SOVIET MILITARY POWER

Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 CuMIREX FILE COPY sovlET MILITARY POWER 1984 Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 SOVIET 1WII]LI~CARY p~~ER First Edition Second Edition Third Edition September 1981 March 1983 April 1984 For sale by the Superintendent of Documents, US Government Printing Office, Washington, DC 20402 Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 ? soviET MILITARY POWER 1984 The United States Government has not recognized the incorporation of Estonia, Latvia and Lithuania into the Soviet Union. Other boundary representations on the maps in Soviet Military Power 1984 are not necessarily authoritative. The illustrations of Soviet weapons systems introducing each chapter and elsewhere are derived from various US sources; while not precise in every detail, they are as authentic as possible. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 CONTENTS Chapter I The Soviet Military Establishment Chapter II 19 Forces for Global Warfare Chapter III 49 Theater Forces Chapter IV 77 Sustainability, Readiness and Mobility Chapter V 89 Soviet Military-Industrial Complex Chapter VI Research and Development Chapter VII The Global Challenge 103 113 Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 PREFACE "I made two promises to the American people about peace and security: I promised to restore our neglected defenses in order to strengthen and preserve the peace, and I promised to pursue reliable agreements to reduce nuclear weapons. Both these promises are being kept." Ronald Reagan March 1983 For almost 40 years, the United States has remained steadfastly commit- ted to deterrence and arms reductions. As we enter the mid-1980s, our dual goals are to enhance the strategic stability contributing to the security of the United States and our Allies and to obtain genuine and verifiable reductions to equal levels in nuclear weapons so as to lessen the risk of a war that neither side could win. In pursuing these goals, we must continue to assess the threat posed by the growing size and capabilities of the Soviet Union's Armed Forces. That assessment reveals: ? The USSR has greatly increased its offensive military capability and has significantly enhanced its ability to conduct military operations worldwide. ? The Soviet build-up is made possible by a national policy that has con- sistentlymade military materiel production its highest economic priority. Underlying Soviet military power is a vast and complex industrial, mobili- zation and logistics support system designed to focus the resources of the Soviet State on the capability to wage war. For decades, Soviet industry has manufactured a broad spectrum of weaponry and military support equip- ment in staggering quantities-production levels achieved by extremely large investments of money, raw materials and manpower. Moreover, the Soviet leadership places the highest priority on the utilization of science and technology for military purposes, and this, together with exploitation of Western technology, has sharply eroded the qualitative edge that the West had used to balance the Soviet lead in numbers of weapons and men. The Soviet Union has in place a national mobilization system that penetrates every sector of Soviet life. This includes a logistics system designed to draw upon all classes of consumable supplies and war reserve equipment available in the USSR, as well as transport, repair and con- struction units. It includes a manpower pool to augment the active-duty Armed Forces and to replace losses. The Soviets have undertaken extensive logistics preparations both in designated theaters of military operations throughout the Soviet Union and beyond Soviet borders. In Eastern Europe, the Western USSR and the Sovi- et Far East, priority has been given to prestocking critical ammunition and Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 military fuel stocks. In Eastern Europe, Soviet logistics depots contain not only fuel and ammunition but also a great tonnage of military river-crossing equipment and tactical oil pipeline for which there can be no defensive justification. Soviet Military Power 1984 provides a detailed report on the structure of the Soviet military and its pervasive role, as assigned by the Soviet leadership, in Soviet society-and how that translates directly into the increasing threat posed by the USSR's Armed Forces. Building on the data provided in the First and Second Editions. Soviet Military Yower 1984 examines key developments in the continuing upgrade ~f the USSR's Armed Forces. ? Modernization of the fourth-generation SS-18 and SS-19 ICBMs nears an end, while the USSR proceeds with the testing of the fifth-generation SS-X- 24 and SS-X-25 ICBMs. There are no security requirements fcrr the develop- ment of so large a quantity of strategic nuclear offensive weapons. ? '1"he 25,000-ton TYPHOON-Class strategic ballistic missile submarine, which in 1983 was conducting test firings of its SS-N-20 missiles, is now ful- ly operational. And now, another new SLBM, the SS-NX-23, is being tested. ? The Soviet Union has three long-range, land-attack nuclear-armed cruise missiles nearly deployed-the sea-launched SS-NX-21, the aircraft-launched AS-X-15 and the ground-launched SSC-X-4-and it is pressing ahead with the development of more advanced strategic cruise missiles. ? The Soviets now have three manned strategic bombers in development or production. In addition to the new BLACKJACK long-range strategic bomber and the BACKFIRE bomber, the USSR has reopened production lines for the BEAR bomber and is producing a new BEAR H variant assess- ed to be the initial carrier for the AS-X-15 cruise missile. ? The Soviets have continued to field additional mobile SS-20 launchers, each with athree-warhead missile and reload. In 1981, Soviet Military Power reported 2501aunchers; in 1983, the total had risen to 3301aunchers and now the total is 378 launchers. Construction of new SS-20 facilities in the West- ern USSR has resumed, even though 243 SS-20 missiles with 729 warheads and an equal number for refire are already in place opposite NATO. ? New MiG-29/FULCRUM twin-engine fighter interceptors are now being introduced into Soviet air forces, greatly increasing offensive air capabili- ties. Additionally, the Su-27/FLANKER is nearing deployment. ? Fast-paced development continues in the Soviet space shuttle program, which will further increase the flexibility and capability of the USSR's essentially military manned and unmanned space systems. ? The USSR continues a great investment in strategic and tactical defenses-with across-the-board upgrading of Soviet air, sea, land and missile defense forces. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 This report documents the continuing Soviet buildup. To cite an addition- al example-1983 saw the launching of two new classes of nuclear attack submarines, increasing to eight the total number of classes of Soviet subma- rines now in production and contributing to an increasingly capable subma- rine fleet now nearing 400 units. Soviet Military Power 1984 includes NATO-Warsaw Pact comparisons and data on US and Allied forces to place Soviet force developments in clear perspective. It is useful to remind ourselves that the United States, as a democracy, regularly makes available full and public reports on US force developments in such publications as my Annual .Report and the Military Posture by the Organization of the Joint Chiefs of Staff. The USSR makes no such reports available on Soviet Forces. WF; clo see, however, how they are using those forces. The shooting down of the Korean civilian airliner, with the loss of 2f9 innocent lives, reminds us of the USSR's willingness to use military force, The store of Soviet weapons discovered in Grenada reminds us of the USSR's willingness to extend its military influence. There are other reminders. Since invading Afghanistan 4 years ago, the USSR has established bases within striking distance of the Persian Gulf oil fields. The Soviets continue to deliver a growing arsenal of weapons to Syria, Libya, Cuba and Nicaragua. Since 1980, the number of Soviet personnel in Syria has grown from 2,000 to 7,000; and now, the Soviet military presence there is underscored by the appearance of well-equipped air defense units. The USSft's Cuban proxies in Angola and Ethiopia, and Soviet support to Vietnamese forces in Kampuchea, further dramatize grow- ing Soviet military involvement throughout the world. A full and clear appreciation of the threat we face provides the basis and the rationale for our defense program-a program designed to maintain our course on the two parallel paths to peace. The Soviets have not made that easy for us. Deterrence, so essential to our survival, will remain a difficult strategy. Indeed, it is a paradox of deterrence that the longer it succeeds the less necessary it appears. In arms negotiations, the USSR will repeatedly test our resolve before responding constructively. The United States and its Allies have made progress toward restoring the military balance. We can achieve our twin goals. But to succeed, we must sustain not only our unity of purpose as a nation, but also our determination to complete the task we have begun-to restore the strength necessary to maintain peace with freedom. , ~' ;~ /~ ,? ~ /' `l Caspar W. Weinberger April 1984 Secretary of Defense Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 _ Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 Chapter I The Soviet Military Establishment The role played by the Communist Party of the Soviet Union (CPSU) is central to the op- erations of the Soviet military establishment and to the continuing growth and moderniza- tion of Soviet military power. The CPSU con- trols military concepts, resources and senior personnel. The top Party leadership estab- lishes military doctrine and approves Soviet military strategy. The Defense Council, dom- inated by the Party leadership, controls the defense budget and. makes the decisions to de- velop and deploy all major weapon systems. Senior officers are selected from a Central Committee list, and all major organizational changes in the Soviet military are approved by the Defense Council. Compliance with Party control of the Soviet military establishment is exercised by the. Central Committee's uni- formed political officers through the regular Party organization in the Armed Forces. Military Command Structure The CPSU General Secretary's chairman- ship of the Defense Council underscores the Party's dominance over the entire command structure of the Soviet Armed Forces. Offi- cially described by the Soviets as part of the government structure, the USSR Defense Council is, in reality, the senior and most critical Party decisionmaking body for all aspects of national security policy. In peace- time, its power over the Armed Forces is exer- cised directly through the Ministry of Defense and the Soviet General Staff. The Defense Council's authority covers virtually all major The SS-X-25 Intercontinental Ballistic Missile, one of two new fifth generation ICBMs being tested from the Plesetsk rangehead, is likely designed for mobile deployment increasing Soviet ICBM force survivability and further enhancing the capabili- ties of Soviet military power. Chapter I The Soviet Military Establishment Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 military issues. The Defense Council struc- ture~ encompasses the senior cadre of Soviet political, military and economic leadership, which, from the Soviet perspective, is an essential prerequisite for the rapid and effec- tive development of Soviet military power. The primary administrative organ of the pea{ HOTEL III 130m 6 Tubes SS-N?8+--~ YANKEE-Class YANKEE 1 130m 16 Tubes SS-N-6- YANKEE II 130m 12 Tubes SS?N?17 DELTA-Class DELTA 1 140m 12 Tubes SS-N-B- MOD 1 2 3 RV's 1 1 2 MRVs RANGE (KM) 2,400 3,000 3,000 SS-N-5s not shown. MOD 1 2 1 1 1 1 3 MIRVs 7,800 9,100 3,900 6,500 SS-N-20 SS-NX-23 MOD 2 3 In 1 7 MIRVs 6-9 flight 8,000 6,500 8,300 test of SSBNs Claea ~JII Ciaea ti Ji ~25m--1 F-t-3m~ ~yJJ Nuclear Ballistic Missile Submarines and Missiles METERS 15 _I 10 RV's US *~ :~n7~,OCEAN 3 OHIO`~~~.~r,~ US . ,-;31aAFAYETT "?-t~EN. FRAD modified versions of the SS-NX-23 and the SS-N-20. Both of these systems are likely to be more accurate than their predecessors. The Soviets emphasize redundant and time- ly command and control for their military forces, especially those for intercontinental attack. The Soviets may deploy an extremely POSEIDON SLBM C-3 10 4,000 8 7,400 fl~~ and ~?dn?4 SLBM Launcher and Reentry Vehicle (RVl ?eployment 1968-1984 s,ooo ~ ~ s,ooo TRIDENT SLBM C-4 u - -- --- o 1968 1670 19n 1974 1976 1678 1680 1982 1984 low frequency SELF) communications system that will enable them to contact the SSBNs under most operating conditions. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 DELTA lil SSBN, equipped with 16 M/RVed SS-N-18 SLBMs. Strategic Aviation Current Systems and Force Levels. Soviet strategic bombers and strike aircraft are con- trolled by the central Soviet leadership using five air armies as intermediate commands. These armies were established to place Soviet strategic aircraft on a footing in peacetime that would facilitate the transition to wartime. These armies are focused on potential conflict in Europe, Asia and the United States. Strategic aviation assets include some 170 BEAR and BISON bombers, 235 BACKFIRE bombers (including 105 BACKFIRE bombers in Soviet Naval Aviation-. The Soviets also COMBAT RADIUS IKMI 8,300 5,500 7,300 7,500 8,000 MAX SPEED (KTS) i"BISON, BADGER, BLINDER 500 1,100 , FB-ttta not shown. 1,200 795 58p Chapter II Forces for Global Warfare Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 have 455 medium-range BLINDER and BADGER bombers, 450 shorter-range FENC- ER strike aircraft and 530 tanker, reconnais- sance and electronic warfare aircraft. The Soviets have allocated these aircraft among the five air armies to provide support for specific theaters of military operations but also to assure the flexibility to reallocate air- craft as necessary during wartime. The inter- continental BEAR and BISON bombers are available for maritime and Eurasian mis- sions, and the BACKFIRE is clearly capable of use against the United States. This flex- ibility allows the Soviets to focus their strategic air assets as circumstances dictate. The Soviets have taken recent steps that indicate greatly increased interest in the long- (4~S and S?~IL1T Intercontinental- Capable Bombars' Inventory 500 , Inventory r~ USSR (excluding aircraft assigned to Naval Aviation) o?~ 0 of ~ '? 1979 1980 1981 1982 1983 1984 Year US data include B-52 , FB-111a ;Soviet data include BEAR, BISON and BACKFIRE. range strategic bomber. An entirely new vari- ant of the BEAR bomber (BEAR H~, probably designed to carry long-range cruise missiles, is now in production-the first new produc- tion of a strike version of the BEAR airframe in over 15 years. In addition, older BEAR air- to-surface missile (ASM) carrying aircraft are being reconfigured to carry the newer, super- BLACKJACK and BACKFIRE Coverage from Soviet Bases (2-~IVay Missions) sonic AS-4 ASM in place of subsonic AS-3s. Several of these reconfigurations (BEAR G) have been completed. With the new BEAR H in series production, the decline in the inven- tory of BEAR and BISON aircraft character- istic of recent years has been reversed. The Soviets today have more bombers operational than just a few years ago. The BACKFIRE is the most modern opera- tional Soviet bomber. The Soviets continue to produce the aircraft at a rate of about 30 per year; this production rate is likely to be main- tained at least through the end of the decade. The original design has been modified several times and further modifications are likely to be made to upgrade aircraft performance. The BACKFIRE is a long-range aircraft capable of performing nuclear strike, conventional at- tack, anti-ship and reconnaissance missions. Its low-level penetration features make it a more survivable system than its predeces- sors. The BACKFIRE has sufficient range/ radius capabilities for it to be employed effec- tively against the contiguous United States on high-altitude subsonic missions. Its low-alti- tude supersonic dash capabilities make it a formidable weapon in support of military op- erations in Europe and Asia as well. The Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 BACKFIRE can be equipped with a probe to permit inflight refueling; this would further increase its range and radius capabilities. The Soviets have some FENCER strike air- craft assigned to strategic aviation. The FENCER is a supersonic, variable-geometry, all-weather fighter-bomber that first reached operational status in 1974. Three variants have been developed, the most recent intro- duced in 1981. The aircraft is still in produc- tion, and the number assigned to strategic aviation is likely to increase by 50 percent over the next few years. Force Developments. The new Soviet long- range bomber-the BLACKJACK-is still in the flight-test stage of development. The The Tupo/ev BACKFIRE supersonic bomber is designed to carry the AS-0 KITCHEN air-to- surface missile mounted partially in its fuselage, left and at top. The BACKFIRE can also carry two wing-mounted AS-4s on the pylons visible in the photograph at top. BLACKJACK is larger than the US B-1B, probably will be somewhat faster and may have about the same combat radius. This new bomber could reach operational status in 1987. The BLACKJACK will be capable of carrying cruise missiles, bombs or a combina- tion of both. It probably will first replace the much less capable BISON bomber and then the BEAR A bomber. A new aerial-refueling tanker aircraft, based on the I1-76/ CANDID, has been under devel- opment for several years. When deployed in the near future, the new tanker will support tactical and strategic aircraft and significant- ly improve the ability of Soviet aircraft to conduct longer-range operations. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 ? ~ ~~ ~"~' The VICTOR 111 attack submarine could carry the SS-NX-21 cruise missile. METERS 15 Long-Range Cruise Missiles ~~~~ RANGE IKM1 3,000 3,000 3,000 " In development Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 Long-Range Cruise Missiles Force Developments. The Soviets are devel- oping five new, long-range cruise missile sys- tems. Three of these are variants of a small subsonic, low-altitude cruise missile similar in design to the US TOMAHAWK. These vari- ants have a range of about 3,000 kilometers. The two others are variants of a larger system probably designed for long-range operations. This system has no US counterpart. The three smaller cruise missiles are being developed for launch from sea-, ground- and air-based platforms respectively. The sea- based variant, the SS-NX-21, is small enough to be fired from standard Soviet torpedo tubes. Candidate launch platforms for the SS- NX-21 include: the existing VICTOR III SSN, a new YANKEE-Class SSN, the new MIKE- Class SSN (possibly afollow-on to the ALFA- Class high-speed, deep-diving SSN) and the new SIERRA-Class SSN (possibly afollow-on to the VICTOR III. The SS-NX-21 probably will become operational this year. SS-NX-21s carried by submarines could be deployed near US coasts. The ground-based SSC-X-4 variant of the small cruise missile may not be ready for op- erational deployment until about 1985. Its range and the likelihood that the Soviets will not deploy the system outside the USSR in- dicate that its mission will be in support of theater operations. The system will be mobile and probably follow operational proce- dureslike those of the SS-20 LRINF missile. The air-launched version of this cruise mis- sile-the AS-X-15-could reach initial opera- tional status this year on the new BEAR H ALCM carrier aircraft. The system could also be deployed on BLACKJACK bombers when that aircraft reaches operational status. The combination of the AS-X-15 and the new BEAR H and BLACKJACK bombers will in- crease Soviet strategic intercontinental air power in the late 1980x. The larger cruise missile, which has not yet been designated, will have sea- and ground- based variants. Both the sea- and ground- based versions could be operational within the next 2 years. When first deployed, each of these five cruise missiles will be fitted with nuclear war- heads and capable of threatening hardened targets. Depending on future munitions devel- opments and the types of guidance systems incorporated in their designs, they could even- tually be accurate enough to permit the use of conventional warheads. With such warheads, highly accurate cruise missiles would pose a significant non-nuclear threat to US and NATO airfields and nuclear weapons in a non- nuclearconflict. US Strategic Forces By mid-1984, US strategic deterrent forces will consist of: ? 1,000 MINUTEMAN ICBMs, ? 33 TITAN ICBMs, ? 241 B-52G/H model bombers, plus about 23 aircraft undergoing mainte- nance and modification, ? 56 FB-111 bombers, plus some five aircraft undergoing maintenance and modification, ? 496 POSEIDON (C-3 and C-4) fleet ballistic launchers, and ? 120 TRIDENT fleet ballistic launchers. The historic and continuing objective of US strategic forces is deterrence of nuclear and major conventional aggression against the United States and its Allies. This policy has preserved nuclear peace for over 38 years and, in sharp contrast to the Soviet priority ac- corded nuclear warfighting, is based on the conviction of all postwar American adminis- trations that there could be no winners in a nuclear conflict. Rather, US deterrence policy seeks to maintain the situation where any po- tential aggressor sees little to gain and much to lose in initiating hostilities against the United States or its Allies. In turn, the main- tenance of peace through nuclear deterrence provides the vital opportunity to realize a complementary and constant US goal of elimi- nating nuclear weapons from the arsenals of all states. To realize these deterrence objectives re- quires the development, deployment and maintenance of strategic forces whose size and characteristics clearly indicate to an op- ponent that he cannot achieve his politico-mil- itary objectives either through employment of nuclear weapons or through political coercion based on nuclear advantages. Despite these pressing military requirements, the 1970s saw the United States exhibit restraint in modern- izing its strategic forces. This was done to promote what was hoped to be significant pro- gress in SALT negotiations. As a result, the United States did not introduce any new Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 ICBMs, SLBMs, SSBN classes or heavy stra- tegic bombers in the 1972 to 1978 period. The United States did introduce the Short-Range Attack Missile (SRAM) to assist strategic bombers in penetrating the extensive and growing Soviet air defenses. A limited num- ber, 66, of FB-111 shorter-range bombers were also deployed in the 1969-70 period. These de- velopments were required to maintain the effectiveness of our bomber force in response to the Soviet air defense improvements. The result of the asymmetry in US and Sovi- et modernization programs has been to erode the perception of US deterrent capability, and its continuation could weaken US ability to maintain peace. To preclude such a possibil- ity, to restore the real and perceived deterrent capability of the United States and to resolve the problems associated with aging US forces, the President has initiated and the Congress has supported a comprehensive and inte- grated strategic modernization program. This program includes: ? deployment of more survivable and effective command, control and com- munications systems, ? development of the new TRIDENT- II submarine-launched ballistic missile and continued procurement of TRI- DENT-Class submarines, ? procurement of 100 B-1B bombers in the near-term and deployment of the Advanced Technology Bomber for the 1990s, ? modernization of selected B-52 bombers and introduction of air- launched cruise missiles into the force, ? deployment of 100 new PEACE- KEEPER (MX) land-based missiles in MINUTEMAN silos beginning in 1986, and ? development of a new, small, single- warhead ICBM. Strategic Defense Strategic defenses are vital to the overall Soviet strategy for nuclear war. As noted above, the operations of Soviet defensive and attack forces are closely coupled; attack stra- tegies are geared in large part to the reduction of the defensive burden. In the Soviet concept of a layered defense, effectiveness is achieved through multiple types of defensive capabili- ties compensating for shortcomings in indi- vidual systems and for the likelihood that neither offensive strikes nor any one layer of defense will stop all attacking weapons. The Soviets have made major improvements in their deployed strategic defenses and have in- vested heavily in ABM-related development. Early Warning Current Systems and Force Levels. The Sovi- ets maintain the world's most extensive early warning system for both ballistic missile and air defense. Their operational ballistic missile early-warning system includes a launch detec- tion satellite network, over-the-horizon radars and a series of large phased-array radars lo- cated primarily on the periphery of the USSR. Their early-warning air surveillance system is composed of an extensive network of ground- based radars linked operationally with those of their Warsaw Pact Allies. The current Soviet launch detection satel- lite network is capable of providing about 30 minutes warning of any US ICBM launch, and of determining the area from which it orig- inated. The two over-the-horizon radars the Soviets have directed at the US ICBM fields also could provide them with 30 minutes war- ning of an ICBM strike launched from the United States, but with somewhat less preci- sion than the satellite network. Working together, these two early-warning systems can provide more reliable warning than either working alone. The next layer of operational ballistic mis- sile early warning consists of 11 large HEN HOUSE detection and tracking radars at six locations on the periphery of the USSR. These radars can distinguish the size of an attack, confirm the warning from the satellite and over-the-horizon radar systems and provide some target-tracking data in support of ABM deployments. Current Soviet air surveillance radar de- ployments include more than 7,000 radars of various types located at about 1,200 sites. These deployments provide virtually com- plete coverage at medium to high altitudes over the USSR and in some areas extends hundreds of kilometers beyond the borders. Limited coverage against low-altitude targets is concentrated in the western USSR and in high-priority areas elsewhere. Since 1983, the Soviets have begun to deploy two new air sur- veillance radars. These radars assist in the early warning of cruise missile and bomber at- Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 tacks and enhance air defense electronic war- fare capabilities. Force Developments. Since last year, an additional new large phased-array radar for ballistic missile early warning and target- tracking has been discovered under construc- tion in Siberia. This brings to six the number of such radars operational or under construc- tion in the USSR. This new radar closes the final gap in the combined HEN HOUSE and new large-phased array radar early-warning Coverage of Ballistic Missile Detection and Tracking Systems Launch detection satellites Over?the-horizon radars Hen House radars New phased?array radars under construction Moscow ABM radars and tracking network. Together, this radar and the five others like it form an arc of coverage from the Kola Peninsula in the northwest, around Siberia, to the Caucasus in the southwest. HEN HOUSE coverage com- pletes the circle. The newly identified radar almost certainly violates the 1972 ABM Trea- ty in that it is not located on the periphery of the Soviet Union nor is it pointed outward as required by the Treaty. The complete network of these radars, which could provide target tracking data for ABM deployments beyond Moscow, probably will be operational by the late 1980s. The Soviets may establish a network of sat- ellites in geostationary orbit designed to pro- vide timely indications of SLBM launches. Such a network could be operational by the end of the decade. The USSR has a strong research and devel- opment program to produce new early warn- ing and other air surveillance radars, as well as to improve existing systems. More than 20 types of these radars are currently in devel- opment. In addition, the Soviets are con- tinuing to deploy improved air surveillance data systems that can rapidly pass data from outlying radars through the air surveillance network to ground-controlled intercept sites and SAM command posts. These systems will continue to be deployed until all areas are equipped with them. Ballistic Missile Defense Current Systems and Force Levels. The So- viets maintain around Moscow the world's only operational ABM system. This system is intended to afford a layer of defense for Sovi- et civil and military command authorities in the Moscow environs during a nuclear war rather than blanket protection for the city it- self. Since 1980, the Soviets have been up- grading and expanding this system within the limits of the 1972 ABM Treaty. The original single-layer Moscow ABM sys- tem included 64 reloadable above-ground launchers at four complexes for the GALOSH ABM-1B, six TRY ADD guidance and engage- ment radars at each complex and the DOG HOUSE and CAT HOUSE target-tracking ra- dars south of Moscow. The Soviets are up- grading this system to the 100 launchers permitted under the Treaty. When completed, the new system will be a two-layer defense composed of silo-based long-range modified GALOSH interceptors designed to engage tar- gets outside the atmosphere; silo-based high- acceleration interceptors designed to engage targets within the atmosphere; associated en- gagement and guidance radars; and a new large radar at Pushkino designed to control ABM engagements. The silo-based launchers may be reloadable. The new Moscow defenses are likely to reach fully operational status in the late 1980s. Force Developments. The USSR has an im- proving potential for large-scale deployment of modernized ABM defenses well beyond the 100-launcher ABM Treaty limits. Widespread Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 The receiver and transmitter of the large phased-array, early-warning and ballistic missile target- tracking radar at Pechora. An identical radar in the Central USSR almost certainly violates the 1972 ABM Treaty. ABM deployment to protect important target areas in the USSR could be accomplished within the next 10 years. The Soviets have de- veloped arapidly deployable ABM system for which sites could be built in months instead of years. A typical site would consist of engage- ment radars, guidance radars, above-ground launchers and the high-acceleration intercep- tor. The new, large phased-array radars under construction in the USSR along with the HEN HOUSE, DOG HOUSE, CAT HOUSE and possibly the Pushkino radars appear to be de- signed to provide support for such a wide- spread ABM defense system. The Soviets seem to have placed themselves in a position to field relatively quickly a nationwide ABM system should they decide to do so. In addition, the Soviets are deploying one surface-to-air missile system, the SA-10, and are flight-testing another, the mobile SA-X-12. The SA-X-12 is both a tactical SAM and anti- tactical ballistic missile. Both the SA-10 and SA-X-12 may have the potential to intercept some types of US strategic ballistic missiles as well. These systems could, if properly sup- ported, add significant point-target coverage to awide-spread ABM deployment. Soviet-directed energy development pro- grams involve future ABM as well as anti- satellite and air-defense weapons concepts. By the late 1980s, the Soviets could have pro- totypes for ground-based lasers for ballistic missile defense. The many difficulties in fielding an operational system will require much development time, and initial opera- tional deployment is not likely in this century. Ground- and space-based particle beam weapons for ballistic missile defense will be more difficult to develop than lasers. Never- theless, the Soviets have a vigorous program underway for particle beam development and could have a prototype space-based system ready for testing in the late 1990s. Antisatellite Systems Current Systems and Force Levels. Since 1971, the Soviets have had the capability to attack satellites in near-earth orbit with a ground-based orbital interceptor. Using a radar sensor and apellet-type warhead, the in- terceptor can attack a target in various orbits during its first two revolutions. An intercept during the first orbit would reduce the time available for a target satellite to take evasive action. The interceptor can reach targets or- biting at more than 5,000 kilometers, but it probably is intended for high priority satel- lites at lower altitudes. The antisatellite inter- ceptor is launched from Tyuratam where two launch pads and storage space for additional Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 GALOSH anti-ballistic missile interceptors fitted on 64 surface launchers around Moscow, above left are being replaced by silo-based exoatmospheric and endoatmosphe-ic ABMs, shown du-ing launch sequence at bottom. interceptors and launch vehicles are avail- able. Several interceptors could be launched each day from each of the pads. In addition to the orbital interceptor, the Soviets have two ground-based test lasers that could be used against satellites. The Soviets also have the technological capability to conduct electronic warfare against space systems. Force Developments. Emerging directed energy technologies are seen by the Soviets as offering greater promise for future anti- satellite application than further development of orbital interceptors equipped with conven- tional warheads. The Soviets could deploy an- tisatellite lasers to several ground sites in the next 10 years or they could deploy laser- Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 This directed-energy RFtD site at the Sary Shagan proving ground in the central USSR could provide some anti-satellite capabilities today and possibly ABM prototype testing in the future. equipped satellites either available for launch on command or maintained in orbit, or could deploy both. Such systems would have signif- icant advantages over a conventional orbital interceptor. These include longer-range, multi- shot capabilities and a greater capacity to overcome the target's defensive measures. The Soviets could test a prototype laser antisatellite weapon as soon as the late 1980x. Initial operational capability could be achiev- ed between the early- and mid-1990s. Since the early 1970s, the Soviets have had a research program to explore the technical feasibility of a particle beam weapon in space. A prototype space-based particle beam weap- on intended only to disrupt satellite electronic equipment could be tested in the early 1990s. One designed to destroy the satellites could be tested in space in the mid-1990x. Air Defense Current Systems and Force Levels. The So- viets have deployed massive strategic air de- fense forces that currently have excellent .,.capabilities against aircraft flying at medium and high altitudes but much less capability against low-flying aircraft and cruise mis- siles. Soviet air defenses, however, are in the initial stages of a major overhaul geared en- tirely to fielding an integrated air defense system much more capable of low-altitude op- erations. This overhaul includes the partial integration of strategic and tactical air de- fenses; the upgrading of early-warning and air surveillance capabilities; the deployment of more efficient data transmission systems; and the development and initial deployment of Interceptor aircraft bases Strategic SAM concentrations- `'~'" new aircraft, associated air-to-air missiles, surface-to-air missiles and an airborne warn- ing and control system (AWACS). Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 MiG-25/FOXBAT E Interceptor. Currently, the Soviets have some 1,200 air defense interceptors and nearly 10,000 SAM launchers at over 900 sites dedicated to stra- tegic territorial air defense. An additional 2,000 interceptors and some 1,800 tactical SAMs are deployed within the USSR's bor- ders and could be made available for terri- torial defense. Older FOXBAT aircraft are being upgraded to the FOXBAT E configuration giving them somewhat better look-down radar capabili- ties. More importantly, however, the new MiG-31/FOXHOUND interceptor, the first true look-down/shoot-down-capable aircraft in the Soviet inventory, is being introduced. The FOXHOUND aircraft is comparable in size to the US F-14. Over 50 of these aircraft are now operational. The new multiple altitude SA-10 SAM, first deployed in 1980, is now operational at some 40 sites with nearly 350 launchers and four SA-lOs per launcher. In addition, SA-5 de- ployment continues at a very slow pace within the USSR. The most significant SA-5 deploy- ments have occurred outside the USSR in Eastern Europe, Mongolia and Syria. Force Developments. Virtually all of the So- viet air defense development programs now underway are geared to overcoming a long- standing vulnerability to low-altitude air attack. Two new fighter interceptors-the Su- 27/FLANKER and the MiG-29/FULCRUM- have true look-down/shoot-down capabilities. The FULCRUM is a single-seat, twin engine fighter similar in size to the US F-16. It was first deployed earlier this year. The FLANK- ER is larger than the FULCRUM and is about the same size as the US F-15. It, too, :is a Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 METERS SA-1 12 n A RANGE IKMI 50 SA-10 SA-X?12 SA?11 n ~ I .EFFECTIVE LOW-TO- MEDIUM- MEDIUM- LOWTO- ALTITUDE MEDIUM MEDIUM MEDIUM TO-HIGH TO-HIGH MEDIUM METERS 75 0 RANGEIKMI EFFECTIVE ALTITUDE NIKE HERCULES LOW-TO- LOW-TO- LOW-TO- LOW LOW HIGH MEDIUM HIGH LOW IMPROVED HAWK MEDIUM-TO- HIGH single-seat, twin-engine fighter, and it could be operationally deployed this year or next. Both have been designed to be highly maneu- verable, air-to-air combat aircraft. These two aircraft and the FOXHOUND are likely to operate under certain circumstances with the new I1-76/MAINSTAY Airborne Warning and Control Systems (AWACS) air- craft. The MAINSTAY will substantially im- prove Soviet capabilities for early warning and air combat command and control. It will provide the Soviets with the capability over land and water to detect aircraft and cruise missile targets flying at low altitudes. The MAINSTAY could be used to help direct fighter operations over European and Asian battlefields and to enhance air surveillance and defense of the USSR. Four of these air- crafthave been built. The MAINSTAY should be operational this year; an annual production rate of about five aircraft is likely. The three new Soviet fighter-interceptors are equipped with two new air-to-air mis- siles-the AA-9 designed for the FOXHOUND and the AA-X-10 designed for the FULCRUM and the FLANKER. The AA-9 is a long-range missile that can be used against low-flying air- craft; the AA-X-10 is a medium-range missile with similar capabilities. In keeping with their drive toward mobility as a means of weapons survival, the Soviets are developing a mobile version of the SA-10 SAM. This mobile version could be used to support Soviet theater forces, but, perhaps more importantly, if deployed with the terri- torial defense forces, it would allow the Sovi- ets to change the location of those SA-lOs in the USSR. The mobile SA-10 could be opera- tional by 1985. The Soviets have efforts underway to devel- op at least three types of high-energy laser weapons for air defense. These include lasers intended for defense of high-value strategic targets in the USSR, those for point defense of CHAPARRAL Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 ?~G~ Air Defense Interceptor Aircraft Tu-128 FIDDLER B MiG?29 MiG-31 ' YaK-28 MiG-23 FULCRUM .FOXHOUND FIREBAR.. FLOGGER B/G SPEEDIKTS) RADIUS (KM- ARMAMENT WINGSPAN (MI 1,82,5 1,200 1,350 950 1,080 1,350 1,350 1,375 1,450 1,000 1,150 1,250 900 1,300 800 1,500 4 AAMs 2 AAMs 8 AAMs 4 AAMs 2 AAMs B AAMs 6 AAMs 8 AAMs 14 9 14 18 12 8lswept) 12 14 Air Defense Interceptor Aircraft r. _-..0-..:-._:-- F-706A DELTA DART SPEED (KTS) 1,150 i RADIUS IKMI 925 I ARMAMENT 5 AAMs WINGSPAN (MI 12 ships at sea and theater-forces air defense. Following past practice, the Soviets are likely to deploy air-defense lasers to complement rather than replace interceptors and SAMs. The territorial-defense laser is probably in at least the prototype stage of development and could be operational between the mid- to-late 1980s. It most likely will be deployed in con- junction with SAMs in a point defense role. Since the two systems would have different attributes and vulnerabilities, they would pro- vide mutual support. The shipborne lasers probably will not be operational until after the end of the decade. The theater-force lasers may be operational sometime sooner and are likely to be capable of structurally damaging aircraft at close ranges and producing electro- optical and eye damage at greater distances. In addition, the Soviets have underway a de- velopment program for an airborne laser. As- suming a successful development effort, limited initial deployment could begin in the early 1990s. Such a laser platform could have Interceptor Aircraft Radar Capability F OU (LOGGER B FOXHOUND fULGRUM FLANKER FLOGGER 6 FLOGGER G FOXBAT E FRESCO FARMER FISHPOT FIREBAR FIDDLER (LOGGER B FLAGON FLOGGER G FOXBAT FoxiaaT E FIREBAR FIDDLER FLAGON FLAGON Range only radar Limited lookdown 1988 estimate True lookdown/ shootdown missions including antisatellite defense, pro- tection of high-value airborne assets and cruise-missile defense. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 Passive Defense Soviet passive defense preparations have been underway in earnest for some 30 years, and have, over time, expanded from the pro- tection of such vital entities as the national Party and government leadership and Armed Forces, to embrace the territorial leadership, national economy and general population. The Soviets regard passive defense as an es- sential ingredient of their overall military posture and their war planning. In conjunc- tion with active forces, the Soviets plan for their passive defense program to ensure the survival and wartime continuity of: ? Soviet leadership, ? military command and control, war-supporting industrial production and services, and ~ the essential workforce and protec- tion of as much of the general popula- tion as possible. As this program has expanded, elements of it have been designated by the Soviets as "civil defense." Use of this term in its normal West- ern context does not convey the full scope of Soviet Civil Defense. Extensive planning for the transition of the entire State and economy to a wartime pos- ture has been fundamental to Soviet passive defense preparations. The Soviet General Staff and Civil Defense officials have super- vised the development of special organiza- tions and procedures to implement quickly the transition to war and have emphasized the mobilization and protection of all national resources essential to the successful prosecu- tion of war and recovery. The senior Soviet military establishment has also supervised the 30-year program to construct hardened command posts and sur- vivable communications for key military com- manders and civilian managers at all levels of the Party and government. Likewise, protec- tive hardening, dispersal and wartime produc- tion plans for Soviet industry have all been coordinated with the wartime requirements of the military and supervised by Civil Defense personnel. The protection of the general popu- lation through evacuation procedures and ex- tensive sheltering in or near urban areas is the most visible aspect of the passive defense program. Soviet Civil Defense Management. These passive defense programs reflect the Soviet concept of the system in its wartime mode. The wartime management system would be a militarized system of national administration in which peacetime government bodies be- come Civil Defense components under direct military subordination. This would extend to Soviet territorial administration at all levels and to specialized functional components such as industrial, transport, power and com- munications ministries. Soviet authorities at all levels would serve as uniformed chiefs of Civil Defense and command their respective organizations in a military capacity. Soviet Civil Defense thus serves both as a vehicle to administer peacetime preparations and train- ing and as the infrastructure that would knit together civil and military bodies in their unified wartime management systems. Continuity of Leadership Functions. Soviet commanders and managers at all levels of the Party and government are provided hardened alternate command posts located well away Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 from urban centers. This comprehensive and redundant system, composed of more than 1,500 hardened facilities with special commu- nications, is patterned after similar capabili- ties afforded the Armed Forces. More than 175,000 key personnel throughout the system are believed to be equipped with such alter- nate facilities in addition to the many deep bunkers and blast shelters in Soviet cities. Stability of .the Wartime Economy. Soviet passive defense efforts include measures to maintain essential production and services even during a nuclear war. Elaborate plans have been set for the full mobilization of the national economy in support of the war effort and the conversion to wartime production. Re- serves of vital materials are maintained, many in hardened underground structures. Redundant industrial facilities have been built and are in active production. Industrial and other economic facilities have been equip- ped with blast shelters for the workforce, and detailed procedures have been developed for the relocation of selected plants and equip- ment. By ensuring the survival of essential workers, the Soviets intend to reconstitute vital production programs using those indus- trial components that can be redirected or salvaged after attack. North American Defense Forces US and Canadian interceptor forces assign- ed to the North American Aerospace Defense (NORAD) Command maintain continuous ground alert at sites around the periphery of the United States and Canada. Alert aircraft intercept and identify unknown intruders. In a crisis, the Air Force, Navy and Marine Corps would provide additional interceptors. Supported by AWACS aircraft, these forces could provide a limited defense against bomber attacks. To meet the increasing Soviet bomber and ALCM threats, US interceptor squadrons as- signed to NORAD are being equipped with newer, more advanced F-15 and F-16 aircraft. These modern fighters will provide alook- down/shoot-down capability to detect and engage enemy bombers penetrating at low al- titudes. The Canadians are upgrading their air defense forces with the CF-18. Joint US and Canadian programmed improvements to long-range surveillance include modern mi- crowave radars for the Distant Early Warning line and over-the-horizon back-scatter radars looking east, west and south. Soviet space-oriented military systems pose an unacceptable threat to the land, sea and air forces of the United States. Soviet satellites probably have the capability to support tar- geting of Soviet anti-ship cruise missiles launched against US surface ships. The US anti-satellite (ASAT) program, centering on the Air-Launched Miniature Vehicle, is part of our response to this and similar threats. At the same time, we are continuing to examine the potential basis for negotiating ASAT arms control agreements. Finally, the United States has called for a research program to explore the possibility of strengthening deterrence by taking advantage of recent advances in technology that could, in the long term, provide an effective defense against ballistic missiles. The effort focuses on existing research programs in five technol- ogy areas that offer the greatest promise. Given the extensive Soviet efforts in this area, the US program is a prudent and neces- sary hedge against the possibility of unilater- al Soviet deployment of an advanced system capable of effectively countering Western ballistic missiles. Such a unilateral Soviet deployment -added to the USSR's impres- sive air and passive defense capabilities - would jeopardize deterrence because the US would no longer be able to pose a credible threat of retaliation to a Soviet attack. Nuclear Stockpiles Since the first Soviet nuclear explosion on August 29, 1949, the Soviet stockpile of nu- clear warheads has grown steadily, primarily in the area of offensive weapons. In contrast, the US stockpile was one-third higher in 1967 than it is today. In addition, as a result of two landmark NATO decisions in 1979 and 1983, the nuclear stockpile in Europe will decline by one-third from its 19791eve1. The USSR's nuclear weapons program has shown diversity and sophistication. Today, Soviet nuclear warheads include a full spec- trum of fission and thermonuclear designs us- ing uranium, plutonium and tritium, with weapons yields up to multimegaton. The pre- ponderance of these weapons is assigned to strategic offensive forces. Because of MIRV- ing, the megatonnage in the Soviet arsenal leveled in the early seventies, and then began to drop. However, with the deployment of new Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 Soviet Military Power 1983 reported the development of a small Soviet space plane. Shown at left and above is the recovery of a scale model of that plane after orbit and splash-down in the Indian Ocean. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 A6ew MSS and ~c~nc~tt Space launch Vehicles HEAVY-LIFT LAUNCH VEHICLE MEDIUM-LIFT LAUNCH VEHICLE" HEAVY-LIFT LAUNCH VEHICLE" HEAVY-LIFT LAUNCH VEHICLE" LIFT-OFF WEIGHT IKGI 2,220,114 400,000 1,500,000 WITH 6 OR MORE STRAP-ON BOOSTERS LIFT-OFF THRUST IKGS- 6,925,000 1,300,000 4-6,000,000 8.9,000,000 PAYLOAD TO 180 KILOMETERS lKG1 95,000+ 15,000+ 95.000+ 150;000 nuclear weapons systems their stockpile meg- atonnagehas again started to rise. The Soviet nuclear energy and weapons development program and its associated in- dustrial base are characterized by a highly centralized control structure. The ministry controlling nuclear weapons development and production is in charge of all nuclear materi- als, reactors and weapons research and devel- opment (R&D) as well as production. Since the ministry controls virtually all facilities relat- ed to the nuclear industry, reactor utilization can be unilaterally altered to satisfy military requirements, regardless of the military or 130,000 Shuttle payload capacity) commercial nature of the particular reactor facility. Finally, during the past two decades, the number of workers and the amount of floor space of the Soviet nuclear weapons research and development facilities have exhibited constant growth. Manpower devoted to nu- clear R&D probably exceeds 30,000 employ- ees and is comprised of the best scientists, mathematicians, engineers and technicians Soviet academia can produce. Their R&D ef- forts are supported by an active nuclear test program conducted at the Novaya Zemlya and Semipalitinsk nuclear test sites. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 The Soviet Space Program Soviet Military Power 1983 outlined the ex- pansion into space of the Soviet quest for mili- tary superiority. During the ensuing year, the Soviets have made progress toward their dual military objectives of global support to mili- tary forces and denial of enemy employment of space during wartime. In addition, progress has been made toward the two other key objec- tives of enhancing the influence and prestige of the USSR and contributing to the Soviet economy. There has been no change in the heavy Soviet emphasis on the military appli- cations of space, reflecting their view, noted as early as two decades ago in the classified Soviet military publication, Military Thought, that "the mastering of space [is] a prerequi- sitefor achieving victory in war." Since last year, the Soviet developmental ~ programs for providing a family of new space launch vehicles and reusable spacecraft suit- able for military and civil purposes have come into sharper focus. Significant new launch and support facilities at Tyuratam are near- ingcompletion. Some of these should be ready this year or next to support initial testing of new launch vehicles. These vehicles include a space transportation system (STS, that in many respects copies the design of the US space shuttle, a new heavy-lift launch vehicle based on the core rockets of the STS and a new medium-lift launch vehicle that is evi- dently designed for high launch rates. The new spacecraft include a space shuttle that differs from the US shuttle only in the respect that the main engines are not on the orbiter, a small space plane that could be a test vehicle or a scale version of a military space plane, and a space tug that would be used in space to move equipment and supplies from one orbit to another. The Soviet shuttle could be first tested in the mid-to-late 1980s. The space plane scale model has already been tested three times, and the space tug probably will reach operational status late in the 1980s. In addition, the Soviets evidently intend to continue using their many types of opera- tional space launch vehicles for at least another decade. This current family of vehi- cles, which supports a space effort of 100 or more launches per year, combinQd with the new generation of systems, indicates that the Soviets will be able by the mid- to-late 1980s to increase significantly their space program The SL-4 space launch vehicle is the workhorse both in numbers and payload weight. In this of the current Soviet manned space program. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 The Soviets have announced plans to have a large, permanently manned space station orbiting the earth in the 1990s. This station, which would serve military purposes, could appear as shown in this artist's depiction. regard, the new heavy-lift vehicle is estimated to have the capability to place payloads weighing upwards of 330,000 pounds into low- earth orbit. This is about seven times more than the largest operational Soviet booster can deliver today, and about five times the maximum US capability. Despite the obvious civil and scientific uses to which these capa- bilities could be put, the Soviets will continue, as in the past, to devote most of their future space program to military purposes. Military systems now account for more than 70 percent of Soviet space launches. Another 20 percent have combined military-civil appli- cation, with less than 10 percent devoted to purely civil/scientific activities. Very little of their effort is devoted to programs that have economic benefit. The Soviets routinely conduct about four to five times as many space launches per year as the United States. This is necessitated pri- marily by the shorter system lifetimes and poorer reliability of most Soviet satellites. The fact that they routinely operate this way in peacetime, however, gives them an inher- ently greater capability to increase rapidly the number of military satellites in orbit and to replace lost or damaged satellites as long as launch facilities are intact. The US and USSR currently maintain about the same number of operational satellites in orbit, 110 to 120. The Soviet inventory of op- erational space systems provides the capabil- ity to perform the following military functions: ? reconnaissance and surveillance, ? command, control and communications, ? ICBM launch detection and attack warning, ? strategic and tactical targeting, Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 ? navigational support, ? meteorological support, and ? antisatellite operations. The Soviets have satellites that are de- signed to perform naval surveillance and tar- geting missions. These satellites are strictly military systems intended to support Soviet naval operations against large surface ships and other surface ship formations. The Soviets have a deployed antisatellite weapon system that is capable of attacking satellites in low-to-medium earth orbits. The intercontinental warfare section of this chapter has addressed Soviet antisatellite and other space-oriented weapons programs in some detail. Recent Soviet proposals to ban all ASAT tests and future deployments of ASAT weapons are intended to put the United States at a disadvantage in this area. It is im- portant to note that the proposed treaty does not prevent developing and deploying ad- vanced ground-based weapons-such as high energy lasers-that could be used in an anti- satellite role. Estimated Dollar Costs of the Soviet Space Program N .._._... _._.... ... _.. N ~ AND CONSTRUCTION ~ 0 0 to 10 m m 1965 1970 1975 1980 1985 ? Estimates represent cost in constant 1981 dollars for the US to replicate known Soviet development and procurement of space systems. Launch and operation costs are not included. The Soviets continue to pursue their mann- ed space programs maintaining in orbit the SALYUT space station, which is manned dur- ing most of the year. This gives the Soviets the capability to perform a variety of func- tions from space, including military R&D and the use of man to augment their other recon- naissance and surveillance efforts. A larger, permanently manned space station, expected during the next decade, will significantly in- crease their in-orbit operations capabilities. This station could be used as a stepping stone to interplanetary exploration and the estab- lishment of bases on other planetary bodies. The Soviets, however, are more likely to use such a station to perform command and con- trol, reconnaissance and targeting functions. During wartime, it could perform these func- tions and more offensively oriented missions as well. The Soviets believe in the military utility of maintaining cosmonauts in orbit. Over the next 10 years, therefore, the Soviets are likely to develop primarily for military purposes: ? a permanently manned SKYLAB- size space station to be operational in the next 2-3 years with a 6- to 12-person crew, and ? a very large modular space station, to be operational by the early- to-mid- 1990s, which could house as many as 100 personnel. By all measures, the Soviet level of effort devoted to space in the 1980s is increasing sig- nificantly over the activities noted in the 1970s. The projected yearly rate of growth of the Soviet space program is expected to out- pace both the annual rate of growth in overall Soviet military spending and that of the Sovi- et gross national product (GNP) for a number of years to come. The Soviets have embarked upon a long- term, broad-based effort to expand their oper- ational military capability in space. A major Soviet objective is to expand warfighting ca- pability in space and achieve a measure of su- periority in that arena. Their technological base is strengthening and is being enhanced by technology transfer from the West. Their launch capability is increasing with the devel- opment of new facilities and booster systems. They continue to operate the world's only op- erational antisatellite system, while they test and develop more sophisticated space weap- onry. It is clear the Soviets are striving to in- tegrate their space systems with the rest of their Armed Forces to ensure superior mili- tary capabilities in all arenas. Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2  Approved For Release 2008/05/07 :CIA-RDP88B00831 8000100210053-2 forces are being modernized with high-per- theaters of military operations (TVDs-. Soviet planning for the Western theater, encompas- sing all of Europe, envisions three continental ,~~~''"~' ~ x ~`' ? ' ~ TVDs-Northwestern, Western and South- ~~ , ,a ' ~~`? ' ' ~~ ~`~?~' western-and two maritime, Arctic and Atlan- `. ~ ~ ~ tic. This organizational concept enables J ~ "w ', ~ ``` military planners to formulate military strat- ' ~~~ ~, ~' ;; ~ egy and tactics to achieve political objectives ;~;~ ~?~~,~,,~< `' in the geographic region, taking into consider- . r~~~ ~, ~~~~" . ~z~~, ~~? ~"~~; ation the capabilities of the missiles, aircraft, "`" '? i ,~ ' ~ ~~ ships and ground forces at their disposal. The w ,~ ~ F _