 Nnt tn ha released without NSC annreval iffi Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 11 I. BACKGROUND A. The CHALLENGER Accident. In January of this year, the twenty-fifth STS mission suffered a tragic accident that resulted in a fatal explosion that destroyed CHALLENGER and its crew. The CHALLENGER accident highlights the vulnerability of all space launch systems regardless of their degree of redundancy, sophistication, and reliability and demonstrates the vulnerability of relying on any single space launch system for all U.S. access to space. While the Presidential Commission is investigating the cause of the CHALLENGER accident, the Interagency Group (Space) has been separately charged with assessing the impact on scheduled satellite deployments and identifying appropriate launch capability recovery options. This report was requested on an accelerated schedule to support the President's option of submitting an FY86 supplemental budget request for implementing recovery actions. B. U.S. Space Program. The U.S. space program is composed of three independent, but highly interactive sectors -- national security, civil, and commercial. The national security and civil space programs are the direct responsibility of the U.S. Government. The commercial space activities are the responsibilities of the private sector; the government encourages and assists the commercial space sector by developing technology and providing a sound investment environment for commercial space activities. Administration policy specifically encourages the development of a U.S. commercial space launch industry. The national security space program is principally oriented toward deploying and operating satellite systems that provide information and support to the National Command Authority (NCA) and operational military forces. These space systems provide critical functions such as attack warning, strategic communication, global navigation, and treaty monitoring. Civil space systems provide opportunities for basic scientific research, planetary exploration, research and development, technology applications, including operational monitoring of the earth and its atmosphere, and manned spaceflight. These systems provide technology spinoffs that enable new commercial products and services, and advance our understanding of physics, astronomy, meteorology, environmental and life sciences. The U.S. manned spaceflight program is a part of the civil space program. These programs are a visible demonstration of U.S. technological leadership and offer opportunities to share space exploration with our international partners and allies. Rev. L.3 03-24 Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Commercial space systems provide services to both the public and government. These ventures exploit private capital and augment government investments in space activities. Services are sold both domestically and internationally and contribute to the image of American leadership in space and technology. Each sector of our space program relies on basic space services -- command and control, tracking, and launch services. To date, the government has been the sole provider of space launch services; until recently launch services were based on expendable launch vehicles (ELVs) developed by the government for primarily government use. Early this decade, the space shuttle entered operations and NASA began to phase out the use of ELVs; commercial satellite operators that had previously relied on NASA's ELVs for launch began to transition their payloads to the space shuttle. The European Space Agency (ESA) developed an ELV and spun off its production and operation to the world's first quasi-commercial space launch system. This French company, Arianespace, began offering commercial launch services in competition with other launch systems, principally the shuttle. The Department of Defense, while transitioning the majority of its payloads to the STS, established a policy of assured access to space and is procuring a limited number of ELVs as a complement to the shuttle. This effort was specifically designed to avoid total dependence on a single space launch system for all national security satellites. C. National Space Goals and Objectives. The U.S. has established space policy goals or objectives which provide a focus for the activities in the individual space sectors. These goals are as follows: 1. Maintain U.S. space leadership. 2. Assure critical space system support to the NCA and operational commanders. 3. Provide a more assured access to space. 4. Provide routine, cost effective space transportation. 5. Establish a permanent manned presence in space. 6. Maintain a vigorous and balanced space research and development program. 7. Encourage U.S. private sector involvement and investment in space activities. 8. Encourage commercialization of U.S. ELVs. 9. Continue international cooperation in space. Rev. 1.3 03-24 Not to be released without NSC approval if? Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430oni-R I I Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 D. The Space Transportation System. The STS was developed to be the workhorse of the U.S. space launch capability. The original concept called for a fleet of five reusable orbiters, providing 60 launches a year, and reducing space transportation costs well below the costs of ELVs. During the decade that the STS was being built, its costs increased, the number of orbiters was reduced, and the projected number of launches dropped to around 24 per year. While the concept was based on high usage, rapid turnaround, and frequent satellite recovery and refurbishment, none of these have yet fully developed. Plans for intensive usage have not materialized; turnaround is more complex and time consuming than originally planned; and satellite recovery and refurbishment have gained slow acceptance by system designers. A reluctance to commit all U.S. space assets to sole dependence on a single launch system has led DoD to maintain an ELV capability in addition to the STS. Each of these factors combine to undermine the economic premise that encourages flying every spacecraft on the shuttle and flying the shuttle as frequently as possible to reduce the cost per flight. The spacecraft deployment capability of the STS is only one of its features; the other major capability of the shuttle is its ability to carry man into space and support experimentation there for several days. This is the truly unique capability of the STS that cannot be matched by ELVs or any current foreign competition other than the Soviet Union. This capability has never been accounted for in the economic arguments of the STS concept. All costs were attributed to the cargo mission, and the importance of manned presence was not assigned a cost. Despite the emphasis on cargo carrying, the STS has been the centerpiece of the U.S. manned space program following Apollo/Skylab and is an essential element in satisfying the national space objectives. E. Expendable Launch Vehicles. As the STS became operational in the early 1980s, national security and civil space systems were planned to transition from ELVs to the shuttle. Civil missions, and foreign and commercial missions launched by NASA have essentially completed this transition; the DoD and NOAA usage of ELVs was planned to continue into the 1988 timeframe. Rev. 1.3 03-24 Net te he released without NSC approval Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92600181R001501430001-6 laL Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 The current DoD inventory of ELVs consists of seven (7) T34D, one (1) T346, sixteen (16) ATLAS vehicles, and nine (9) THOR vehicles in inactive storage. NASA has four (4) completed DELTA vehicles, three (3) partially built vehicles, as well as long- lead materials for eight (8) more. The DoD has implemented an assured access to space strategy which calls for a limited number of ELVs to augment an otherwise complete dependence on the STS. This effort included ten (10) Complementary ELVs (CELVs), which are capable of launching Shuttle-size and weight payloads. The first of these will be available in the fall of 1988. In addition, thirteen (13) TITAN II ICBMs are being refurbished to launch selected small payloads; these will first be available in the spring of 1988. Rev. L.3 03-24 t....edassearl withnut NSC approval Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 ii Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II. IMPACTS A. Introduction. The recent STS failure has two principal effects on the U.S. space launch capability. The first is the loss of the reusable flight hardware. The second is the disruption of all STS flight operations until the cause of the CHALLENGER accident is determined and corrected. This will create a backlog of missions that will have to be worked off in addition to the normally scheduled flights. The size of this backlog will be directly proportional to the length of time the STS is grounded. Once flight operations resume, both the normal schedule and the backlog will have to be accommodated with only 75% of the planned orbiters. The types of actions that can be taken as well as the options available to decision- makers vary with time; five timeframes have been identified and considered by the study group. The first timeframe is the grounding period defined by the length of the accident investigation and the time required to correct the cause of the STS failure. At this time, the most optimistic estimate of the grounding period is one year. The second timeframe is the accommodation period. This period begins with the resumption of STS flight operations and continues until that time when additional launch assets (either additional ELVs or a replacement orbiter) can be brought into service. This period is characterized by reprioritizing missions and most effectively using the limited launch assets that are available. The earliest that a replacement orbiter could be available would be 1990 and the soonest that additional ELVs could be available would be 1988. The third timeframe is the recovery period. This period could begin around 1988 when the first additional ELVs become available to assist in reducing the growing backlog of STS missions. The length of the recovery period will be determined by the operational capability of the orbiter fleet, the quantity of ELVs available, and any reduction in demand that may have resulted from payloads that have been canceled or lost to foreign competition during the disruption of STS launch operations. Rev. L.3 03-24 Declassified in Part - Sanitized Copy Approved for Re-lease 2014/01/03 : CIA-RDP92B00181R001501430001-6 I I Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 The fourth timeframe is the nominal operations period. The period begins when the combination of U.S. space launch assets, both the STS and ELVs, are capable of handling each year's operational demand for launches. The fifth timeframe is the next generation period. This period begins when new technology enables new launch systems and they enter operational service. This period is judged to be post 1995-2000. B. Impact on Launch Capability. The CHALLENGER represented one fourth of the total STS fleet. It was one of two orbiters configured to carry the CENTAUR upper stage. This reduction in the number of available orbiters will significantly impact the nation's space launch capability. The remaining orbiters will be grounded pending the determination of the causes of the accident and the subsequent repairs. The current baseline assumption is that the STS fleet will be grounded for 12 months. Based on a 12-month grounding, the same pre-accident demand for STS flights, a three-orbiter fleet, and the previously planned NASA STS flight rate, and no procurement of additional ELVs, the following backlog of missions would develop: TABLE II- 1 STS BACKLOG PROJECTION (NASA Planned Flight Rates) Shuttle- FISCAL YEARS Equivalent Payloads 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9* 17 18 24 24 24 24 24 24 24 NASA Planned 0 6 14 15 18 18 18 18 18 18 Flight Rates Backlog -9 -20 -24 -33 -39 -45 -51 -57 -63 -69 * Does not include the five missions previously flown in FY 1986, including 51L (CHALLENGER) If more conservative flight rates are assumed, the resulting backlog is correspondingly increased: Rev. L.3 03-24 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 TABLE 11-2 STS BACKLOG PROJECTION (Conservative Flight Rates) Shuttle- FISCAL YEARS Equivalent Payloads 86 87 88 89 90 91 92 93 94 95 . , Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 Conservative 0 4 8 10 12 12 12 12 12 12 Flight Rates (three orbiters) Backlog -9 -22 -32 -46 -58 -70 -82 -94 -106 -118 The Complementary Expendable Launch Vehicle (CE LV) being developed by the DoD could accommodate a shuttle-sized payload. Increases in production and launch rates could be achieved with additional capital investmentThe first CELV will be delivered in the fall of 1988. By that time the STS is already 24 to 32 shuttle equivalent missions (depending on the flight rate assumptions) behind pre-accident demand. The FY 1986-89 backlog consists of existing payloads, whose launches will be delayed by reduced STS launch capacity. The FY 1990-95 backlog is better characterized as "lost flight opportunities" for missions not yet funded or completely defined that could not be launched as a result of the CHALLENGER loss. Rev. 1.3 03-24 MU' rsnrnval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Until additional ELVs can be made available in 1988, the nation will have to operate with essentially the launch capability that now exists. Therefore, the remaining orbiters, once they are released from grounding, will provide the only resources that can be reallocated to accommodate the highest priority launches over the next two years. Rev. 1.3 03-24 Not to be released without NSC approval Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 C. Impacts During the Accommodation Period (FY 1986-88). If the current assumption that the STS fleet will be grounded for 12 months is valid, high priority national security missions will not be significantly impacted. DoD is in the midst of transitioning its payloads to the STS; the number of DoD payloads still on ELVs lessens the impacts of the STS grounding on defense, but some of the DoD payloads will have to be flown on the shuttle, as soon as practical. Civil and commercial missions will be impacted to a greater extent. Individual missions will be slipped on the order of 3 to 15 months. Initial manifest impact charts are provided in Appendix I and a preliminary manifest, based on a 12-month grounding is provided in Appendix II. If the STS is grounded for longer than 12 months, the impact on national security missions will become more serious and commercial and foreign customers might try to reschedule on Ariane or another ELV. Foreign partners cooperating in scientific missions may, when faced with lengthy or unknown delays, may elect to develop cooperative agreements with the U.S.S.R. or China, causing complex technology transfer and foreign policy problems. No efforts were made in this study to quantify the schedule impacts for downtimes longer than 12 months. Rev. L.3 03-24 Declassified in Part - Sanitized Copy Approved for Release 2614/01/03.: CIA-RDP92B00181R001501430001-6 Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 III. RECOVERY OPTIONS A. Objectives. Before attempting to identify possible recovery options, a basic statement of the objectives of the recovery plan should be made. Simply stated the objective is twofold -- (1) to recover from the interruption in launch operations as efficiently and quickly as practical, and (2) to rebuild a more balanced and flexible national capability largely independent of failures in a given system. B. Criteria. The following general criteria were selected for evaluating and comparing possible recovery options. (1) Capability/Risk. The U.S. space launch capability must offer a high degree of operational availability and be able to reliably satisfy the diverse requirements of all three sectors of the space program. Time critical national security missions require assured access to space and need launch diversity to avoid total reliance on a single launch system. The majority of civil missions have become highly dependent on manned interaction and recovery of experimental equipment; they, therefore, require the unique STS capabilities. Commercial satellite operations are concerned with launch schedule availability and costs. The unique manned capability of the shuttle must be explicitly considered in addition to its ability to support launching routine cargo. Routine cargo delivery not requiring manned capability may be more effectively allocated to expendable launch vehicles. STS-unique capabilities will be required to support programs such as space station, materials processing, and other space commercialization activities; revisit/resupply missions like the Hubble Space Telescope; as well as selected national security missions, including SDI. Civil missions, including some with time-critical constraints (i.e., NOAA weather and remote sensing satellites) and many requiring the unique STS capabilities, are required to maintain U.S. leadership in space, in scientific research and exploration, in advanced space technology and applications and in manned space systems; to foster international cooperation in space and to facilitate and encourage private sector developments in space. Rev. L.3 03-24 Declassified in Part - Sanitized Copy Approved for: Release 2014/01/03 CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Each option is assessed on its ability to provide a balanced space launch posture throughout the rest of this century. The risk associated with each option's launch capability is a measure of the consequences if this capability is again perturbed or interrupted. The risks posed by this possibility of interruption are different for each sector of the space program. Elements of this risk assessment include diversity of launch capability versus reliance on a single launch system; adequate reserve capability beyond anticipated demand to accommodate interruptions in launch operations without creating an unacceptable backlog of missions; the ability of a private sector expendable launch vehicle industry to augment government launch capacity on either a routine basis or in emergency situations; adequate capacity to accommodate growth in specific requirements. Risk is especially critical for those missions that must have manned interaction and must rely solely on the shuttle. 2. Backlog/Lost Flight Opportunities. Backlog is a measure of reduced flight capacity -- the difference between the fr flight projections before the accident and current post-accident flight projections. Backlog can be divided in two general categories: Near-term (FY 1986-89) consisting of existing payloads whose launches will be delayed by reduced launch capability. Mid-term (FY 1990-95) consisting of lost flight opportunities for planned missions not yet built. The size of this cumulative backlog and the time required to eliminate it are indicators of the recovery capacity of each option. A launch capability that is unable to eliminate the mid-term backlog would reduce the scope and extent of the U.S. space program in the 1990s. Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II I Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 3. Affordability. The Balanced Budget Act (Gramm-Rudman-Hollings) and Presidential policy mandate that specific deficit reduction targets be met. The President's FY 1987 budget meets the targets from FY 1986-91. OMB advises that Administration policy requires any funding requests to Congress be accompanied by offsets. This criterion addresses the ability to fund the required costs within each budget year. The magnitude of the required budget authority and outlays projected for FY 1986-91, and the total costs will be shown for each option, and the ability to fund each each option in the currently constrained fiscal environment will be discussed. 4. Private Sector Launch Capability. The availability of a privately funded U.S. ELV industry could represent an important element in developing a balanced U.S. space launch strategy. Even a limited commercial ELV launch capability could effectively augment government launch capacity for selected missions. This criterion assesses the extent to which the individual option specifically encourages or discourages the private investment critical to developing a domestic, commercial ELV industry, consistent with existing Presidential policies. Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 C. Common Assumptions and Considerations (1) Flight Rate Assumptions. Throughout this report, two flight rates are consistently used for all assessments. The NASA planned flight rates were used as a baseline; this planning builds to a rate of 6 flights per orbiter per year or a total of 24 flights a year with 4 orbiters. A more conservative flight rate was assumed by the majority of the IG(Space) Working Group to be more realistic for planning purposes in this post-accident environment. This planning builds to a rate of 4 flights per orbiter per year, or a total of 16 flights a year with 4 orbiters. These two flight rate assumptions represent a reasonable range of boundary conditions for the purpose of this study. In the current circumstance, conservative planning assumptions are crucial. Once new flight rate schedules are established, any significant shortfall in achieving these rates, will increase the already large backlog created by the accident. Costs to the government will also increase due to program delays -- costs that can be avoided now by conservative planning. These planning assumptions are not a ceiling; higher rates may be achieved and would permit backlogs to be reduced more quickly. Rather, they represent prudent nominal capacity to be used for more conservative program and budget planning. For the space shuttle program, the flight rate target of 24 per year by 1989 was based on detailed plans consistent with expected technical achievements in production, launch processing, and in-flight operations. Rev. L.3 03-24 Not to be released without NSC approval it, Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R03i?i1L'130001-6 While the Working Group recognizes that such flight rate schedules may be technically feasible, they would not provide the conservative margins that are essential to reduce the risk of further serious disruption of the U.S. space program. (2) NASA Salvage Operations and Corrective Action. All options include all actions necessary to restore the remaining three orbiters to a safe operational status in as short a time as possible. This includes salvage operations, redesign, procurement, and requalification of flight hardware, and additional flight instrumentation. While it is assumed that orbiter performance will not be significantly reduced as a result of these post-accident modifications, a nominal decrease in payload lift capability is expected. The costs for these necessary actions are included in every option considered. (3) Cost Estimates. Because of the limited time available to assess the programatic implications resulting from the STS backlog created by the loss of CHALLENGER, the costs presented for each option focus on launch system assets, such as vehicles, facilities, and payload impacts. Effects of the near-term backlog were addressed, where possible, in terms of changes in reimbursables, STS flight savings due to post-accident flight rates, and program adjustments through FY 1991. These effects tend to increase the total costs and are included with each option. Additional effects due to delays in future programs or offsets from future reductions or cancellations, were beyond the scope of this effort. These unidentified costs are generally believed to lower the cost impacts identified in each option and were not addressed due to the limited time available. OMB advises that Administration policy requires any funding requests to Congress be accompanied by offsets. No offsets were identified by the individual agencies and none were assumed by the IG (Space). Estimated costs are used to compare the options and are not meant to preempt the responsible agencies efforts to finalize their preliminary estimates. Rev. L.3 03-24 Not to be released without NSC approval iv Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 (4) Next Generation Technology. Consistent with the NSC tasking to the Working Group, advanced technology, such as the National Aerospace Plane, was reviewed. The operational availability of these next generation launch systems was judged to be no earlier than 1995. Since the recovery / reconstitution period covered by this report extended only through 1995, these new systems were not considered viable candidates. A specific study of second generation space transportation systems, the National Space Transportation and Support (STAS) Study, is being conducted in response to NSSD-6-85. This study and the other ongoing NASA and DoD technology programs must reflect the strategy adopted to solve the near and mid-term launch problems. This can be done within the normal coordination/ budget process to ensure a coherent long-term plan. (5) U.S Commercial Expendable Launch Vehicles. In May 1983, a Presidential policy was established to encourage and facilitate development of a U.S. commercial ELV industry. This policy was based on the premise that the existence of a viable commercial ELV industry would add to the general economic vitality of the U.S. and provide it with a robust space launch capability. The policy was not fully implemented; low STS prices for commercial and foreign payloads, set in order to compete with Arianespace, precluded domestic ELV companies from gaining a share of this market. Several of the options considered in this paper assume the availability of a U.S commercial ELV industry given proper government encouragement. The following is the status of this industry and vendor estimates of production and launch rates that could be achieved in the 1989-1990 timeframe without major capital investment in new facilities: Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II 11 11 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 TITAN - 14 TITAN vehicles per year of various configurations. ATLAS - 16 CENTAUR upper stages and 17 ATLAS vehicles per year of various configurations. DELTA - 10 DELTA vehicles per year. These quantities clearly exceed the available commercial and foreign market but provide strong assurance that a U.S. ELV industry could develop from existing resources. Both General Dynamics and Transpace Carriers, Inc. (TCI) have been negotiating with NASA for nearly two years, for commercial production, marketing, and launch responsibilities for the ATLAS and DELTA vehicles, respectively. Commercialization of the TITAN launch vehicles is also possible. Rev. L.3 03-24 Not to be released without NSC approval 11" Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 _ Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 D. Options The options described in this paper represent the spectrum of alternatives considered by the Working Group. Each option is described and assessed in relation to the preceding criteria. The options addressed are: 1. Return to pre-accident baseline - replace the fourth orbiter with no change in STS goals or objectives and with no additional ELVs. 2. Three orbiters with expanded ELVs - do not replace the fourth orbiter; use the remaining three orbiters as efficiently as possible and augment launch capability with USG and commercial ELVs. 3A. Four orbiters with expanded ELVs - replace the fourth orbiter, and augment launch capability with USG and commercial ELVs. 3B. Four orbiters (delayed delivery) with expanded ELVs - the same as Option 3A except the delivery of the replacement orbiter is delayed to ease the near-term funding impact. Rev. L.3 03-24 Not to be released without NSC approval r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Option 1 -- Return to Pre-Accident Baseline (Four Orbiters - No Additional ELVs) This strategy represents the baseline option in that it would attempt to return to pre-accident conditions. The lost orbiter would be replaced using existing structural spares and the spares would be replaced. The replacement orbiter would be operational in 1990. Under this option, the shuttle would be the nation's primary space launch system. National security and critical civil missions would be given highest priority; commercial and foreign customers would be given the next highest priority; other civil missions would be the lowest priority. The Vandenberg STS facility would be activated on schedule and, until the delivery of the fourth orbiter, used only for those missions that require orbit inclinations unattainable from Kennedy. The existing three orbiters are thus essentially dedicated to Kennedy usage to reduce the STS backlog. No additional ELVs beyond those currently approved (i.e., ten CELVs and 13 TITAN Ils) would be procured. NASA's commitment to three STS equivalent commercial and foreign flights per year would be retained. The following tables show the STS backlogs under two assumptions of flight rates ( i.e., NASA planned rates of six flights per orbiter per year and conservative rates, i.e., four flights per orbiter per year): TABLE III - 1 OPTION 1 STS BACKLOG PROJECTION ( NASA Planned Flight Rates) Shuttle- Eq uivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 NASA Planned 0 6 14 15 22 24 24 24 24 24 Flight Rates Backlog -9 -20 -24 -33 -35 -35 -35 -35 -35 -35 Rev. L.3 03-24 Not to be released without NSC approval r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 TABLE III - 2 OPTION 1 STS BACKLOG PROJECTION (Conservative Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 Conservative 0 4 8 10 13 16 16 16 16 16 Flight Rates Backlog -9 -22 -32 -46 -57 -65 -73 -81 -89 -97 For the NASA planned flight rates, the backlog/lost opportunities remains constant at 35 for the early 1990s. For a conservative flight rate, the backlog continues to grow and almost doubles in the first half of the 1990s. Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy App . Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Assessment. Capability/Risk. This option includes only the launch capacity from a restored four- orbiter fleet (16 to 24 STS flights a year). The option restores the assets lost in the accident, but does not improve the diversity and flexibility of our national launch posture from the posture planned prior to the accident. It further does not meet the national security requirement for a launch capability essentially independent of failures in a single launch system. However, two four-orbiter fleets provide increased flexibility in responding to changes to payload schedules and events. The replacement orbiter ensures that the STS fleet would not be reduced to two orbiters in the event that one of the three remaining orbiters was out of service for an extended period of time. Backlog. As shown in Tables III - 1 and III -2 this option does little to reduce or eliminate the STS backlog under either the optimistic or conservative flight rate assumptions. Because this option returns to the launch posture that existed prior to the accident, it leaves the nation just as susceptible to future outages and does not provide the ability to recovery quickly. The decision to replace CHALLENGER must consider that elements of the shuttle fleet will inevitably experience downtime for repairs. Furthermore, it would be prudent to recognize the possibility of another major shuttle accident and to protect the nation's capability to support critical programs requiring man, like SDI and space station, in the wake of such an accident. In addition, a four-orbiter fleet provides increased flexibility in response to launch schedule changes from payload and weather delays as well as maintenance and refurbishment. Affordability. Table B.1 shows the fiscal impact of Option 1. Cost for selected replacement items (anomaly resolution/corrective actions, replacement orbiter, Integral Upper State Airborne Support Equipment (IUS ASE), and replacement structural spares) is estimated at $2.8 billion. Total NASA costs (including replacement items) considering flight savings, lost reimbursables, and program adjustments, are estimated at $3.8 billion. DoD impacts consist of program adjustments of about $0.3 billion and STS reimbursable credits of about $0.6 billion resulting in a net savings of about $0.4 billion. Total USG cost for Option 1 is about $3.5 billion. NASA would require budget authority of $493 million in FY 1986 and $882 million in FY 1987. NASA outlays are projected at $177 million in FY 1986 and $867 million in FY 1987. Rev. L.3 03-24 Not to be released without NSC approval r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 DoD would require budget authority of $1 million in FY 1986 and $52 million in FY 1987. DoD outlays are projected at less than $1 million in FY 1986 and $39 million in FY 1987. Option 1 is the least costly of all options in terms of total costs with a total outlay impact in FY 1987 of $0.9 billion with the least fiscal impact to the FY 1987 deficit reduction target required by Gramm-Rudman legislation. Option 1 is the least difficult to fund with accompanying offsets. U.S. Commercial Space Industry. Since the STS continues to fly commercial and foreign payloads, a U.S. commercial ELV industry would fail to develop. Option 2 - Three-Orbiter/ Expanded ELVs This option does not replace the fourth orbiter, but relies on expanded use of expendable launch vehicles. The STS would provide for all manned missions and other civil and national security missions which most effectively use the capabilities of the shuttle. The option also assumes the availability of a U.S. commercial ELV industry. The DoD would increase its procurement of CELVs and expand existing ELV production to maintain the full spectrum of launch capability required in addition to that offered by the U.S. commercial ELV industry. An ELV launch capability would be maintained on both eastern and western test ranges. The Vandenberg STS facility would be activated on schedule and, until the delivery of the fourth orbiter, used only for those missions that require inclinations unattainable from Kennedy. The existing three orbiters are thus essentially dedicated to Kennedy usage to reduce the STS backlog. No commercial or foreign communications satellites beyond [those committed through FY 19881 [existing contractual/legal commitments] would be flown on the shuttle, although the shuttle would be used to fly commercial and foreign experiments requiring manned intervention to help explore new space applications. Approximately three STS equivalents would be offloaded from the STS and would be available for launch on commercial expendable launch vehicles. A U.S. commercial ELV industry, created through private investment, would compete with foreign ELVs. The government could buy U.S. commercial launch services for selected government missions. This offload, when combined with the DoD offload, would result in the following revised demand: Rev. L.3 03-24 Not to be released without NSC approval iv, Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIATRDP92B00181R001501430001-6 II I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 . TABLE III -3 OPTION 2 STS BACKLOG PROJECTION ( NASA Planned Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 DoD Offloads 0 0 0 -2 -3 -2 -4 -5 -5 -5 C & F Offloads 0 0 0 -3 -3 -3 -3 -3 -3 -3 Adjusted 9 17 18 19 18 19 17 16 16 16 Demand NASA Planned Flight Rates 0 6 14 15 18 18 18 18 18 18 Backlog -9 -20 -24 -28 -28 -29 -28 -26 -24 -22 TABLE III -4 OPTION 2 STS BACKLOG PROJECTION (Conservative Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 DoD Offloads 0 0 0 -2 -3 -2 -4 -5 -5 -5 C & F Offloads 0 0 0 -3 -3 -3 -3 -3 -3 -3 Adjusted 9 17 18 19 18 19 17 16 16 16 Demand Conservative Flight Rates 0 4 8 10 12 12 12 12 12 12 Backlog -9 -22 -32 -41 -47 -54 -59 -63 -67 -71 Rev. L.3 03-24 Not to be released without NSC approval r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Assessment. Capability/Risk. This option includes launch capacity from a three-orbiter fleet (12 to 18 flights per year), additional DoD ELVs (three to five STS-equivalents per year), and commercial ELVs (three STS-equivalents per year) resulting in a total national capability of 18 to 26 STS-equivalents a year, starting in FY 1989. This provides additional launch diversity beyond that planned prior to the CHALLENGER accident and satisfies the national security requirements for assured access to space for critical national security payloads. The launch vehicle diversity in this option reduces the risk of dependency on a single launch system. A three-orbiter fleet provides less flexibility in responding to changes in payload schedules and delays. In the event an orbiter was out of service for an extended period of time, a two-orbiter fleet would be inadequate to satisfy manned spaceflight, shuttle-unique, and national security requirements. Backlog. Offloading some DoD missions from the STS and not flying communication satellites beyond [those committed through FY 1988] [existing contractual/legal commitments] results in an adjusted demand which is depicted in Tables III -3 and III -4. Under these assumptions and NASA planned flight rates, the backlog would stabilize by 1989 at about 28 flights and would be reduced by approximately 2 shuttle equivalents per year beginning in 1992. If conservative flight rates are used, then the backlog continues to grow by approximately four STS-equivalents a year through 1995. Affordability. Table B.2 shows the final impact of Option 2. Cost for selected replacement items (anomaly resolution/corrective actions and IUS ASE is estimates at $0.4 billion. Total NASA costs (including replacement items) considering flight savings, lost reimbursables, and program adjustments, are estimated at $1.9 billion. DoD costs include program adjustments, launch recovery plans estimated at $4.1 billion, and reimbursable credits of about $1.1 billion for a total DoD cost of about $3.2 billion. Total USG cost for Option 2 is estimated at about $5.1 billion. NASA would require budget authority of $236 million in FY 1986 and $150 million in FY 1987. NASA outlays are projected at $87 million in FY 1986 and $219 million in FY 1987. DoD would require budget authority of $562 million in FY 1986 and $797 million in FY 1987. DoD outlays are projected at $193 million in FY 1986 and $896 million in FY 1987. Option 2 is the next higher cost option above Option 1 with a total outlay impact in FY 1987 of $1.1 billion. Option 2 is less difficult to fund with accompanying offsets than Option 3A and about the same as Option 3B. Rev. L.3 03-24 Not to be released without NSC approval r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II _1 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 U.S. Commercial ELV Industry. This option supports the development of a U.S. commercial ELV industry. Without direct competition from the government for routine commercial and foreign communications satellite launches and with proper government encouragement, this industry should be competitive in the world market. DoD could buy commercial launch services for those classes of defense missions that do not have high security requirements. Potentially, some civil satellites could also use commercial ELV launch services. This government business would enhance a sound economic base and contribute to competitive commercial prices. This option would implement the President's ELV commercialization policy by enabling the establishment of a U.S. commercial launch industry to augment government's launch systems. This industry could provide emergency relief in those cases when government launch systems were grounded for protracted periods of time; with no direct government funds required to maintain the option. A U.S. commercial launch industry could also maintain and enhance the U.S. competitive position in the international market, particularly if the dollar/French franc exchange rate remains favorable. Rev. L.3 03-24 Not to be released without NSC approval r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Ap-pr7oVecTro7--1-elease 2014/01/03: CIA-RDP92B00181R001501430001-6 Option 3A -- Four-Orbiter by FY 1990 / Expanded ELVs This option replaces the fourth orbiter and delivers it by August of 1989, increases the DoD procurement of ELVs, and reserves the STS essentially for government use and those missions requiring unique STS capability. The option also assumes the availability of a U.S. commercial ELV industry. Beginning in FY 1989, routine commercial and foreign satellite deployments not requiring manned presence would not be deployed by the shuttle. New commercial exploitation requiring manned interaction (i.e., materials processing and experimentation) would be encouraged on the STS.. DoD would continue to use the STS for those high priority missions where the payloads cannot be effectively reconfigured for ELVs or where man's presence is required as well as in contingencies when ELVs are grounded. National security missions would rely equally on both the STS and ELVs. Civil missions tend toward designs that take advantage of the unique manned capabilities of the orbiters and therefore rely heavily on the use of the STS. However, both government or commercial ELVs would be available for civil use. An ELV launch capability is maintained on both the eastern and western test ranges. The Vandenberg STS facility would be activated on schedule and, until the delivery of the fourth orbiter, used only for those missions that require inclinations unattainable from Kennedy. The existing three orbiters are thus essentially dedicated to Kennedy usage to minimize the STS backlog. Commencing in FY 1989, Defense would launch additional ELVs ranging from two to five STS-equivalents per year (see Tables Ill - 5 and III - 6). This offload, when combined with the elimination of three equivalent STS flights a year for commercial and foreign customers, beginning in FY 1989, would reduce the demand for shuttle flights to about 16 a year by FY 1993. Rev. L.3 03-24 Not to be released without NSC approval w Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 TABLE III -5 OPTION 3A STS BACKLOG PROJECTION ( NASA Planned Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 DoD Offloads 0 0 0 -2 -3 -2 -4 -5 -5 -5 C & F Offloads 0 0 0 -3 -3 -3 -3 -3 -3 -3 Adjusted 9 17 18 19 18 19 17 16 16 16 Demand NASA Planned 0 6 14 15 22 24 24 24 24 24 Flight Rates Backlog -9 -20 -24 -28 -24 -19 -12 -4 +4 + 12 TABLE III -6 OPTION 3A STS BACKLOG PROJECTION (Conservative Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 DoD Offloads 0 0 0 -2 -3 -2 -4 -5 -5 -5 C & F Offloads 0 0 0 -3 -3 -3 -3 -3 -3 -3 Adjusted 9 17 18 19 18 19 17 16 16 16 Demand Conservative 0 4 8 10 14 16 16 16 16 16 Flight Rates Backlog -9 -22 -32 -41 -45 -48 -49 -49 -49 -49 Rev. L.3 03-24 Not to be released without NSC approval pv, Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 __I I II Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Assessment. Capability/Risk. This option includes the launch capacity for a restored four-orbiter fleet (16 to 24 flights per year), additional DoD ELVs (three to five STS-equivalents per year), and commercial ELVs (three STS-equivalents per year) resulting in a total national capacity of 22 to 32 STS-equivalents per year starting in FY 1991. The combination of replacing the fourth orbiter and expanding government ELV usage achieves a more diversified launch capability. This option satisfies the requirement for assured access to space and the need to avoid dependencies on single launch systems. The emphasis on assuring mission capability for critical national security missions can best be satisfied by the diversified launch capability. This option allows the ability to select from various strategies (e.g., dual compatibility, mixed scheduling) to assure minimum interruption of critical national security functions, despite possible future launch vehicle outage. A four-orbiter fleet provides increased flexibility in responding to changes in payload schedules and events. The replacement orbiter ensures that the STS fleet would not be reduced to two orbiters in the event that one of the three remaining orbiters was out of service for an extended period of time. Backlog. This option, assuming NASA planned flight rates, could support all manned missions, including space station and other civil and national security missions, while eliminating the STS backlog by 1993. Under more conservative flight rate assumptions, the backlog would be stabilized by 1992, rather than eliminated. Assuming that NASA- planned flight rate projections could be achieved, this reduction in combination with the availability of a replacement orbiter would allow the elimination of the backlog by 1994 (see Table III - 5). If more conservative flight rates are assumed, however, the backlogs would not be reduced (see Table III - 6). Affordability. Table B.3 shows the fiscal impact of Option 3A. Cost for selected replacement items (anomaly resolution/corrective actions, replacement orbiter, IUS ASE, and replacement structural spares) is estimated at $2.8 billion. Total NASA costs (including replacement items) considering flights savings, lost reimbursables, and program adjustments, are estimated at $4.9 billion. Total DoD costs for program adjustments, launch recovery plans, and STS reimbursable credits are about $3.2 billion. Total USG cost for Option 3A is estimated at about $8.1 billion. NASA would require budget authority of $493 million in FY 1986 and $882 million in FY 1987. NASA outlays are projected at $177 million in FY 1986 and $867 million in FY 1987. Rev. 1.3 03-24 Not to be released without NSC approval it, Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 DoD would require budget authority of $562 million in FY 1986 and $797 million in FY 1987. DoD outlays are projected at $193 million in FY 1986 and $896 million in FY 1987. Option 3A is the most costly of all options and has the highest total outlay impact in FY 1987 at $1.8 billion. Option 3A has the greatest impact to the FY 1987 deficit reduction target required by Gramm-Rudman legislation and would be the most difficult to fund with accompanying offsets. U.S. Commercial ELV Industry. This option supports the development of a U.S. commercial ELV industry. Without direct competition from the government for routine commercial and foreign communications satellite launches, with proper government encouragement, this industry should be competitive in the world market. DoD could buy commercial launch services for those classes of defense missions that do not have high security requirements. Potentially, some civil satellites could also use commercial ELV launch services. This government business would enhance a sound economic base and contribute to competitive commercial prices. This option would implement the President's ELV commercialization policy by enabling the establishment of a U.S. commercial launch industry to augment government's launch systems. This industry could provide emergency relief in those cases when government launch systems were grounded for protracted periods of time; with no direct government funds required to maintain the option. A U.S. commercial launch industry could also maintain and enhance the U.S. competitive position in the international market, particularly if the dollar/French franc exchange rate remains favorable. Option 36 -- Fourth Orbiter By FY 1992 / Expanded ELVs This option is the same as 3A except that the fourth orbiter delivery is delayed until January of 1991. The additional orbiter procurement would proceed on a slower schedule to ease the impacts in meeting the deficit reduction targets imposed by the Gramm-Rudman legislation and Presidential policy. With this option, the backlog under NASA planned flight rate assumptions, would be eliminated by 1995. More conservative flight rate assumptions would allow stabilization of the backlog by FY 1992. Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 TABLE III -7 OPTION 3B STS BACKLOG PROJECTION (NASA Planned Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 DoD Offloads 0 0 0 -2 -3 -2 -4 -5 -5 -5 C & F Offloads 0 0 0 -3 -3 -3 -3 -3 -3 -3 Adjusted 9 17 18 19 18 19 17 16 16 16 Demand NASA Planned 0 6 14 15 18 18 22 24 24 24 Flight Rates Backlog -9 -20 -24 -28 -28 -29 -24 -16 -8 0 TABLE III -8 OPTION 3B STS BACKLOG PROJECTION (Conservative Flight Rates) Shuttle- Equivalent Payloads FISCAL YEARS 86 87 88 89 90 91 92 93 94 95 Pre-Accident Demand 9 17 18 24 24 24 24 24 24 24 DoD Offloads 0 0 0 -2 -3 -2 -4 -5 -5 -5 C & F Offloads 0 0 0 -3 -3 -3 -3 -3 -3 -3 Adjusted 9 17 18 19 18 19 17 16 16 16 Demand Conservative 0 4 8 10 12 12 14 16 16 16 Flight Rates Backlog -9 -22 -32 -41 -47 -54 -57 -57 -57 -57 Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 rcsyw ueciassified in Part - Sanitized Approved for Release'2014/01/03 : CIA-RDP92B00181R00150o 1430001-6 4ssment. Capability/Risk. Because of the capacity provided by an additional shuttle, manned flights, and unmanned payloads requiring the unique capabilities of the shuttle would have greater flight opportunities. The overall U.S. launch posture would be strengthened by the purchase of additional ELVs for DoD missions and the availability of a U.S. commercial ELV industry. Greater diversity and flexibility would be provided for the U.S. space launch program due to the replacement of the orbiter, increased DoD use of ELVs, and a strong market incentive for private investment in commercial ELVs. Increased risk would result from operating a three-orbiter fleet for two additional years. Backlog. This option, assuming NASA planned flight rates, could provide for all manned missions, including space station, and other civil and national security missions while eliminating the backlog of planned missions by FY 1995. As with Option 3A, at conservative flight rates, this option would stabilize the backlog of lost flight opportunities by the early 1990s. Under this option some civil lovernment payloads may be further delayed as a result of delivering the fourth irbiter two years later. Affordability. Table B.3 shows the fiscal impact of Option 3B. Cost for selected replacement items (anomaly resolution/corrective actions, replacement orbiter, IUS ASE, and replacement structural spares) is estimated at $3.1 billion. Total NASA costs (including replacement items) considering flight savings, lost reimbursables, and program adjustments, are estimated at $4.7 billion. Total DoD costs for program adjustments, launch recovery plans, and STS reimbursables are about $3.2 billion. Total USG cost for Option 3B is estimated at about $7.9 billion. NASA would require budget authority of $426 million in FY 1986 and $250 million in FY 1987. NASA outlays are projected at $117 million in FY 1986 and $304 million in FY 1987. DoD would require budget authority of $562 million in FY 1986 and $797 million in FY 1987. DoD outlays are projected at $193 million in FY 1986 and $896 million in FY 1987. Rev. 1.3 03-24 trt he released without NSC approval Declassified in Part- Sanitized copy Approved for Release 2014/01/03 ? rIA-Dnrir'''^--- II Imre 011\11 'tf 13 ft... es -I .1 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Option 3B has a total outlay impact in FY 1987 of $1.2 billion, reduces the NASA outlay impact in FY 1987 of Option 3A by $0.6 billion with a nine-month delay, reducing the fiscal impact to the FY 1987 deficit target required by Gramm-Rudman legislation. Option 3B, would be less difficult to fund with accompanying offsets, about equal in difficulty to fund Option 2. U.S. Commercial ELV Industry. This option supports the development of a U.S. commercial ELV industry. Without direct competition from the government for routine commercial and foreign communications satellite launches, with proper government encouragement, this industry should be competitive in the world market. DoD could buy commercial launch services for those classes of defense missions that do not have high security requirements. Potentially, some civil satellites could also use commercial ELV launch services. This government business would enhance a sound economic base and contribute to competitive commercial prices. This option would implement the President's ELV commercialization policy by enabling the establishment of a U.S. commercial launch industry to augment government's launch systems. This industry could provide emergency relief in those cases when government launch systems were grounded for protracted periods of time; with no direct government funds required to maintain the option. A U.S. commercial launch industry could also maintain and enhance the U.S. competitive position in the international market, particularly if the dollar/French franc exchange rate remains favorable. Rev. L.3 03-24 Not to be released without NSC approval Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II 11 I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 BUDGET SIIIMAEY FOE OPTIONS 1986 1987 Total Current Budget All Year 6R1 Year 1988 1989 1990 1991 ITC Years Option 1. Late 1986 Orbiter Buy (42 Month Delivery from Authority to Proceed) DOD Budget Authority Outlays NASA Budget Authority Outlays Total Bulget ATAINerv:y Outlays 1 52 106 ?363 ?240 81 0 ?364 0 39 79 119 493 882 1008 953 312 196 0 3844 177 867 1002 1147 364 185 102 3844 494 7,24 1114 590 72 277 0 2,.c1 177 906 1081 1147 364 185 102 Option 2. No New Orbiter with Offloads DOD Budget Authty Outlays NASA Budget Authority Outlays CO- 562 797 924 103 84 342 373 3185 153 898 911 310 129 286 464 3133 236 150 127 727 284 341 0 87 219 187 775 311 309 0 Total Budge: Authority 798 547 1061 835 368 683 373 0(0b Outiays 280 1115 1098 1085 440 595 464 Optior, 3A. Gate 1986 Orbiter Buy with Offloads (42 Month Delivery from Authority to Proceed) DOD Budget Authority Outlays NASA Budget Authority Outlays 562 797 924 108 84 342 373 3189 193 896 911 310 129 286 464 21E5 493 882 1046 1187 637 697 0 4942 177 867 1040 1381 689 686 102 4942 Total B;dget Authority 1055 1679 1970 1295 721 1039 373 8131 Outlays 370 1763 1951 1691 818 972 566 8131 Option 3B. Early 1987 Orbiter Buy with Offloads (4/87 Start, 1/91 Delivery) DOD Budget Authority 562 797 924 108 84 342 373 3189 Outlays 193 896 911 310 129 286 464 3189 NASA Budget Authority Outlays 426 250 902 1559 882 674 0 4693 117 304 899 1582 960 713 - 118 4693 Total Budget Authority 988 1047 1826 1667 966 1016 373 7882 Outlays 310 1200 1810 1892 1089 999 582 7882 --------- Nctes: See fiscal data each option Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 II Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 1 Aeut 15,1 ir oi64 r, Option 1. Late 1986 Orbiter Buy (42 Month Delivery from Authority to Proceed) DOD 1986 LU:ZE:t Year 6RE 1987 Budget Year 1988 1989 1990 1991 ITC Total Tears Program Adjustments/1 1 52 106 45 24 30 0 25a Lam:h RE:overy Plan/2 0 0 0 0 0 0 0 0 STS Reimbursable Credits/3 0 0 0 -408 -264 51 0 -621 DK:D Budget Authaityl6 1 52 106 -363 -240 81 0 -354 Outlays/8 39 79 NASA Frog:am Ad3ustments/1 67 179 259 214 218 239 0 1276 Replacement Items/4 493 882 895 365 115 55 0 2805 Flight Savings/Reimb L0s5/2,5 -67 -179 -146 274 -21 -98 0 -237 PEA Budget Authority/6 492 882 1008 953 312 196 0 3844 Outlays/7 177 867 1002 1147 364 185 102 3844 Total Budget Authority 494 934 1114 590 72 277 0 3481 Outlays/9 177 906 1081 1147 364 185 102 ocig Notes: 1) Ad7'.ustments to programs based upon 12 month STS Standdovn, NASA adjustmen:s include ::ESE Follow-oo, Spartan, EIS changes Including reliability i quality assurante, Tracking and Data, Science and Application, and RON 2) Dt:al compatitilitylayload integration. ELT's, launch facility modifications and support 3; NASA/DO: reimbursables changes in negotiation 4) Anomaly Resolution/Corrective Actions, Replacement Orbiter, IUS ASE, and Replacement Structural Spares 5) Flight Savings due to reduced NASA Planned Flight Rates 6) Budget Authority amounts provided by agencies 7) Budget Outlay amounts provided by NASA 8) DOD Outlay amounts not estimated beyond 1988 9) Total Outlay amount does not include DOD outlays beyond 1988 Declassified in Part - Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 logot.ir .2. Optiori 2. No New Orbiter vith Offloads DOD i9ao Current Year 698 15a: Budget Year 1988 1989 1990 1991 BIC iotal All Years Program Adjustments/1 1 52 106 45 24 30 0 258 Launch Recovery Plan/2 561 745 819 694 421 465 273 4077 SE 2eimtu:sib1e Cr:edits/3 0 0 0 -621 -361 -153 0 -114E DOD Budget Authority/6 562 797 924 108 84 342 373 2189 OutlaysIS 193 896 911 210 129 286 464 3189 NASA Froam Adjustments/1 67.0 179.0 259.0 314.0 218.0 229.0 0.0 1276 Replacement Items/4 236 150 0 0 0 0 0 386 Flight Savings/Reimb Loss/3,5 -67.0 -179.0 -122.0 413.0 66.0 102.0 0.0 213 NASA Blip': Authority/6 226 150 127 727 284 341 0 1875 Outlays/7 87 219 187 775 311 309 0 ------- ---- ? ? ? - ? ? - ? ? ? ? Total Budget Authority 798 947 1061 835 368 683 373 5064 Outlays 280 1115 1098 1085 440 595 464 ? ? - - ? Notes: 1) Austments to programs based upon 12 month STS Standdovn, NASA adjustments include TDRSS Follov-on, Spartan, STS changes including reliability & quality assT.Tance, Tracking and Data, Science and Application, and R&PM 2) Dual compatibility/payload integration, ELlus, launch facility modifications and support 3) NASA/DOD reimbursables changes in negotiation 4) Anomaly Resolution/Corrective Actions and IDS ASE 5) Flight Savings due to reduced NASA Planned Flight Rates 6) Budget Authority amounts provided by agencies 7) Budget Outlay amounts provided by NASA 8) DOD Outlay amounts estimated 22-vx-St r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 II Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Tikue 3ft 23-Mar-86 Option 3A. Late 1986 Ortiter Buy vith Offloads (42 Month Delivery from Authority to Proceed) DOD 1986 Cur,:e.-.t Tear 611H 1987 Budget Tear 1988 1989 1990 1991 ITC Total All Years Program Adjustments/1 1 52 106 45 24 30 0 258 Launch Recovery Plan/2 561 745 819 694 421 465 373 4077 STS Reimbursable Credits/3 0 0 0 -631 -361 -153 0 -1145 DOD Budget Authority/6 562 797 924 108 84 342 372 3189 Outlays/8, 192 896 911 310 129 286 464 3185 NASA Program Adjustments/1 67 179 259 314 218 239 0 1276 Replacement Items/4 493 882 895 365 115 55 0 2805 Flight Savings/Reimb Loss/3,5 -67 -179 -108 508 304 403 0 861 NASA Budget Authority/6 492 882 1046 1187 637 697 0 4942 Ottlays/7 177 867 1040 1381 689 686 102 4742 -- ----- ---- Total Budget Authority 1055 1679 1970 1295 721 1039 373 813: Outlays 370 1763 1951 1691 818 972 566 813i -- Rotes: 1: Adjustments to programs based upon 12 month STS Standdovn, NASA adjustments include TDRSS Follov-on, Spartan, STS changes including reliability & quality assurance, Tracking and Data, Science and Application, and R&PM 2) Dual compatibility/payload integration, ELT's, launch facility aodifications and support 3) RASA/DOD reimbursables changes in negotiation 4) Anomaly Resolution/Corrective Actions, Replacement Orbiter, IDS ASE, and Replacement Structural Spares 5) Flight Savings due to reduced NASA Planned Flight Rates 6) Budget Authority amounts provided by agencies 7) Budget Outlay amounts provided by RASA 8) DOD Outlay amounts estimated r Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 moue' .315 23-Mar-E Option 38. Early 1987 Orbiter Buy vith Offloads (4/87 Start, 1/91 Delivery) DOD 1986 Current Year 688 1987 Budget Year 1988 1989 1990 1991 ITC Total Ail Years Program Adjustments/1 1 52 106 45 24 30 0 258 LauAch Re:ovary Flan/2 561 745 81q 694 421 465 373 4077 BIS Eembarsable Credits/3 0 0 0 -631 -361 -153 0 -1145 KT) B7:dge: Autt,uity/6 562 797 924 108 84 342 373 3189 Outlays/8 193 896 911 310 129 286 464 NASA Erc,grar Adpistmeas/1 67 179 259 314 218 239 0 1:76 Replacement Items/4 426 250 765 830 575 180 0 3026 Flight Savings/Reimb Loss/3,5 -67 -179 -122 415 89 255 0 391 ?!- NASA Badge: Autbority/6 426 250 902 1559 882 674 0 4693 Outlays/7 117 304 899 1582 960 713 118 4693 Total Budget Authority 988 1047 1826 1667 966 1016 373 7882 Outlays 310 1200 1810 1892 1089 999 582 7882 Notes: 1) Adjustments to programs based upon 12 month STS Standdovn, NASA adjustments include TDRSS Follov-on, Spartan, STS changes including reliability & quality assurance. Tracking and Data, Science and Application, and RUM 2) Dual compatibility/payload integration, ELV's, launch facility modifications and support 3) NASA/DOD reimturcables changes in negotiation 4) Anomaly Resolution/Corrective Actions, Replacement Orbiter, IDS ASE, and Replacement Structural Spares 5) Flight Savings due to reduced NASA Planned Flight Rates 6) Budget Authority amounts provided by agencies 7) Budget Outlay amounts provided by NASA 8) DOD Outlay amounts estimated Declassified in Part - Sanitized Copy Approved for Release 2014/01/03 : CIA-RDP92B00181R001501430001-6 I Al.r 01 I#k wr 7 I " IS Al I I DT' 3 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 I. Grit; ; I akig.,4 Csjitc;17/0/mgril S7 3 ?falef;e, 44) ST b. Eas C?????. ELlis sik Fftt.koks-rea Tot 7.111y4 - Tolst 64041 -Aigivag-K--44w-igr" 414- Z . Bae4 Aell Fly4 ?fiv.,14^: FY MP 89 (c14044,444) 14:1461-ki: Fy - (emmk 444) (..See.. farof.Ls -3,4' -3sA 97 1V-41 z2F7 I - o/.-s-7 3 Agrdx4,74 C40) F r 16 PY $,ocia IL Sk?r, Arme,erri 414 r 34 90kv 06'3 z3-18. 3 4 81 SA.L'Actl;fil 798 -280 947 WS 33t9 3b4 smws- funems I ..JoGicr Armer-t ex>74...45, MSC I SI Col, 71e3 15.Pi som ?I 3 1 Cxxftcr.i5a os,e-r ( ilinvegn-i iO4-1 two 9SS 3( 534i (c31 7,o? 4, c4.?,1,. ay 16$414417 E*4444...sia *V 0 YE'S VES Yet Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181. 1R001501430001-6 I I I Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 &CAPE Z.C. d. OPTION ONE CU MULATIVE SACO:LOGS 90 ....? 00 70 80 ..-Ae.'......-"e'e.-- ....'" 50 40 .7 A / 30 4 e B 9I .1 --a 20 ""a"...". 10 . O. . . . . . . . as 87 158 OPTI MIST C RATIE2 Vol( i.e. 3. 90 90 70 290 50 5 40 a0 20 10 59 *0 1 92 FISCAL YEAR CONSERVAIIVE RATES 93 OPTION THREE-A CU MULATIVE 9AC)2.00S *4 95 86 87 88 OPTI MISIIC RAT= 89 90 *1 *2 93 PISCAL YEAR CONSERVAIIVE RATES 94 Parts Z.e-2. 100 90 50 70 90 50 40 30 20 10 OPTION TWO CUMULATIVE IIACIP3-00S 7/.7 as 87 88 0 OPT bms-nc AT ta Pear, X.C. ? 2 In 1 89 *0 *1 92 PISCAL YEAR 4. CONSERVATIVE MT= 93 94 9 OPTION THREE-S CU MULATTVE BACKLOGS _ 90 SD ? 70 50 50 4 t I 40 ...'..1. 3:I ..-.'"'. ..."- ......11.,.. 0 ? ? ? 1 1 ? ? ? 87 OPTIMISTIC RATES 59 90 *1 92 FISCAL YEAR 4 CONSERVATIVE RAMS 93 114 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 95 Declassified in Part- Sanitized Copy Approved for Release 2014/01/03: CIA-RDP92B00181R001501430001-6 CUMULATNE STE', FUGHTS 1 riD 90 70 60 50 40 20 I'D 0 OPTION 1 1 OD a:i 70 50 50 40 3D 20 I'D OPT1ON 1 NASA PLANNED FLIGHT RATES CU MU...AWE BACKLOGS 0 a D 0 ...e._?, _a ----' a. ----dacm:z.--4--____4 ?....- , . .," v.....,.... - ... , '-