NATIONAL INTELLIGENCE SURVEY 19; HUNGARY; TRANSPORTATION AND TELECOMMUNICATIONS

APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01.00707R000200110043.6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200' If /I r I l[.l1 a I. &e N ATIONAL INTELLIGENCE SURVEY PUBLICATIONS The basic unit of the NIS is the General Survey, which is now published in a bound -by- chapter format so That topics of greater per- ishability can be updated on an individual basis. These chapters� Country Military Geog- Profile, The Society, Government and Politics, The Economy, Armed Forces, Science, and raphy, Transportation and Telecommunications Intelligence and Security, provide the primary NIS coverage. Some chapters, particularly Science and Intelligence and Security, that are not pertinent to all countries, are produced the GenerallSurvey countries requiring be bound into minimcl NIS treatment, one volume. Supplementing the General Survey is the NIS Basic Intelligence Fact book, a ready reference publication that semiannually updates key sta- tistical data found in the Survey. An unclassified edition of the h intelligence omits some details on the economy, and security organizations. Although detailed sections on many topics were part of the NIS Program, production of these sections has been phased out. r viously produced will continue erto be alidvailable as long the major i portion of the study s A quarterly listing of all active NIS units is published in the Inventory of Available NIS Publicat all also NIS unit by name r and classified Factb :ok. Th e Y lists number and includes classification their fil nget;,atalogingt and utilization I ordering of NIS units as well Initial dissemination, additional copies of NIS units, or separate chapters of the General Surveys cart be obtained e directly or through liaison channels from the Central The General Survey is p for the repared Agency derhthe Intelligence Agency and the Defense g published, and dissemi- of the NIS Committee. It is coordinated, edited, p nated by the Central Intelligence Agency. WARNING This document contains information Of the national defense of the United States, within the of its con title 18 s e ti ns 793 d 7?4 unaedfPerse U cO' by la Prohibited w ed. Its transmission or revelation CLASSIFIED BY 019641. EXEMPT FROM GENERAL ECLASSIFI- EG SBTONICHj ,UDECLASSIFIEDTONLYEON AP ROVAL DIRECTOR OF CENTRAL INTELLIGENCE. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 WARNING The NIS is National Intehigerce and may not be re- leased or shown to representatives of any foreign govern- ment or international body except by specific authorization of the Director of Central Intelligence in accordance with the provisions of National Security Council Intelligence Di- rective No. 1. For NIS containing unclassified material, however, the portions so marked may be made available for official pur- poses to foreign nationals and nongovernment personnel provided no attribution is made to National Intelligv :nce or the National Intelligence Survey. Subsections and graphics are individually classified according to content. Classification /control designa- tions are: (U /OU) Unclassified /For Official Use Only (C) Confidential (S) Secret APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 7 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP0l- 00707R000200110043 -6 Page D. Highways 7 Traffic statistics; extent and salient features of the highway system and its administration; construc- tion and maintenance operations and policies; vehicle registrations and origins. F. Inland waterways 12 Geographic pattern and general adequacy of sys- tem; traffic statistics; traffic interruption factors; equipment inventory; administration; develop- ment plan. F. Pipelines 15 Extent of the pipeline system; dependence on CEMA; tabulation of selected and proposed pipe- lines. Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 ii Page G. Merchant marina 18 Inventory and administration of the merchant marine; traffic statistics; number of employees, their recruitment, pay, and unionization. H. Civil air 20 State ownership and control of system; aviation training; participation in international organiza- tions. I. Airfields 21 ?lumbers and characteristics of airfields; tabula- tion of detai;s of most important airfields. J. Telecommunications 22 Salient features of the network; source of equip- ment; plans for modernization and expansion. Glossary 25 Buses (photo) Inland waterway craft photo) Budapest Free Port photo) Selected and planned pipelines (table) Merchant ship characteristics (table) Selected airfields (table) Terrain and transportation (map) follow: Page 12 13 14 16 18 23 25 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP0l- 00707R000200110043 -6 FIGURES Page Cranes at Eperjeske photo) 4 Fig. 7 Prefabricated track sections photo) 6 Fig. 8 Highway bridge at Pecs photo) 9 Fig 9 Vehicle ferry (photo) 9 Fig. 10 Fig. 11 Interchange on Route M -7 photo) 10 Fig. 12 HUNGAROCAMION tractor and Fig. 13 trailer photo) 11 Buses (photo) Inland waterway craft photo) Budapest Free Port photo) Selected and planned pipelines (table) Merchant ship characteristics (table) Selected airfields (table) Terrain and transportation (map) follow: Page 12 13 14 16 18 23 25 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP0l- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Transportation and Telecommunications A. Appraisal (S) The transportation and teleconIit in" ications (telecom) systems of Hungary are adequate for economic needs and %votild meet moderate military requirements, but all -out war conditions would impose a severe strain on them. The strategic importamce of transportation and telecommunications is heightened by the fact that Hungary is a landlocked buffer state between Western Europe and other Warsaw Pact countries. Most major highways, rail lines, waterways, and telecommunications radiate from the capital, Budapest. All transportation and telecom systems are state owned and are administered by the Ministry of Transportation and Postal Affairs. Railroads are the most important means of transport; on a ton -mile basis they account for about 705 of total traffic, while highways account for 20 and inland waterways IOcb. I lighsvays handle over 75% of the total freight tonnage, lint most trips are for short distances. The railroads, however, have not kept pace with the traffic increase. As a result, they are overloaded and tillable to meet manv requirements, which now must be met by other modes. Most international rail traffic moves in a westerly or easterly direction, toward Austria or the U.S.S.R., respectively. Connections are made with the standard gage systems of adjacent countries; differences in gage and equipment necessitate transloading only between Hungary and the U.S.S.R. I lighways are used primarily for short hauls and in areas not served by other modes of transport. Concentration of roads is heaviest in the west and lightest in the east; north -south routes are more numerous than east -west routes. Connections are rnati with all adjacent countries. Inland waterways are of minor significance in the national economy. The waterway system includes a segment of the Danube, several smaller rivers and canals, and Balaton lake. Waterways offer a c-iisiderable potential for both domestic and foreign trade, lint internal policies have worked against full rt ulitalion of that potential. Budapest, the major waterway port, has some significance in it country without a seaport. Cargo destined for ocean shipping is usualiv moved dawn the Danube and trtnsloaded at Izmail, U.S.S.R. Although crude oil pipelines adequately support the current tegniremcnts of Hungarian refineries, both chide oil and natural gas pipelines are being expanded to meet the growing fuel demands of the country. A small modern merchant fleet fulfills the shipping needs on the Danube and carries seaborne cargo to Black Sea and Mediterranean ports, und, in 1971, shipping service was inaugurated to Bombay, India. "The effectiveness of surface transportation and the relatively small size of the country have made it unnecessary for Hangar, to develop an extensive air network. International services, however, are of importance, and the state civil aviation enterprise offers services from Budapest to a number of cities in Europe and the Middle East. The Fourth Five Year Plan (1971 -75) provides for extensive improvements to the transportation and telecom systems. Among the more significant current and future projects are the following: Railroads� Extension of electrification, track renovation, modernization of yards and communication equipment, and acquisition of new locomotives and rolling stock. Highways Reconstruction of important roads, includ- ing part of the Hungarian section of the trans- European highway, and realignment, widening, and resurfacing of sonic secondary roads. Inland waterways Continued canalization work on the major waterways and development of pusher barge train units and self propelled barges. Pirelines� Construction of other major long- distance pipelines. Merchant marine Acquisition of large oceangoing ships; addition of three 12,700- d.w.t. ships by the end of 1973. Telecommunications Continued modernization and ex- pansion of all telecom services, including provision of the di.ect- dialing system, and color -TV transmissions. B. Strategic mobility (S) Tile, defense strategy and logistic nnohility of Ilungary are determined largely by the differences in terrain which divide the country into two military geographic regions �the Northern Hills and the APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Iungarian Plains. Although there are marked differences between the two regions, the characteristics of each would have relatively uniform effects on strategic mobility within the regions. For each mode of surface transport and air operations, the hilly to mountainous northern one fifth of the country presents restrictions or limitations and would make large -scale logistic support operations extremely diffieu!t. The flat t.r rolling Hungarian Plains are generally well suited for large -scale conventional operations �rail and highway networks are generally better able to handle cast -west movements, while the north -south oriented Danube and Tisza waterway systems can support north -south logistical operations but present natural harriers to rapid cross country movements. Seasonal climatic conditions create restricting factors in both the plains and in the rnoutains. The railroad network, already capanle of supporting large -scale movement of troops ;and supplies in military operations, is continuing extensive mod- ernization that will further increase transport capacity and speed service between the U.S.S.R. and other neighboring countries. Alternate routes are usually available, and although the network has been generally better able to handle east -west rather than north -south movements because many connecting lines have lower axleload limits than the main radial lines, this condition is being corrected. Efforts to increase the railroads' capacity include electrification, dieselization. installation of automatic signals, and increasing axleload limits by strengthen- ing track structure. Emphasis has been placed on lines running eastward to the U.S.S.R. and to those making international connections. Neither topography nor weather present any serious problems to railroad operations in Hungary. The two major lines leading; northeastward from Budapest to Zabony and the connection with the U.S.S.R. rail network are of particular importance. They provide cross country movement from the U.S.S.R. to Czechoslovakia and Austria. Interdiction of these lines or of the strategically significani Zahony- Chop' transloading complex at the border would be a critical blow to the network's military potential. Improvements to secondary lines situated east of the major Dehrecc n� Nyiregyhuzu� %atom} line and be- tween it and the Romania and U.S.S.R. borders have been eairied out since 1969 under the guise of 'For diacritics on place names see list of place names on the apron of the Terrain and Transportation Map, Figure H, the map itself, and mops in the test. "periodic repairs." All these lines provide connections to Zahony. Most of the tracks and facilities were strengthened, thereby raising the status of the lines to first category and allowing freight trains to travel at speeds of 37 to 40 m.p.h. Passing tracks at stations were lengthened to accommodate 100 -axle trains, and improvements to security and signal systems arc� scheduled through 1971 -72. These improvements and modernization were considered to have a purely military aim and have, perhaps, been accomplished ;as part of various plans developed by the military authorities for the regulation of traffic and to assure direct connections between the improved lines and the stations of Mukachevo and Beregovo in the U.S.S.R. in the event the Zahony area could not be used. Hungary's highway system� particularly the cast west network �on the whole is adequate to meet the requirements of military movements and logistic resupply. Military road transport would be restricted, however, by a variety of traffic bottlenecks, including sharp curves and steep grades, and the low capacity of many secondary roads. In the plains, muddy ground conditions in the spring present problems, and many roads would require constant maintenance to sustain heavy military traffic. In much of the northern hilis region, numerous ragged slopes and dense forests would preclude vehicular cross- country movements. Highway logistic capabilities are being enhanced gradually by expanding road reconstruction and increasing ve.Jele inventories. Hungarian military capacities will be greatly improved by the completion� expected sometime in the late 1970's �of the Balaton superhighway. This will enable personnel, equipment, and supplies to move more efficiently to the Hungarian People's Army (MN) and the Soviet Southern Group of Forces stationed in Hungary. This autobahn would provide greater access to Hungarian border defense concentrations in the north, west, and southwest and would afford a high speed, all weather approach to the strategic Zagreb area of Yugoslavia, which includes Rijeka, Yugoslavia's most important Adriatic port. Motor vehicles are of prime importance in providing support as transportation carriers during military operations. All privately owned vehicles as wall as commercial trucks and buses are registered for potential military requisitioning by the Mobilization Group of the Ministry of Defense. Such vehicles are maintained and repaired on a priority basis and are inspected periodically by military authorities. Each transport enterprise is required to keep 30% of its vehicles ready for military use on 24- to 48 -hour APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 notice. When vehicles are requisitioned, their drivers generally are assigned to scree also. Commercial vehicles are requisitioned to supplement military inventories and provide adequate transportation to meet militaary movement requirements until hostilities are initiated. Thereafter, adequate transportation depends on the ability of industry to replace losses and provide stare parts. Increasing cargo containerization is boosting the growth of Hungary's military capability. 'rite Eungarian Danube, as an integral part of the international Danube route, provides Warsaw Pact forces high capacity access in the east -west movement of military supplies and eq from southwestern European U.S.S.R. to southeastern West Germany. Within Hungary, the Danube and Tisza rivers, as north -south aligned routes, could provide logistical support to military forces traveling north or south. Although the waterway route capability for military supply resupply operations on the Danube in Hungary is virtually unlimited, the through movement of Warsaw Pact forces from the U.S.S.R. to Nest Germany would he restricted to 352,000 short tons per day based on the locking facilities at the Iron Gate lock -and -darn installation on the Romanian- Yugoslav sector of the river. The nine significant ports have all estimated total military port capacity of 108,600 short tons per day, 50% of which is at Budapest. 'Tactically, the waterways are natural barriers to rapid overland movement. Most vulnerable are lock and -darn installations, de: ',ruction of which would completely close through traffic and cause widespread flooding on the 'Tisza and flash flooding with subsequent loss of water level control on the main channel of the Danube �as well as complete closure of the Danube anabranch on which two installations are located. Serious interdiction could also be accom- plished by destruction of ports, repair facilities, and large bridges� especially those in Budapest. Utilization of the Hungarian merchant marine for military purposes would he limited to logistic support. 'The 18 dry cargo ships have it combined lift capability of almost 38,000 tons of cargo. Since: there is only one ship equipped with large hatches (Dunes, 1,502 d.w.t., has five 55 -font hatches) and only two ships (Rabe', and Tisza, 1,749 d.w.t. each) have a heavy -lift capability (50 -ton boom each), the merchant maripe is severely restricted as to the type of military hardware which might be transported. 'The lift capability could be supplemented by units in the large inland waterway fleet, which could transport about another 125,000 tons of cargo. Although Hungary has no oceangoing tankers, there arc several tank barges which could transport about 200,000 barrels of petroleum products. '!'here are no oceangoing passenger ships, but there are in service on the Danube River and Balaton lake it considerable number of ferries, hydrofoils, motor passenger craft, and paddle -wheel passenger steamers, some of which are capable of transporting as many as 1,2 passengers. Under cnacrgeneN conditions, these vessels would no doubt be used to transport armed forces on a short -haul basis. No formal mobilization plan with regard to the Hungarian Airlines (MALEV) is known to exist. ilowever, MALEV equipment and personnel could be absorbed into the military with little difficulty, since civil aviation is a state -owned enterprise. The close relationship between the Hungarian military and MALEV is demonstrated by the fact that all MALEV personnel must undergo 30 clays' annual military training. Military conversion during a national emergency should be performed quickly and easily. The major transport aircraft would be most valuable for troop and cargo carrying, the light aircraft for a variety of military functions including reconnaissance, training, and medical evacuation. Although adequate for present military require- ments, the Hungarian air facilities network would have some deficiencies if required for strategic military usage with little or no advance warning. Most of the reserve airfields are used seasonally in fair weather months and are not provided upkeep on a year -round basis. Moreover, there is a general shortage of mobile support equipment for deployment to these reserve facilities, particularly in the area of electronic navigational and landing aids. 'These factors would militate against immediate all -out usage of 1-1 ungary's airfield system in a wartime environment; under such circumstances, probably only about half of the 48 operational airfields over 2,000 feet in length could be ready for sustained military use within several clays. The telecom system, comprised of networks of open wire lines, and radio -relay links, is reasonably protected from sabotage. The main long distance circuits are provided by underground cables, and important telecom facilities are closely guarded by security police or military personnel. Terrain and weather cause: no unusual problems in maintenance of telecom facilities. The main switching center for both domestic and international service is located in Budapest. Other principal centers are Szckesfchervar and Veszprem. Permanent radio contact is maintained with the Ministry of Defense in Budapest front this station. Budapest is the. headquarters of the Hungarian People's Army and the Southern Group of Soviet 3 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Forces. The 5th ArmN Headquarters is located in Szekesfehervar. A Corps headquarters of the 5th Army is located in Cegled, and Nyiregyhaza is the location of it 5th Army headquarters. Nl tilt iconductor cabies are routed to each urban area where key military installations arc located. 1udapest, Nyiregyhaza, and Szekesfeheryar each have high power radiobroadcast transmitters which could serve the military in the event of an emergency. C. Railroads (S) The Hungarian railroad network, totaling 5,908 route stiles and all but 96 miles government owned, is an important factor in the national economy. The railroads have difficulty, however. handling the rapidly gro%%ing freight traffic, and extensive modernization measures are being undertaken to increase their transport capacity. Railroads serve both the agricultural and inanstrial sectors of the lungarian economy. iV:ain lines, which extend from Budapest in it radial pattern, arc linked by numerous secondary lines to form it compact network that is distributed evenly throughout the nation. the lines generally traverse flat and gently rolling plains which permit light grades and easy curves; in the hilly and mountainous regions of the northeast and west they follow gently sloping river valleys. The network comprises 5,094 miles of standard -gage O'73r "l, 788 miles of narrow -gage (mostly 2'5' 11 and 22 miles of 5'0" broad -gage lines. Standard -gage lines carry most of the traffic and make all international connections; the narrow -gage lines arc generally of only local significance. 'l'he 22 -mile section of broad gage parallels the standard -gage line. from Fenyeslitke and wives the Hungarian- U.S.S.R. transloading complex around Zahony in the northeast. The network is predominantly single track, but double track is being extended gradually and currently arnounts to 688 miles; all double track is on standard gage lines, and timst of it radiates front Budapest. Electrification, also being extended, at the beginning of 1971 amounted to 581 route miles, all standard gage. Hungarian railroads make international connec- tions with all neighboring countries. Standard -gaga lines serve all these connections, except for those with U.S.S.11- and Hungarian cclnipment can he interchanged freely with that of all the other neighboring countries. E(plipment e.whange with the Soviet Union is limited to passenger cars in special through service.. Soviet- Mingarian freight traffic is trattsloaded at Chop in the U.S.S.?. and at 'Zahony, Timer, Konturo, and Fenyeslitke in Hungary, which are connected by dual -gage (5'0 4'4' tracks. The transloading station at 'Zahony consists of separate yards where general commodities, coal, coke, and crude oil are transloaded. Grain and wood are trutsloaded at Tuzser, cntde oil at Komori;, and general commodities at Fenyeslitke. Mechanical handling equipment available includes large derricks and cranes. Another connection with the U.S.S.R. is made by a line running from Tuz -ser through Tiszahezded to Batevo railroad station near Uzlnvoye, U.S.S.R. Although this 6 -mile single -track line is probably broad gage now, it may he scheduled for dual gage because it is planned as it bypass for the Chop Zahony traffic. Transloading facilities arc being expanded at Zahony and installed at Eperjeske to help deal with the increasing quantity of freight to he transloaded at the Zahony complex. The Eperjeske installation has been equipped with a covered loading ramp served by broad- and standard -gage tracks, and six of the planned 14 cratics have been installed (Fignrc I About 70% of the railroad construction and maintenance work is mechanized and compensates for it steadily growing shortage of manpower. Insufficient funds have always caused difficulty in completion of Hungarian railroad construction plans, necessitating that minor repairs frequently he made when more extensive rebuilding was planned. Spring and surnmer floods in low -lying areas near large rivers may interrupt construction and nmintenarice work and reduce roadbed stability. In the mountains of the north and west, landslides may create it naitttenance problem where lines Ito been built along steep slopes and in deep cuts and valleys. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 1. Cranes at the Eperieske trans. loading installation. Six of a planned 14 of these 5 -ton units are in place. (U/ :'J) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Since the early 1950's few lines have been built, and efforts have been directed mainly toward improving the existing network. As a result of the priority given to lines serving the needs of the U.S.S.R. during the post World War 11 reconstruction and expansion, much of which was accomplished with Soviet assistance, the network is generally hater able to handle east -west rather than north -south movement. However, attention is now being given to improving some important north -south routes. The two principal connections between Budapest arid the U.S.S.R. also serve the industrial aril commercial centers of Miskolc, Cegled, Szolnok, aril Debrecen, arid carry the densest traffic, which consists of mechanical equipment, raw materials, and military items. Other important lines serve international con- nections and carry heavy international traffic. They are the Budapest- Gvor- Hegyeshalorn connection with Austria, the Budapest Vac -Szoh connection with Czechoslovaka, the Budapest- Szolnok- Bekescsa- ba- Lokoshaza connection with Romania, and the Buda pest- Domhovar- Pecs- Magyarboly connection with Yugoslavia. Principal commodities transported are coal, coal briquettes, stone, crude oil, timber, iron and manganese ores, rolled steel, and sugar beets. The Fourth Five Year Plan (1971 -75r continues sonic of the programs of previous plot,rs� further electrification, track renovation, acquisition of new motive power and rolling stock, and modernization of yards arid signaling and corn inunications systems. Elect r;fivotion of the Budapest- Cegled- Debrecen- Nyiregyhaza route to Zahony was completed in December 1970, thus permitting through electrified operations from the Zahony transloading area at the 1lussia border to Budapest by two routes,' and on to the Austria border by it single route. All but the 31 miles between Szerencs and Nviregyhaza on the northern line are double track. Plans to double track the Szerencs- Nyiregyhaza section have been dropped, and installation of Centralized Traffic Control (CTC) and 1,640 -foot passing sidings allow the line to handle a volume of traffic equivalent to that of a double track line with the old signal installations. Electrification of the main north -south Szob -Buda- pest- Lokoshaza line, begun in 1970, has been completed between Szoh and Budapest, and a 20.5 million ruble (about US$22.5 million) loan from the Council for Econornic Mutual Assistance (CEMA) International Investment Bank should allow completion of the project by December 1974. Broad, long -range planning for the railroads is aimed at improving the main network and reducing Me second route is via Miscole and Halvam the number of lines and stations. There are also plans to increase the axleload limit throughout the network to 25.3 short tons I;v 1980. Axleload limits are 24.2 short tons on a few especially important main -line sections, 19.8 and 22 short tons on urost main lines, and range dowri%ard on less important lines. Some 1,800 miles are scheduled for reconstruction and strengthening to permit higher speeds. Di,continuance of many secondary lines is in progress; service in those areas is being diverted to highways. Hungarian railroad structures include 14 tunnels and about 6,200 bridges. All tunnels are on single track lines, and most are located in the mountainous northern part of the country. The longest tunnel on the network, measuring 2,556 feet, is on a secondary line at Pilisvorosvar, northwest of Badapesc. Construction of a 1.2 -mile tunnel between Vasvar and Pacsony has been planned. Most bridges span fairly narrow watercourses arid are relatively short, but several long structures of major significance� ranging from 1,290 to 1,870 feet in length �span the Danube and Tisza rivers. Most bridges 100 feet and over in length are of steel cor_struction. Of particular significance is the international bridge on the U.S.S.R. border between Zahony and Chop, which can accommodate both broad -gage and standard -gage trains. however, since the rails are on a common roadbed, trains of both gages cannot cross the bridge at the same time. Track structure, which is in poor condition because Of intensive use and inadequate maintenance, is being improved and strengthened in the modernization programs. Rails in use are produced in Hungary arid range in weight from 47.6 to 109.7 pounds per yard. Most standard -gage main lines are laid with 97.4- and 89.3 -pound rail; however, R was decided in i970 to r-se 109.7 -pound rail in modernization work on main lines carrying the heaviest traffic. Increasing numbers of long- welded rails are being laid. Wooden ties impregnated with creosote are characteristic of the track structure over most of the system. however, the trend is to use locally produced reinforced concrete tics for replacements and new track structure. A few light- weight steel tics are used, primarily on industrial sidings. Prefabricated 79 -foot track sections using prestressed c mcrete ties are being procuced and used in modernization work (Figure 2). Ballast is of crushed stone on main lines, of crushed stone or slag on station sidings and yards, arid of crushed stone, slag, or gravel on secondary lines. Hungarian railroads operate under both manual and automatic block systems. Signals include colorlights and semaphores. Plans to convert all main lines to an automatic signal system have been in APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 existence for several years, and work is progressing toward this end. CI'C is being installed on a few sections. Communications are by telegraph and a railroad telephone network. Coal continues to be a principal railroad fuel, but the quantities consumed are decreasing as dieseliza- tion and electrification expand. Because of the poor quality of domestic supplies, it is necessary to import coal, primarily from the U.S.S.R. Hungary's production of petroleum is reh.tiveiy small, and reliance will continue, to be placed on imports obtained chiefly from the U.S.S.R. and Eastern European Communist countries. Current for the electrified lines is tapped from the national grid by railroad substations that transform it and feed it to the railroad overhead lines. Water supplies present no major difficulties, but water must he treated with soda for locomotive use. Both freight and passenger traffic are important to the railroads. In 1970 they transported 129.6 million short tons of freight and 540.3 million passengers and accomplished 13.5 billion ton -miles and 102 billion passenger- miles. In that year the average gross weight of freight trains was 1,125 short tons, the average length of haul was 101.1 miles, and the average freight car turnaround time was 3.7 days. With containerization surging ahead in Western Europe, the Soviet Union and countries of Eastern Europe are planning to increase container movement as quickly as possible. A coordinated container transport system is being developed by the CEMA countries to simplify intrabloe freight shipments; a committee is plotting a network of the most effective container routes and planning to adopt a standard freight container in 1972. Container services are already operating between East Gernany, the 6 U.S.S.R., arid Czechoslovakia, and early in 1972 a new direct "freightliner operation using 1,000 -ton trains began service between Budapest and Moscow. The Hungarian State Railways (MAV) and the railroads of the German Democratic Republic have been in the forefront of container development in East Europe; the first international container train service, Budapest Prague �B: rlin, began in 1969. MAV was also the first member of the Organization of Railroad Cooperation (OSShD) to join the Intercontainer Company on the Continent at its foundation in 1967. At present, domestic container service operates between Budapest and Miskolc. Hungary's first container terminal was constructed at the port of Budapest and operated by the Hungarian Shipping Joint Stock Company (MAHART). Budapest is to be MAV's main container center. Work has begun to transform part of the largest freight depot, Jozsefvaros Station, into a modern container terminal, and large increases in container traffic are expected. Stations to be be developed to handle containers include Gyor in the west, Miskolc in the north, Debrecen in the east, and Pecs in the south. A special project concerns installation of a container terminal at Zahony. Although International Organization for Stand- ardization (ISO) units were shipped over ,VIAV lines by other organizations and importers, until mid -1970 ViAV operated with only smal, containers ranging from 1'/_ tons to the OSS,iD standard 5 -ton type. Of the 10,000 containers caried by MAV in 1970, more than two- thir:ls were of 5 tons or less. During the latter part of 1970 a number of ISO 20- and 30 -ton aluminum containers were acquired, and more have been added since. Plans are to increase container movement to more than 50,000 units in 1975 and to over 150,000 in 1980. Production of ISO containers has probably moved faster in Hungary than in any other CEMA country; some have been exported to Western Europe. Several plants are involved in their production, including the Hungarian Shipyard and Crane Factory, Budapest; the Hungarian Wagon and Machine Works, Gyor; and the Csepel Motor Truck Plant. Investment costs during the 'first few years are likely to be high, but amortization should lead to important economics for the railroads and for industry generally starting in 1974. Hungarian equipment is inadequate in quantity and quality. Because of the shortage, equipment is overused and repairs are not scheduled frequently enough. Although electrification and dieselization programs are in effect, and steam locomotive production was stopped in 1959, many steam units are Still in use oecause there are not enough diesci or APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 2. Prefabricated track sections being used in modernization work (U /OU) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 electric locomotives to replace them.; however, this condition is being rectified. The use of steam locomotives is to he discontinued on main lines by 1975 and on the entire network by 1980. A shortage of freight cars makes it difficult to handle peak traffic at harvest time in the autumn, and it shortage c�' passenger equipment keeps the network from meeting weekend and heavy summer vacation travel requirements. Participation in the Freight Car Pool (OPV) under CEMA, to which Hungary has contributed 21,200 cars, has relieved the freight car shortage to some extent. Hungary produces diesel and electric locomotives, train sets, and passenger cars, but most of this vquipment is exported to the U.S.S.R. and other Soviet oriented countries, making it necessary for Hungary to import equipment. Diesels have been acquired from Sweden and the U.S.S.R., and freight cars from oth,.r European Communist countries. The estimated equipment inventory as of January 1971 %vas as follows: Locomotives: MILLION FREIGHT Steam 1,138 Diesel 576 Electric 232 Freight cars 64,836 Passenger cars 6,876 Most of this equipment was standard -gage. Acquisition of new motive power and rolling stock has been it major item in the last several 5 -ye,� ans and will undoubtedly continue to he for some time. Overage equipment is being retired as new units are put into service, and the inventory reflects a decline in the number of freight cars as well as steam locomotives. Purchase orders were signed in 1971 for �17 diesel and electric locomotives, 275 passenger cars, and about 5,000 freight cars. Information on delivery dates is not available. Major repairs are made at shops in Budapest, Debrecen, Miskolc, izeged, and Szekesfehervar; minor repairs are made at en- ginehouses located throughout the network. New repair facilities for diesel locomotives are being installed at Szolnok and Szombathely, and for 4 -axle cars at Dunakeszi. All railroads in Hungary are government owned ekcept for 96 miles of the Gyor- Sopron Ebenfurth Railway (Gy. S.E.V.) in the northwest. The Gy. S.F'.V., which also has 40 miles of lines in Austria, is norninally an independent private corporation, but the Hungarian Government holds it controlling interest in its stock and operates the Hungarian portion. Included in the Gy. S.E.V. mile ,ge are �10 miles of another private railroad, the Lake Ferto Suburban Railroad (FHV), a secondary line that links Celldomolk with Neusiedl, Austria, crossing the border at Pamhagen. The MAV, under the Ministry of Transportation and Postal Affairs, is responsible for administering and operating the Hungarian railroads, including the Gy. S.E.V. line.. in Hungary and the 73- mile Budapest Suburban Railways (BHEV). There were about 133,500 employees on the railroad in 1969. There is, however, a shortage of skilled and unskiCzd workers. The MAV has an apprentice system and operates several technical schools. D. Highways (S) Highway transport in Hungary is used chiefly for short -haul movement of freight and passengers and provides a feeder and distribution service to other modes of transport. Highway transport operations both domestic and international �have been growing rapidly and assuming an increasing significance for the national economy, reflecting its growth during recent years. The trend of passenger and freight traffic indicates a continuing upswing and fuller utilization of the economic and technical advantati-s of highway transport. In 1968 Parliament appr;t%ed a new transportation policy aimed at streamlining the transport system. One of the important features of this concept is the discontinuation of about 1,000 miles of low volume, uneconomic railroad lines and shifting their traffic to highways during the Fourth Five Year Plan (1971 -75). The following statistics denote the considerable increase in highway transport volume within a recent 10 -year period: The highway network is adequate for the normal requirements of the economy; the major routes, some of which have been modernized in recent vears, are generally in good condition. Highways west of the Danube are in the hest condition because of better construction and the availability of materials. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 MILLION FREIGHT BILLION SHORT TONS TON -MILES 1960 133.6 1.07 1966 254.6 1.85 1967 305.2 2.20 1969 411.0 3.41 1970 440.0 3.90 MILLION BILLION PASSENGERS PASSENGER-I'AILES 1960 236.3 2.24 1966 373.4 3.32 1967 386.8 3.45 1969 445.8 4.08 1970 474.5 4.47 The highway network is adequate for the normal requirements of the economy; the major routes, some of which have been modernized in recent vears, are generally in good condition. Highways west of the Danube are in the hest condition because of better construction and the availability of materials. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 I in the north northwest of the'risza river are in good condition, whereas most highways in the eastern portion of Hungary are in poor condition because of the lack of construction or repair materials. The highway network is adequately distributed; the densest portions are in the rnor, heavily populated areas west of the Danube and in the mountainous northern portion east of the Danube. North -south interconnecting roads are numerous and evenly distributed, but only four cast -west through routes traverse the couht!y, complemented locally by numerous secondary roads serving local industrial, commercial, and agricultural centers. The backbone of the network consists of major routes radiating from Budapest, thus giving the capital direct access to the larger cities and neighboring countries. The network is very dense near Budapest but is relatively sparse elsewhere. Main highways provide border connections with all five adjacent countries. Several of the main highways combine to form through routes cons' ituting segments of the trans European network. The main highways, which total nearly 3,800 mile:;, constitute only about 20% of the network but carry about 50% of the traffic. On the basis of percentage of hard- surfaced roads, the Hungarian network is superior to the networks of Czechoslovakia, the U.S.S.R., Romania, and Yugoslavia, and only slightly inferior to that of Austria. Art official government breakdowr of the approximately 18,360 -mile Hungarian network is as follows: MILEAGE First -class highways 1,360 Second -class highways 2,600 Secondary roads 14,400 An approximate breakdown by surface types, is as follows: PERCENT MILEAGE OF TOTAL Hard surfaced concrete, bituminous, bituminous surface treatment, stone block, cobblestone) 11,048 60.2 Macadamized gravel, crushed stone) 6,558 35.7 Earth graded and drained) 754 4.1 Information is not available on mileage represented by motorahle tracks or by forest roads that are used by the forestry industries and generally constructed by them. Highway surface widths range from 12 to 36 feet. "There are several divided highway sections that have 24 or 28 -Foot concrete surfaces on each roadway. Predominant widths are 18 to 27 feet on the concrete, bituminous, bituminous treated, and stone -block 8 surfaces, and 12 to 18 feet on others. base types include crushed stone, gravel, and some concrete. Shoulder types are earth, gravel, and some brick. Some shoulders measure tip to 10 feet in width, but the majority are from 2 to 3 feet wide. Sonic roads do not have shoulders. Drainage facilities, at least on Inain routes, are adequate. Except for roads tiaversing mountainous terrain in the north central, northeash- crn, and western regions, alignments are generally good. The network has an estimated 9,000 bridges 20 feet and over in length. Most are constructed of steel or reinforced concrete (Figure 3), but secondary roads have a few old bridges of masonry construction and sonic timber bridges. In general, bridges are in good condition. No information is available on tl-,e existence of tunnels or fords on the highway network. Modern ferries operate between main highways on either side of Balaton lake (Figure 4). Ferry crossings are common on secondary routes; ferry craft capacities range from 10 to 33 short tons. Construction and maintenance operations are hampered by economic difficulties, adverse terrain, and climatic conditions. Shortages of mechanized roadbuilding equipment and inadequate funds pose the most serious problems. In accordance with a contract recently concluded with Soviet foreign trading companies, about 1,500 units of various types of road construction equipment are to be imported from the U.S.S.R. during the 1971 -75 period. Poor natural drainage in the valleys of western Hungary and in the plains cast of the Danube River sometimes results in rapid deterioration of roadbeds and surfaces. 'rhis condition is especially severe during alternating freeze and thaw periods in spring and fall. In the Bakony mountain area, and in general in the entire western part of the country, maintenance is necessary to prevent snow blocking; snowdrifts occasionally present difficulties. Good- quality sand and gravel are available in varying amounts throughout most of the country, but in sonic regions road construction materials such as stone and timber are in short supply. In areas close to the border, rock materials have been imported from the U.S.S.R., Romania, and Czechoslovakia. Most bituminous materials and steel have to be imported. Although fairly large quantities of portland cement are produced locally, the supply of cement has been a matter of concern for some time. Several cement plants have been modernized and new plants built; nevertheless, the industry's growth has not been able to keep pace with the steadily increasing demands of road construction, and Hungary has to resort to importing cement from other countries, including Romania, Turkey, and Egypt. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 IIungary's road development planning, designed to keep pace with the country's rapidly growing volume of motor vehicle traffic, is aimed chiefly at modernizing existing roads and, to it lesser extent, exparcling the network. The Fourth Dive Year Plan represe its the second phase of a 15- ycarstate highway development program initiated by the highway Research Institute in 1965. Although during this period construction and modernization efforts will be focused chiefly on the first -class network, numerous highway reconstruction projects ,will involve real4- fliMent, widening, and resurfacing of secondary roads. Construction efforts continue to be concentrated on t-tungary's first divided- highway project, from Budapest to Szekesfehervar (Figure 5). This operation is given high priority because the area affected is important for military logistics as well as for vital industrial and tourist traffic- To date only part of this special road renovation project �an approximately S- mile segment from Budapest to Torokbalint �has divided- highway characteristics; ultimately, however, the limited access divided highway, to be called the Balaton Autobahn, is scheduled to extend via Siofok and Nagykanizsa to the Yugoslavia border. Work is continuing between Tatabanya, Komarom, and Gyor. This second projected divided highway artery is part of the trans- European network of international highways. For about 5 miles, leaving Budapest, the two routes are it joint section having divided- highway features. Eventuallv the second superhighway is to extend to the Austria border, also providing easy access to Czechoslovakia. Other important roads undergoing reconstruction include the Budapest- I-lat- van- Miskole stretch, scheduled to become part of another superhighway; the Budapest- Szeged and Debrecen Szeged highways; the road between Balatonkeresztur and Bares, at the Yugoslavia border; and the Pecs- Dravaszaholcs route, extending to the Yugoslavia border and scheduled for conversion to a three -lane superhighway. Wherever necessary, construction plans generally include increasing the width and load- bearing capacity of roads being utilized by heavier traffic because of discontinued rail lines. Significant bridge projects i.icludc reconstruc- 9 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 3. Highway bridge at Pecs (U /OU) FIGURE 4. Vehicle ferry that provides link betwec;n main highways on opposite shores of Balaton lake. (U /OU) 1 s 5"WA_ W�P W/ i tion of the Drava River bridge at Dravaszabolcs, a joint Hungarian- Yugoslav undertaking; construction of a bridge over the Danube River at the border crossing point between Gyor and Medvedov, Czechoslovakia; and a new bridge ov.:r the Tisza river at Algyo. Hungarian authcrities frequently hav to yield to Soviet commands stationed in Hungary who insist that priority be giv.,n to certain road projects; those fulfill Soviet needs but do not necessarily serve the Hungarian economy. In accordance with such a request, a program of mad construction was initiated in June i971 in various areas of northeastern Hungary. The Hungarian C:,wernment has allotted funds for these operations and has made available modern road construction machinery and trucks. The Soviets are providing road machinery, trucks, and paving materials. The most serious restrctions to traffic result from seasonal weather conditions. Flooding in the Danube and "Tisza river valleys occurs during spring thaws and periods of extended heavy rains. In early spring and late f ill alternating conditions of freeze and thaw are especially destructive to roadway surfaces. In summer heavy thunderstorms cause many unpaved roads to become extremely muddy or impassable. During extended dry spells, dust on unpaved roads reduces visibility, and duststorms occasionally impede traffic in the plains cast gaud south of Budapest. Snowfall from December through February impedes traffic to a l0 limited extent. Heavy fogs of 3 to 4 days' duration occur from November through February, and early morning and evening mists are common throughout the winter. Physical bottlenecks include some sharp curves and steep grades north of Budapest and in mountainous. areas of the country, some narrow bridges, a few low capacity bridges, sharp turns and narrow streets in cities and towns, underpasses, and many ferry crossings. Slow- moving animal -drawn carts obstruct the normal flow of motor vehicular traffic, especially along rural roads. Highway transport operations are directed �under the Ministry of Transportation and Postal Affairs (KPM) �by the Main Department of Highway Traffic and Motor Vehicles. Although theoretically the de ?artment B in charge of all motor transport activities, it exercises little or no control over truck transport units operated by government agencies. Subordinate to the department are six regional auto transport directorates; in each of these directorates motor transport enterprises (AKOV) provide common carrier services to frlmost all parts of the country. Responsibility for their operations recently was assumed by the VOLAN Trust Transport Organiza- tion. The VOLAN Trust has 78,000 employees and 15,000 trucks, 5,000 buses. 3,000 taxis, and various other types of equipment. Most truck transport involves two types of operations� deliveries that complement rail transport and trucking operations related to highway construction and maintenance. The length of haul averages about 8 miles. To an increasing extent, truck transports are servicing industrial rather than agricultural markets. VOLAN Trust is in charge of vehicle registration procedures and has also assumed responsibility foi freight services taken over from discontinued rail lines. HUNGAROCAMION International Road Trans- port Company, subordinate to the KPM, handles Hungary's international road haulage service. It was founded in 1966 and since then has been developing at a rapid pace, more than tripling its vehicle inventory. In 1970, HUNGAROCAMION's vehicle fleet� mostly Mercedes and Volvo (Figure 6) trucks and trailers� surpassed the 500 mark, including tractor trailer combinations having load capacities ranging from 17 to 40 tons and trailers having carrying capacities of 160 to 180 tons and used for transporting bulky and heavy freight. HUNGAROCAMION carries freight to practically every European country and also operates as far afield as Middle East and Asian countries; it has been developing its container transport capability, which has risen frem 240 in 1969 to about 3,000 in 1971. It employs about 1,500 drivers, 500 technicians, and 200 specialists of various types. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 5. Interchange on divided- highway section of Route M -7 (U /OU) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Highway construction and maintenance is under the supervision of the KPM. The KPM controls 12 main departments, including the Main Department of Highways and Bridges, which is responsible for all highway and bridge construction and maintenance. In each of the country's 19 administrative divisions the department operates a regional office that controls and guides all road construction and maintenance activities within its administrative boundary. Two other offices subordinate to the KPM and concerned with construction and maintenance are the National Planning Office, dealing with budgetary problenis, and the Road and Railroad Construction Planning Enterprise (UVATERV), in charge of preparing all preliminary studies relating to highway projects, in addition to redirecting discontinued rail traffic to road transport. The Viinistry of Construction and Urban Development controls special mechanized enterprises responsible for major highway construction. Subordinate to the Ministry of Construction and Urban Development is the Construction Main Directorate, which has six regional construction trusts under its supervision. Small work teams, responsible for 3- to 5 -mile sections of road, perform routine road maintenance under the control of these trusts. In some areas extensive use of manual labor is �',ill necessary. For the operation of major projects, the construction and maintenance labor force is frequently supple- mented by military personnel. For the past few years engineer units of the Hungarian People's Army have been engaged in highway and bridge construction and niaiiitenarice as part of their training, under the direction of the KPM. 'These units have at their disposal special military equipment for road and bridge construction. Members of the armv are usually anxious to enlist for duty with the engineers because road construction elements are given extra pay. The principal types of cargo hauled by truck include construction materials, livestock, agricultural products, fuels, machinery, and other industrial freight. Although highway traffic is growing rapidly, the overall volume still fails to be on a par with that of Western countries. Most traffic is concentrated in the immediate vicinity of large population centers. industrial complexes, and tl:a Balaton lake area. Cargo containerization has been fostering major changes in the transportation media, and Hungary's geographic location favors the development of extensive container transport traffic. Hungary is a charter member of the 19- nation European INTERCONTAINER (International Company for "Transport by Transcontainers) whose, functions include coordination of container traffic between the road networks of the various members. The country's containerized transport system is managed by the Main Administration of "Transportation Policy within the KPM. The members of the recently formed top level government Committee for the Promotion of Container 'Transport inr- -�de representatives of the KPM. The share of truck traffic in Hungary's total container utilization is expected to reach 25% to 30% in the nee: ititure. The 1.5 -ton container stock of VOLAN "Truk: ota s almost 7,000. By the end of 1970, I-IUNGAROC /,MION, using 600 20 -ton transcon- taioers, was participating in international freight traffic. Several motor truck plants are producing ISO containers, some of which are exported to East Germany and countries in Western Europe. The Csepel container terminal is engaged in transcontinen- tal container transportation. Additional terminals are scheduled to be established in industrial and transport hulls such as Miskolc, Debrecen, Pecs, and Gyor. Particular emphasis is being placed on the development of the Zahony transfer station at the U.S.S.R. border. Bus services for the general public, until recently operated m,�inly by the Autobus Service of the Hungarian Siate Railway (MAVAUT), are now run by th VOLAN Trust "Transportation Enterprises, catering to passenger service for both local and international travel. In 1971, VOLAN Trust purchased almost 1,000 new buses and retired more than 500 old vehicles. They are also producing a number of ,articulated buses in their own wo ..,hop. Adding 30 new stations to their long- distance bus network, they now serve more than 3,000 urban u 11 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 6. HUNGAROCAMION (International Road Transport Co.) Volvo FB 88 -32 tractor and Fruehauf re- frigerated trailer on a Danube quay in Budapest (U /OU) rural communities. Intercity b ,sline routes, totaling almost 1:5,0(X) rni!, -s, afford access to about 93% of till lungarian localities. VOLAN Tetist is also continuing the task of handling the passenger services of discontinued railroad lines. As of 1 January 1972, Hungary's vehicle wgistrations totaled an estimated 330,000- 225,000 passenger cars, 96,(X)0 trucks, and 9,000 buses. Motorcycles are widely used, and there are about 615,000 in Hungary. Capacities of most trucks range from 3.5 to -1.5 short tons; bus seating capacities range from 48 to more than 100 in articulated units (Figure 7). Age and condition of vehi�:ies vary considerably. Some trucks are old arid in poor condition, while others are new wuE in good condition. Passenger cars and buses in general are of recent manufacture and in good condition. The country's motor vehicle industry until recently was limited tO the production of buses and medium to heavy trucks (up to 10 tons); in 1971, one plant started production of heavy -duty trucks of over 10 tons. In 1969, production of Hungary's first double- decker buses was initiated. Ilungary does not produce passenger cars and, tit prese has no plans for their manufacture in the ,ear futu, t�nstead of 12 manufacturing passenger cars, which could be achieved only in small amounts, Hungary has chosen to produce a limited assortment of auto parts and accessories in large volume and to export these in exchange for passenger cars. According to an agreement running through 1975, Hungary will supply the U.S.S.R. with spare parts in exchange for passenger cars. Similar agreements have been concluded with Poland, East Germany, and Yugoslavia avd with Western countries, including Italy, the United Kingdom, France, West Germany, Austria, and Sweden. The AUTOKER Automobile .nd Spare Parts Enterprise, subordinated to the Main Department of Highway Traffic and Motor Vehicles of the KPM, is the central distribution agency for automotiv parts and is responsible for maintaining stockpiles of spare parts for use in military mobilization. To meet the country's needs, all passenger cars and most heavy -duty trucks have to he imported. By the end of 1970, motor vehicle imports amounted to about 60,000 passenger cars and 31,000 trucks. Most of the vehicles were obtained from the U.S.S.R.; some were imported from East Germany, Czechoslovakia, and Poland, and Western sources such as West Germany, France, Italy, and Sweden. During the last few years vehicle exports have increased considerably. By the beginning of 1971, almost 22,000 vehicles� trucks, dumpers, and buses had been exported to the U.S.S.R.; other vehicle exports, chiefly buses, were supplied to East Germany, Czechoslovakia, Poland, and Bulgaria, as well as Egypt and other Middle East nations. During the period of the Fourth Five Year Plan Hungary is slated to become one of Cie major European countries for the production and export of buses. E. Inland waterways (C) The Danube and 'Tisza, the major navigable waterways of Hungary, form two north south oriented systems, both physically separated within the country but connected at their confluence in Yugoslavia. The waterways total 1,320 miles and supplement the railroads and highways by affording basic industries ,uid tigriculture a low -cost means of hulk commodity transportation. The international Danube provides landlocked Hungary a connection to other riparian countries in the western, central, and southeastern parts of Europe and with dependable access to the Black Sea via U.S.S.R. river /maritime ports. The Tisza provides a lengthy north -south passage across eastern Hungary, where most other lines of surface communication are aligned cast -west. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 7. Articulated and standard buses at the Szeged bus station (U /OU) APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 The waterways and waterway facilities are adequate in extent and condition for the demands currently placed on them. The heavily trafficked Danube remains the best developed and maintained waterway in the country. Other waterways have considerable potential for development into high density routes. In 1970 1-1ungarian vessels carried 11.2 million short tons of freight and generated 1.9 billion ton -miles in domestic and international commerce. Foreign -flag vessels annua! :y carry an additional 5.5 million short tons in transit and about 700,000 short tons in H-ngarian import export trade on the Danube. During 1970, long distance passenger traffic amounted to 3.4 million passengers, generating 59.0 million passenger miles. The Hungarian Shipping Joint Stock Company (MAHART) accounted for 31 of the freight carried in Hungarian vessels but generated 94% of the ton -miles accomplished. The remainder was carried by various enterprises owned and operated by the Hungarian Government in short haul domestic operations. Principal cargo shipments are ores and scrap, POL (including crude) and other liquids; coal and coke, and mineral building materials. Items shipped in lesser quantity include metals and metal goods, chemicals, timber, foodstuffs, and general cargoes. The traffic pattern is primarily one of continuous shipping on the Danube, with upstream traffic exceeding downstream. The greatest volume. and density are encountered below Budapest, although at all times the traffic to, from, and through the capital is heavy. Lesser volumes are shipped on the "Tisza systenn and are accounted for mostly in seasonal traffic below Szolnok. Nine major wate form the two systems and provide 1,134 route miles of primary navigation in and bordering Hungary. Of the two systems, the Danube is more important and accounts for slightly over half of the route mileage. Both systems are about equal in length, but their lack of an internal connection denies the country an integrated network. The Danube system serves key industrial manufacturing and tourist sites in central and west central Hungary. The less developed Tisza system serves the agriculturally productive Great Alfold region of eastern Hungary. Generally flat river -basin topography results in waterways characterized !-.v slight current velocities and gradients, moderate seasonal water -level variations and flooding, and meandering courses flanked by wide flood plains in shallow valleys. Regulated and canalized streams account for about 50% of the primary navigation, improved streams about 30 and land -cut canals and routes on Balaton lake about 26%. The principal forms of regulation are extensive levee, dike, and groinwork systems supplemented locally by revetments, training walls, and a sparse arrangement of weirs, flood gates, and other water control facilities. To the north the Danube forms part of the Hungary Czechoslovakia border and provides access to West Germany through Austria. To the south it intersects the Hungary- Yugoslavia border, continuing eastward in or bordering parts of Romania, Bulgaria, and the U.S.S. R. to the Black Sea. The Tisza offers a direct connection south to the Yugoslav waterways and access to points along the Czecho- slovakia, Romania, and U.S.S.R. borders. Hungarian waterway operations are performed largely by tug Lowed dumb barges. Self propelled barges mostly 400- to 700 -ton craft �haul a lesser but increasing share of the yearly traffic. The Danube River seagoing freighters (Figure 8) ply upstream to Budapest but rarely beyond. -Most commonly operating on the Danube are 650- to 1,000 -ton barges towed by 600- to 1,200- horsepower tugs. Limited pusher operations were inaugurated in the late 1960's. Sufficient channel and clearance dimensions on the Danube permit use of high- cc.pacity convoys and flexibility in tow makeup, but at Gonyu most barge FIGURE 8. River- seagoing vessels and 700 -ton self propelled barges at Budapest (U /OU; r~ Mll e _121` 13 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 trains are reassembled because of differing navigation conditions on the middle and upper river. On the other major waterways tug and barge operations are limited to smaller convoys of one or two units towed astern in line -ahead formation. On the Danube insufficient depth (luring the shipping season is a major problem, requiring the light loading of 1,000 ton barges by 30% to 40% above Gonyu, and up to 20% below Gonyu. Operations on all waterways are aided by shore -based and floating navigational aids, traffic control signals at locks, and radio and radiotelephone services. Although the entire Hungarian Danube is equipped for 24 -hour operation, night navigation is generally practiced only below Budapest. A radar network is operational but inadequate. 'fhe principal traffic interruption factor is ice. On the Danube system ice is generally prevalent between mid December and mid February, halting traffic for 30 to 35 days on the Danube, its branches, and Ferenc Csatorna (Ferenc canal) between Baja, Hungary, and Bezdan, Yugoslavia, and up to 60 days on Balaton lake and the Sio, a canalized stream. On the Tisza system ice normally halts traffic for an average of 55 days between late December and early March. Normal low- and high -water conditions rarely halt traffic, but severe floods can bring Danube and lower Tisza traffic to a standstill for periods of 15 to 20 days. Additional interruptions result from spring and autumn fogs, which may suspend Danube navigation for 2 or 3 days above Budapest; gatelike winds, which may halt traffic for short periods, October through February, on the Danube below Budapest and the Tisza below Tokaj; and short, se,.-tional closures of the Danube because of army river crossing exercises. Frincipal structures include four locks each on the Danube and Tisza systems, 142 known bridge crossings, eight small- and medium -size regulatory weirs, and a variety of channel and flood control engineering works. The locks vary somewhat in size, and all but the one at Baja can accommodate 1,000 ton barges. The locks are single chambered, and most provide lifts of 13 to 15 feet, operate in 20- to 25- minute cycles, and have electrically operated steel miter gates. All but one of the river and canal bridge crossings have fixed spans, but all have adequate vertical and horizontal underbridge clearances for craft normally operating on these waterways. Most weirs are 2- or 3 -gate sluices bypassed via locks. Engineering works include the lengthy system of reinforced earthfill levees and dikes and stonefill or masonry groins, offshore dikes, training walls, and revetments. With the exception of Budapest and Dunaujvaros, both on the Danube, the inland ports are generally small, lack equipment for mechanized transfers, .111, have low yearly cargo turnovers. The major waterways are serviced by seven other ports of lesser significance: Almasfuzito�Szony, Baja, Gvor, Komarom, and Mohacs on the ube and Szeged and Szolnok on the Tisza. Budapest is the only port that has a variety of fixed freight handling equipment and extensive covered- storage facilities (Figure 9), but all ports have ample open storage areas and direct or nearby clearance by rail and /or road from iii: principal wharves. On 1 January 1970 the MAHART cargo fleet of 360 dumb barges and 41 self- propelled barges had an aggregate carrying capacity of 282,000 short tons. Total horsepower amounted to 52,000, 9�. furnished FIGURE 9. Budapest Free Port (U /OU) 14 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 by the 83 -unit tug fleet and the remainder by self propelled barges. MAHART also operates 18 freighters, 16 of which are river seagoing types having a tc tal deadweight tonnage of 32,550. The cosnpcny's passenger fleet comprised 55 vessels having a seating capacity of 16,000. The combined fleet of the other government en:-rprises has an estimated carrying capacity of 4,;,90 short tons and aggregate horsepower of 10,800. About 10% of the MAHART barge capacity is in dumb tankers exceeding a 700 -ton capacity. The remaining 90% is for dry cargo, mostly in 400- to 750 ton craft or those of over 1,000 tons. Conventional 800- and 1,200 horsepower diesel tugs are greatest in number and perform most of the long- distance Danube. towing. Since 1967 a small number of pusher units have become operational. About half of the river- seagoing fleet comprises 1,300 -d. w. t. Hazam and 1,650- d.w.t. modified Hazam -class vessels built in Budapest between 1961 and 1966. Some passenger craft have capacities of more than 1,000, but the majority are 200- to 600 -scat units. Five principal and two minor shipyards are responsible for the supply and maintenance of the MAIIART fleet. Fleet enlarge- ment is slow because about 80% of the annual shipyard production is exported largely to the U. S. S. R. The Ministry of Transportation and Postal Affairs has jurisd!;Jion over inland waterway transport policy and operations. Policy administration is delegated to the ministry's Department of Shipping, and department directives are implemented and exec -ited by MAIiART. Waterway construction and main- tenance is administered and coordinated by 12 regional directorates of the National Hydraulics Directorate. International Danube regulation is provided by the U.S. S.R. sponsored Danube commission; all riparian countries except West Germany have membership. Primary commission functions are planning improvement projects, coordinating river maintenance, establishing and promulgating operating regulations, aril publishing pilot charts and other navigational data. A 30 -year development plan proposes full canalization of the Danube and Tisza in and bordering the country and interconnecting both by a locked land -cut canal in central Hungary. The goal is to establish an integrated system, navigable throughout by fully loaded 1,350 -ton self propelled barges. Canalization' works include five multipurpose hydroelectric dams for each river, all to be bypassed by locking facilities. Progress to date includes a completed installation on the Tisza at Tiszalok and a second under contruction downstream at Kiskore. A target date of 1980 has been fixed for all Tisza works and the projected 80 -mile Dan �t,e -Tisza Canal. The year 2006 is the recommended completion date for all proposed works on the Danube. A lock- and -dam installation is under construction on the Sio Canal near its confluence with the Danube. Intermediate range plans include lock enlargements, reconstructing. the extensive levee and dike systems, and augmenting the Hungarian Danube radar network. A container terminal in the final stages of construction at Budapest is operational. Plans for fleet development and modernization include augmentation by river seagoing vessels and pusher barge- trains up to 10,000 ton capacity. F. Pipelines (C) Hungary has about 500 miles of crude oil pipelines, 180 miles of refined petroleum product pipelines, and 1,200 miles of main trunk natural gas pieplines in operation or under construction. Construction of other major long- distance product and natural gas pipelines is planned. More than half of Hungary's crude oil supply is received from the U.S.S.R. via the CEMA I "Friendship" pipeline, which enters Hungary at the Czechoslovakia border near Dregelypalank and extends 87 miles to Kapolnasnyek. Its capacity is about 110,000 barrels per day. The imported Soviet crude oil is processed in Hungarian refineries, including the country's largest refinery at Szazhalom- batta. A branch of this line from Kapolnasnyek serves the refineries at Szony and Almasfuzito. A second Hungarian branch of the CEMA system, completed in September 1972, will aid in meeting Hungary's growing requirements for crude oil. The new pipeline enters the country from the U.S.S.R. northeast of the town of Kisvarda and will serve the refinery at Szazhalombatta and a petrochemical complex at Tiszapalkonva. The capacity of this line is expected to reach 200,000 barrels per day when fully operational. Domestic crude oil produced in the Szeged /Algyo region in south central Hungary is conveyed by pipeline to the Szazhalombatta refinery. A major crude oil pipeline which was formerly used to transport highly viscous crude from the Lovaszi and Nagylengyel oilfields in southwestern Hungary to the Szazhalombatta refinery has been used primarily to transport natural gas in recent years. Major natural gas trunklines include the converted line from the Lovaszi /Nagylengyel region, two lines 15 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA -RDP01 007078000200110043 -6 FIGURE 10. Selected and planned pipelines (C) TERMINALS From To Czechoslovakia Ilungary border (near Kapolnasnyek............ Dregelypalank). Kapolnasnyek Szony................... 44 12 ....do............ U.S.S.R.- Hungary border (near Tisza- Tiszapalkonya........... 68 22 ..do............ zentmarton). Tiszapalkonya Szazhalombatta.......... 110 20 ....do............ Czechoslovakia-Hungary border (near Tiszapalkonya........... 50 no ..do............ Banreve). Algyo DIAJI- PRODUCTS LENGTH ETER TRANSPORTED 3files Inches S7 16 CrU 1C Kapolnasnyek Szony................... 44 12 ....do............ U.S.S.R.- Hungary border (near Tisza- Tiszapalkonya........... 68 22 ..do............ zentmarton). Tiszapalkonya Szazhalombatta.......... 110 20 ....do............ Czechoslovakia-Hungary border (near Tiszapalkonya........... 50 no ..do............ Banreve). Algyo Szazhalombatta.......... 105 12 ....do............ Nagylengyel Deveeser................ 38 10 ....do............ Yugoslavia- Ilungary border (near Czechoslovakia Ilungary 150 Gyekenyes), border (near Rajka). Szony Kapolnasnyek............ 44 Szazhalombatta Szolnok................. 76 Do............................. Pecs.................... 183 14 ....do............ 6 Products.......... 7 ....do............ 8 ....do............ TRRouGH- PUT CAPACITY REMARKS 110,000 Branch of CEMA 1 pipeline system completed mid -1962. Pumping stations at Sahy, Czech- oslovakia, and Retsag and Godollo. Serves refinery at Szazhalombatta. 40,000 Branch of CEMA I pipeline system completed mid -1970. Pumping station at Kapolnasnyek. Serves Szony and Almasfuzito refineries. 200,000 Branch of CEMA 11 pipeline system Pumping station at Fenyeslitke. Serves refinery in Nyirbogdany and petrochemical complex in Tiszapalkonya. Reported parallel pipeline is to transport ethylene from Tiszapalkonya to the U.S.S.R. 160,000 E �tension of preceding line; completed in late 1972. Pumping station at Tiszapalkonya. Will serve refinery in Szazhalombatta. na Unconfirmed loop section from CEMA I line at Safarikovo, Czechoslovakia, to CEMA 11 line at Tiszapalkonya. Reported as reserve or standby line for emergency use only. 20,000 Completed 1971. Pumping station at Algyo. Route via Varosfold, Keeskemet, Orkeny, and Sari. Algyo terminal served by additional 90 to 100 miles of local collecting pipelines. 10,000 Completed 1957; operated intermittantly after 1966. Pumping station at Nagylengyel. Planned extensions to Petfurdo and Szony not realized. 40,000 Planned line from Adriatic Sea; to serve Yugo- slavia, Ilungary, Czechoslovakia, and pos- sibly Poland. Completion date 1975 or later. 12,800 Former crude oil line which pumped oil in reverse direction. Parallels CENIA I crude oil line. na Reported operational and used intermittantly according to demand. Route via Sari and Ccglcd. 20,000 Construction was to begin late 1071. Route to b- via Szekesfehervar, Dombovar, and Kaposvar. May include unconfirmed line from Szazhalombatta to Lepseny. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA� RDP01- 007078000200110043 -6 Do Szeged........ liii Romania Hungary border (near Kazinebareika........... 101 C'senger). lfajduszoboszlo Borsodnadasd............ 91 Vccses Salgotarjan.............. 55 lfajduszoboszlo Verses.................. 13 Do Debrecen................ 13 U.S.S.R.- Hungary border (near Flatvan 143 Beregdaroc). Kardoskut Gyula................... 26 Do Adony.................. 89 A lgyo Vccses.................. 87 45 Orsrentinik los Budapest................ 9 Ujudvar ....do.................. 12:3 Dunaujvaros ....do.................. 43 Not pertinent. Fat Data not available. *Barrels per clay for crude oil; cubic meters per dicy for natural gas. F' Fitz ....do............ na Consiruction was to begin late 1971. Route to be via Kiskunhalas, Cegled, Keeskemet, Szajol, Szentes, and Szeged. May be only extensions of Szazheijmbatta- Szolnok line. 12 Natural gas........ 600,000 Transports imported gas from lioniania via Tiszapalkonya. Short branches serve Nyi- regyhaza and Misl )lc. Connects with follow- ing lino at Miskolc and Kazinebarcika. 16 .."a............ 1,900,0110 Route via Tiszapalkonya, Miskolc, Kazule- bareika, and Ozd. Capacity beyond Tiszapal- konya is 950,000 cubic meters per day. 16 -28 do............ na Planned completion in 1973. 28 -in. pipe to Aszod; 16 -in. pipe Aszod to Salgotarjan. Fla ....do............ na Route via Nadudvar and Szajol. Short branches serve Kumnadaras, Kareag, Szolnok, and Szandaszollos. ua ..dn............ 37,000 Two parallel lines under construction in 1971; capacity 165,000 cubic meters per day. 25.5 fo............ 2,740,000 Planned. Scheduled for completion late 1974. Route to be via Vasarosnameny, Nyiregy- haza, Tiszavasvari, Polgar, Tiszapalkonya, and 1Ieves. Will probably connect with Verses- Salgotarjan line at tlatvan. Fla ....do............ 180,000 Route via Pusztafoldvar and Bekesesaba. Two parallel 5 -mile branches from Kardoskut to Oroshaza. Branch planned from Bekescsaba to Mezobereny via Bekes for 1971. 12 ....do............ 1,090,000 Route via Szentes, Csongrad, and Varosfold. 10 -mile branch from Adony to Dunaujvaros. 2.1 do............ 3,500,000 Under construction 1971. Route via Varosfold, Keeskemet, and Orkeny. 18 ..do............ 1,900,000 Budapest Gas Ring; encircles city; main termi- nal at Veeses. Branch to Csepel. 12 ..do............ na Double line originating at gas production and underground storage facility. 8 ..do............ 90,000 Formerly transported both crude oil and natu- ral gas; presently used only for gas. Route via B.latonboglar, Lepseny, and Kapol- nasnyek. 12 Manufactured gas.. 420,000 Possibly also transports natural gas. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 from the SzegcdJAlgyo region, and a line from the Hajduszoboszlo gasfields, all of which terminate in the Budapest area. A pipeline from Romania and anckher which connects in Czechoslovakia with the BRATSTVO (Brotherhood) line from the U.S.S.R. serve the northeastern part of Hungary. An additional natural gas pipeline is planned for completion in late 1974. It is to enter Hungary from the U.S.S.R. and serve both the Budapest and northeastern industrial areas. Details of selected and planned pipelines are given in Figure 10. G. Merchant marine (C) The Hungarian merchant marine consists of 18 dry cargo ships, 1,000 gross register tons (g.r.t.) and over, totaling 33,061 g.r.t. and 45,038 deadweight tons (d.w.t.). All units of the fleet, with the eYccption of three built in the early 1950's, were built between 1961 and 1968. Five ships were built in foreign shipyards; three of the five are secondhand purchases from West Germane, and two are Sofia -class dry cargo ships built to Hungarian order in Bulgaria. Deadweight tonnages of the 13 Hungarian -built ships are under 2,000 d.w.t. The largest ships in the fleet are the two Bulgarian built ships at 4,452 g.r.t. and 6,225 d.w.t. each. All of the ships are diesel powered and have speeds ranging from 9.5 to 14 knots. Only one ship, Duna (4,502 d.w.t. has large hatches (50 feet or longer), and two ships, Raba and Tisza (4,749 d.w.t. each), have a heavy -lift capability (40 tons or more). Characteristics of the Fleet are given in Figure 11. The state -owned merchant marine is controlled by the Shipping Department of the Ministry of Transportation and Postal Affairs and is managed by the Hungarian Shipping joint Stock Company (MAHART), Budapest. On 10 June 1970 Hungary became a member of the Intergovernmental Maritime Consultative Organiza- tion (IMCO), a specialized agency of the United Nations concerned with international maritime matters. Hungary alsr has agreed to comply with the General Agreement on Tariffs and Trade (GATT), a multilateral treaty which lays down a common code of conduct in international irade. FIGURE 1 1. Hungarian merchant ship characteristics (C) (AII are dry-cargo units and are diesel powerec!) BUILT NASIE G.R.T. BoBSoo 1,207 BunAPCST 4,452 t'EGLED 1,409 D F. IIR I. C I, N 1,199 DuNA 2,350 DU NA U JVAIt OS. 1,214 HAJDUSZOBOSZLO....... 1,262 11EREND 1,199 Ft EVIZ 1,199 II I N G A It I A 4,452 RABA" 2,696 So+ux:w 1,259 S'ZF.GED 1,208 SZEKFSFF.BEIt AR....... 1,403 T AT A 1,199 TnI AN 1,207 TISZA 2,741 LJ P EST 1,405 'Has large hutches 55 ft. long. *Has heavy -lift capability of 50 tons. *Abbreviations: 68 HU Hungary HAAM BU Bulgaria f {U WG West Germany 12.0 D.W.T. In Year SPEED CALL SIGN Knots 1,188 If 62 12.0 HAAR 6,225 BU 67 13.0 HAAQ 1,460 IIU 66 12.0 HAAL 1,694 HU 65 12.0 HAAO 4.502 WG 51 13.0 HAAH 1,179 IIU 63 12.0 HAAB 1,460 IIU 68 12.0 HAAM 1,694 f {U 65 12.0 HAAI 1,460 IIU 65 12.0 HAM 6,225 BU 68 13.0 HAAP 4,749 WG 51 14.0 HAAY 1,733 HU f7 12.0 HAAN 1,202 IIU 63 12.0 HAAT 1,300 IIU 64 12.0 IIAAU 1,694 IIU 65 10.8 HARD 1,224 IIU 61 9.5 HAAH 4,749 WG 52 14.0 HAAX 1,300 H 64 11.0 HAAV 18 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Hungarian authorities have expressed a desire to participate in the International Monetary Fund but feel that it would be presumptuous on their part to join before the U.S.S.R. In 1970, Hungary's seaborne foreign trade amounted to 1.5 million metric tons, 406,000 metric tons (27 of which were carried by Hungarian ships. To insure movement of this trade, Hungary chartered 11 non Communist ships. In 1970, charter agree- ments, all on a voyage charter basis, were negotiated with shipping companies in Greece (four), Liberia (two), Norway (two), Finland (one), Spain (one), and Tanzania (one). Hungarian seagoing cargo had until 1971 been shipped largely by rail to the Polish ports of Szczecin (Stettin), Gdynia, and Gdansk for transshipment. In 1970, over 886,000 metric tons of Hungarian cargo passed through these ports. Lesser amounts were shipped from Hamburg, West Germany, and the Last German ports of Rostock, Wismar, and Sassnitz. East German port facilities have been greatly expanded in recent years. Under a 1971 transportation agreement with East Germany, Hungary was :inured of a 50% increase in available transshipment and cargo loading /unloading facilities. Hungary's principal trading partners are Commu- nist countries, one -third of the trade going to the U.S.S.R., one -third to the other Communist countries, and one -third to the non Communist world. India occupies first place in Hungary's trade with the developing countries. Exports, which increased 19% in the first 11 months of 1971, include industrial and consumer goods, iron and steel products, chemicals, pharmaceuticals, medical instruments and installa- tions, wood products, portal and floating cranes, containers, and seagoing ships. Imports include cotton and synthetic textiles arid fabrics, crude oil, machini- y, vehicles, metals, minerals, and consumer products. Hungarian ships sail mainly between ports in the' Black arid Mediterranean Seas. Only two ships, Budapest and 11ungaria, are assigned to international trade routes. In March 1971 Budapest became the first Hungarian merchant ship to travel between Europe and South Arnerica. A new shipping service to India also was inaugurated in March 1971 when the tlungaria arrived at Bombay loaded with steel. It is expected that Hungary will benefit greatly from the proposed Danube Tisza canal, scheduled to be built between 1975 and 1980. Connection of the Danube and "Tisza water systems will facilitate water transportation of goods riot only through Hungary but also through Europe. With the charter market tightening and prices increasing rapidly, MAHART has concluded that in order to retain more convertible currency, the merchant fleet will have to be expanded considerably. Accordingly, the plan for 1971 -75 calls for the acquisition of a sufficient number of large oceangoing ships to raise the present transport capacity by 150 Currently on order from the U.S.S.R. are two dry cargo ships, Poltava class (12,700 d.w.t.) both scheduled for delivery sometime in 1973. In addition, commission of sonic 23,000 d.w.t. ships is being considered to transport increasing phosphate shipments from the North African countries. The merchant marine provides ernploy for about 700 persons, about 450 of whom are assigned to sea duty. The remaining personnel are assigned to supervisory and administrative duties ashore. A secretary of the Hungarian Communist party, a secretary of the youth organization (KISz), and a trade union representative are assigned to each ship, and much literature from these organizations is provided crew members. It is not mandatory to be a party mem`)er or to read this material. However, it behooves crew members to participate as much as possible, since the captain is assisted by the party secretary in preparing periodic crew evaluations. Maritime personnel aye recruited through adver- tisements in newspapers, on radio and television, and in commercial schools. All applicants are required to have completed military service prior to employment. An exception to this requirement can he granted provided the applicant has completed 8 years of elementary school, 4 years of secondary school, and 3 years at the maritime officers academy. Such personnel would receive only army reserve training. The Ministry of Interior exercises close security control over prospective maritime personnel, particularly those with relatives in non Communist countries. Such persons can be accepted for employment but cannot be assigned to ships traveling to non Communist areas. After passing a stringent medical examination, and an examination on maritime theory, candidates for ship's officer positions, including master, attend the tninsnortation college. (Kozlekedesi foiskola) in Budapest, learning to perform all shipboard positions from deckhand to master. The curriculum is arranged to permit the men to spend 1 or 2 summer months on seagoing vessels. In 1971, about 10 Hungarians graduated front the Soviet Marine Engineer Academy and were assigned either to it Soviet or Hungarian ship. 19 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 As of August 1969, the following pay scale, in forints (11.74 forints= U.S.$1.00), was in effect for maritime personnel: POSITION MOVMLY BASE PAY Forints Captain /Chief Engineer 2,700 First Officer 2,400 Second Officer 1,700 Third Officer 1,500 First Engineer 2,500 Second Engineer 2,000 Radio Officer /Purser 930 AB Seaman/Boatswain 1,400 Ordinay Seaman 1,000 Apprentice Seaman 800 Carpenter 1,200 to 1,400 Cook 1,500 includes much overtime) Under a new foreign currency allowance for use in foreign ports, authorized in 1968, oceangoing personnel receive additional wages, in U.S. dollar equivalents, as follows: Captain /Chief Engineer 60.00 per month First Officer 1.80 per day Employees with over 2 years' service 1.20 per day Employees with less than 2 years' service 0.80 per day In addition, crew members receive a monthly bonus, based on cargo tonnage and mileage covered by the ship, as follows: Officers 300 to 600 forints Seaman 300 to 400 forints The captain and chief engineer are authorized an additional U.S.$15.00 to be used as "representation" funds when dealing with foreign maritime personnel. Maritime personnel also receive a yearend bonus based on the shipping company's annual profit. The amount is divided so that each employee is paid at the rate of the. regular daily wage times the number of days (Inc. Membership in the Maritime Trade Union is mandatory, and dues are based on monthly earnings (approximately L65 In addition, employees are assessed 3% monthly for social security and medical coverage and 2% monthly for uniforms �each crew member is issued one free uniform every 2 years. One fringe benefit derived from union membership is an allowance to cover all funeral expenses in connection with the death of an immediate family member. H. Civil air (C) Civi! air transportation in Hungary is provided by a state enterprise, llt.ngarian Airlines (MALEV), and 20 controlled by the Department of Civil Aviation, which is subordinate to the Ministry of Transportation and Postal Affairs. The ministry is solely responsible for the administra: ion and control of civil aviation and commercial air services. In addition to MALEV, Hungary has a numberof lesseraviation organizations assigned to other governmental agencies. All flight activities, however, are under the technical control of the ministry. There is no private aviation. There have b,.::n no scheduled domestic air services in Hungary since 1970. Prior to that time MALEV operated a domestic route between Budapest and Debrecen. The longest possible air route from Budapest to another city within Hungary is about 200 miles. Air transportation on short routes is much more expensive than .urface transport and is not significantly faster. Internal services were discontinued because there was little public demand for them, and they were t-it,rofitable. MALEV international services connect Budapest to 34 foreign cities. Year -round services are provided to nine cities in Eastern Europe and the U.S.S.R. (Moscow, Leningrad, Prague, East Berlin, Warsaw, Belgrade, Sofiya, Tirane, and Bucharest), and five additional cities (Erfurt, Dresden, Kiyev, Dubrovnik, and Constanta) are served during the summer. A total of 2v non Communist cities are included in MALEV's international route network: Munich, Frankfurt, Paris, London, Vien Zurich, Brussels, Madrid, Milan, Rome, Col hagen, Stockholm, Oslo, Helsinki, Athens, Cairo, Nicosia, Damascus, Istanbul, and Beirut. MALEV also engages in nonscheduled domestic and foreign services. The carrier currently operates six Coo�r (I1 -18), seven CILIATE (1144), and eight Cnus (Tu -134) aircraft. MALEV assigns its II -18 and Tu -134 transports to international routes, and the II -14 aircraft are used for charter services and for relief of overcrowded tourist flights in the summer. Long -range plans envision the addition Of CARELESS (Tu -154) transports to the MALEV fleet by 1973 and CLASSIC (I1 -62) long -range jetliners in the future. It is estimated that MALEV has 60 to 70 transport pilots and about 110 other aircrew personnel among a possible 1,350 employees. Within a 3 -week period during August and September 1971, two MALEV aircraft, one Coo and one Cnus�rY, were destroyed in accidents, both resulting in Icavy loss of life. Routine aircraft maintenance is performed by MALEV in Budapest. Thecarrier has the capability to overhaul CnATF, engines, but engine overhaul on Cools and Cnu;s'rY's must be performed in the U.S.S.R., which necessitates their return to the Soviet Union, often for long periods of time. Routine APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 maintenance is complicated further by long and costly delays resulting from: the fact that all spare parts must be shipped from the U.S.S.R. Other agencies, such as aeroclubs (training and sports flying), the Ministry of Health (ambulance and rescue service), the Ministry of Agriculture and Food (cropdusting, fertilizing, and ;,r)d the Geodetic Survey Institute (aerial survey work) have a total of about 100 aircraft. These are mostly single engine light aircraft of Polish, Czechoslovak, and Soviet manufacture. Basic aviation training is accomplished through aeroclubs associated with the Hungarian Sports Federation for National Defense (MHS). The MHS operates over 30 aeroclubs located in the vicinity of the larger cites throughout the country. Advanced pilot training for civil transport operations is conducted by MALEV at Buda pest/ Ferihegy Airport. The Ministry of Agriculture and Food operates its own school for the training of a6.:.:ultural and forestry pilots. Other technical aviation training is provided by state technical schools in the Budapest area. Hungary is signatory to the Convention for the Unification of Certain Rules Relating to International Carriage Ly Air (Warsaw Convention, 1929) and to the 1955 Hague Protocol to the Warsaw Convention. These international agreements govern the liability of an air carrier in case of damage caused to passengers, baggage, and cargo while engaged in international flights. Hungary is also party to the Convention on International Civil Aviation (Chicago Convention, 1944), .which is the principal multilateral aviation convention regulating safe and orderly development in international air services on the basis of equality of opportunity. By virtue of adherence to the Chicago Convention, Hungary is a member of the Interna- tional Civil Aviation Organization 1,ICAO). The Government of Hungary has formal or informal civil air accords with at least 39 countries, including all the East European Communist states, the U.S.S. R., the People's Republic of China, and North Vietnam. MALEV, along with the air carriers of Czecho- slovakia, East Germany, Poland, Romania, and Bulgaria, is par'; to a multilateral agreement known as the Six -PrA Agreement. Under 'ac terms of these various agreements and arrangements, regularly scheduled services to Hungary arc provided by 15 foreign carriers. The following carriers operatt! services to Budapest: Aeroflot (U.S.S.R.) Czechoslovak Airlines (CSA TAROM (Romania) Interflug (East Germany) LOT (Poland) BALKAN Bulgarian Airlines) Royal Dutch Airlines (KLM Beigian World Airlines (SABENA Swissair Finnair Scandinavian Airlines System (SAS) Lufthansa German Airlines British European Airways (BEA Air France Austrian Airlines I. Airfiel& (S) Tiie Hungarian air facilities system consists of 48 operational airfields with lengths of 2,000 feet or more. 'Twenty -two of the airfields are military, six are jointly military and civil, and 20 are exclusively civil. Of the 48 airfields, 28 are classed as major facilities with runways in excess of 6,000 feet; 13 of these have hard surfaced runways, and 15 have runways of improved graded earth. One airfield is believed capable of supporting jet heavy bombers on a sustained basis, one probably can accommodate turboprop heavy bombers, three can support regular operations by jet medium bombers, eight can be used by jet light bombers, and each of the major 28 facilities can accommodate sustained jet fighter operations, assuming the use of mobile support equipment in some instances. T: c Soviet Air Force, Hungary (SAFH), controls six military air bases, one joint usage airfield, and seven dispersal facilities within Hungary. The Hungarian Air Force has five military air bases and three dispersal airfields under its arisdiction. Of the remaining six major airfields, five are controlled by the Hungarian Sports Federation for National Defense (MHS) and are utilized in premilitary flight training, soaring, and parachuting, and the other, Budapest /Ferihegy, is Hungary's international airport under the control of MALEV but also used frequently by Hungarian Air Force transports in the movement of national authorities. These civilian airfields, as well as some others of military potential measuring less than 6,0( feet, can be used by military aviation with little advance preparation. Except in the northern hills area where existing airfields are rather sparse and limited in sire and expansion capabilities, the Hungarian airfield network is well distributed throughout the country in locations suitable for both offensive and defensive military operations. The airfield system is adequate for present military requirements. The 13 major airfields having hard- 'Detailed information on individual Hungarian airfields is contained in Volume 15, Airfields and Seaplane Stations of the World, published by the Defense Intelligence Agency. 21 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 surfaces! runways are well maintained on a year -round basis, as are the five Soviet graded earth primary dispersal facilities. The two SAFH secondary and the three Hungarian Air Force primary dispersal airfields are less well maintained, being serviced only during periods of use. Permanent caretaker cadres have been assigned to each of the five Soviet primary dispersal airfields, which have been provided son! c semiperma- nent support equipment and facilities� including housing, communications, fuel stores, runway and taxiway lighting, snow and ice removal devices, and ground maintenance equipment �to help assure their operational capability 24 hours it day in all seasons. Nonetheless, all dispersal airfields in Hungary are dependent to some degree on the use of mobile st.pport facilities, and particularly so with regard to precision electronic navigational and landing aids. Over the past few years significant improvements in active and passive defenses have been made at air bases in Hungary. At Hungarian Air Force bases numerous dispersed reinforced aircraft revetments have been constructed. Similar revetments also were built at the SAFH bases, but these have been largely replaced at four of them (Buda pest/ Tokol, Kiskunlac- haza, Kunmadaras, and Sarmellek) by extensive numbers of hardened aircr; ft hangarettes. There now are a total of 184 hardened hangarettes at the five SAFH bases, including is ne vly completed at Debrecen. No hardened hangarettes have been noted thus far at Hungarian Air Force bases, but their appearance would seem to be only a matter of time since such a construction program has been initiated at national air bases in other Eastern European countries. Each SAFH airfield to which a tactical unit is assigned has been provided a surface -to -air missile unit (SAM -3) to enhance defensive capabilities against low flying aircraft, and antiaircraft artillery (AAA) defenses are now located at most of the air bases in Hungary. There is evidence to indicate that the SAFH may have initiated at its bases' in Hungary a general program of "hardening" key operational and support facilities such as command and control, communica- tions, and air -to -air missile (AAM) storage installa- tions, personnel shelters, and fuel distribution systems. Such a project would be a logical follow -on to the hardened aircraft hangarette program. Details on the most important airfields are noted in Figure 12. J. Telecommunications (S) Telecommunication (telecom) services in Hungary are provided by a network of multiconductor cables, open -wire lines, and radio facilities. Most government 22 and industrial needs are adequately met, but telephones for use by the general public are limited. Special- purpose telecom systems, using public intercity circuits and separate landline and radiocommunication networks, serve military, police, railroad, government, and aeronautical organizations. The government -owned railroad system operates one of the largest telecom systems in the country. The Soviet Southern Group of Forces operates its own open -wire telephone system. Radiobroadcast service, using two national network programs, covers about 90% of the country, and TV programs can be viewed in 80% of the country. Wired broadcast has declined considerably in recent years and is expected to be discontinued in the near future. Among the Eastern European Communist countries, the degree of Hungarian telecom development slightly exceeds that of Albania, Bulgaria, and Romania, but it is not quite as advanced as those of West European countries. All telecom facifities are owned by the government and administered by the Ministry of Transportation and Postal Affairs. Preparation of radio and TV programs is a responsibility of the Ministry of Culture. Hungary is a member of the International Telecommunication Union, the International Radio and Television Organization, and the Organization for Telecommunication Cooperation. The domestic wire systems provide telephone and telegraph services and circuits for broadcast program distribution. Local telephone facilities consist of both automatic and manual exchanges; the largest facility is located in Budapest. At the end of 1972 there were 873,194 telephones (about eight telephones per 100 persons) in use; nearly 100% of the telephones are connected to automatic exchanges. The telegraph system includes a network that provides interconnec- tions between all major centers, many through the switching center at Budapest. Connections to international teleprinter facilities are available from this network. Telegraph facilities usually are located in post offices. Most telegrams are transmitted by teleprinter, but small rural offices pass messages by telephone to teleprinter equipped offices. The national teletype network includes main centers at Budapest, Debrecen, Gyor, Miskolc, Pecs, and Szolnok. Facsimile service, available to 20 countries, is utilized 90% by the Hungarian News Agency. Networks of multiconductor cables and open -wire lines interconnect all population centers. A few large cities and some remote towns are interconnected by radio -relay links. Open -wire lines generally connect rural areas and small towns to the cable network, and some of the lines also parallel cable routes. The main switching ccn.er for both domestic and international service is located in Budapest. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 FIGURE 12. Selected airfields (S) LONGEST RUNWAY: SURFACE, DIMENSIONS, ELEVATION ABOVE SEA LARGEST AIRCRAFT NAME AND LOCATION LEVEL NORMALLY SUPPORTED F'okto MP 33'N., 18�57'E. Ixecskernet 46 19�45 Kiskunlachaza........... 17'11'N., 19 �05'E. Kunmadaras 47 �23'N., 20' Mezokovesd 47�49'N., 20 Papa.................... 47 �22'N., 17'30'F.. Sarmellek 46'41 17 �10 'raszar 4V24 17 �55 Veszprem 47 �05 17 59 1 E. Concrete 6,600 x 200 300 Concrete. 8,200 x 250 385 Concrete 8,200 x 240 320 Concrete. 8,200 x 230 310 Concrete 11,500 x 270 375 Concrete 7,900 x 280 440 Concrete 6,600 x 200 400 Concrete 8,200 x 230 500 Concrete. 6,600 x 240 93:i MI -10 JIARKE) REMARKS Civil, air force. Main civil airfield. Probably can support 'ru -95 (BEAR) and Tu -114 (CLEAT) aircraft. Also used in military air- lift of national authorities. Soviet air force. Major all- weather jet fighter and transport base; depot maintenance. Can support jet medium bombers. Soviet air force, civil. Major all- weather jet light bomber base. Can support jet medium bombers. Also used as weather alternate for Budapest/ Feri hegy. Soviet air force. Major helicopter base, but also can support jet fighters. II -28 (BEAGLE) Air force. Major all- weather jet fighter base. Can support jet light bombers. ....do Soviet air force. Major all weather jet fighter base. Can support jet medium bombers. ....do Soviet air force. 'Major ground support base. Nuclear weapons storage site. Can support jet light bombers. ....do Soviet air force. Believed to have been built as Warsaw Pact heavy bomber base. ....do Air force. Major nll- weather jet fighter base. Can support jet light bombers. ....do Soviet air force. Major all- weather jet fighter base. do Air force. Major all- weather jet fighter base. Can support jet light bombers. II -14 (CRATE) Air force. Major helicopter and transport base. Can support jet light bombers. International telecom circuits are maintained with most European countries and with Lebanon, Turkey, and the People's Republic of China, mostly by means of radio or rnultic:mductor cable. Open -wire lines extend to all adjacent countries and provide the principal circuits with Romania and Yugoslavia. Radio -relay links are used to exchange international TV programs. All international telephoac circuits are now switched manually, but an automatic exchange being installed will enable operators to dial long distance calls. Two international radiocommunication transmitting stations are located about 40 miles southwest of Budapest, near Szekesfehervar. Both stations are controlled from the telegraph center in the Budapest Central Post Office. International radiocom- munication receiving stations are located at Rakosszentmihaly, a suburb of Budapest, and Tarnok, about 10 miles southwest of Budapest. Broadcast services are provided by AM, FM, and TV stations and by a Oiminishing wired- broadcast netwc;k. AM broadcast stations are located in 10 cities and provide good coverage throughout the country. FM broadcast service is provided by only four stations. Most domestic and all international programs originate at studios in Budapes;. In mid -1971 over 2.5 million radio receivers were licensed. In comparison 23 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 Feel Budapest/ Ferihe�;r....... Concrete Tu -104 (CAMEL) 17 26'N., 19 �14'E. 9,900 x 200 440 Budapest /Tokol.......... Concrete Tu -16 (BADGER) 47'21'N., 18'59'E. 8,200 x 310 330 Debrecen Concrete......:....... II -28 (BEAGLE) 47 �29'N., 21 3VE. 8,200 x 260 345 F'okto MP 33'N., 18�57'E. Ixecskernet 46 19�45 Kiskunlachaza........... 17'11'N., 19 �05'E. Kunmadaras 47 �23'N., 20' Mezokovesd 47�49'N., 20 Papa.................... 47 �22'N., 17'30'F.. Sarmellek 46'41 17 �10 'raszar 4V24 17 �55 Veszprem 47 �05 17 59 1 E. Concrete 6,600 x 200 300 Concrete. 8,200 x 250 385 Concrete 8,200 x 240 320 Concrete. 8,200 x 230 310 Concrete 11,500 x 270 375 Concrete 7,900 x 280 440 Concrete 6,600 x 200 400 Concrete 8,200 x 230 500 Concrete. 6,600 x 240 93:i MI -10 JIARKE) REMARKS Civil, air force. Main civil airfield. Probably can support 'ru -95 (BEAR) and Tu -114 (CLEAT) aircraft. Also used in military air- lift of national authorities. Soviet air force. Major all- weather jet fighter and transport base; depot maintenance. Can support jet medium bombers. Soviet air force, civil. Major all- weather jet light bomber base. Can support jet medium bombers. Also used as weather alternate for Budapest/ Feri hegy. Soviet air force. Major helicopter base, but also can support jet fighters. II -28 (BEAGLE) Air force. Major all- weather jet fighter base. Can support jet light bombers. ....do Soviet air force. Major all weather jet fighter base. Can support jet medium bombers. ....do Soviet air force. 'Major ground support base. Nuclear weapons storage site. Can support jet light bombers. ....do Soviet air force. Believed to have been built as Warsaw Pact heavy bomber base. ....do Air force. Major nll- weather jet fighter base. Can support jet light bombers. ....do Soviet air force. Major all- weather jet fighter base. do Air force. Major all- weather jet fighter base. Can support jet light bombers. II -14 (CRATE) Air force. Major helicopter and transport base. Can support jet light bombers. International telecom circuits are maintained with most European countries and with Lebanon, Turkey, and the People's Republic of China, mostly by means of radio or rnultic:mductor cable. Open -wire lines extend to all adjacent countries and provide the principal circuits with Romania and Yugoslavia. Radio -relay links are used to exchange international TV programs. All international telephoac circuits are now switched manually, but an automatic exchange being installed will enable operators to dial long distance calls. Two international radiocommunication transmitting stations are located about 40 miles southwest of Budapest, near Szekesfehervar. Both stations are controlled from the telegraph center in the Budapest Central Post Office. International radiocom- munication receiving stations are located at Rakosszentmihaly, a suburb of Budapest, and Tarnok, about 10 miles southwest of Budapest. Broadcast services are provided by AM, FM, and TV stations and by a Oiminishing wired- broadcast netwc;k. AM broadcast stations are located in 10 cities and provide good coverage throughout the country. FM broadcast service is provided by only four stations. Most domestic and all international programs originate at studios in Budapes;. In mid -1971 over 2.5 million radio receivers were licensed. In comparison 23 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 with other Communist nations, Hungary's interna- tional broadcasting effort is quite limited, although daily programs are directed to listeners in Europe, the Middle East, the Far East, and to North and South America. There are one main and 10 TV relay stations; five are high -power stations at Budapest, Kabhegy mountain, Kekes mountain, Szentes, and Tokaj. The other six are low -power stations located to serve specific urban areas or to fill gaps in the coverage of a high -power station. Domestic TV programs originate in the Budapest studios and are broadcast simultaneously by all stations. In mid -1972 more than 1.9 million TV receivers were in use. International TV programs are exchanged regularly with the Intervision Network and occasionally with the Eurovision Network. The telecommunications equipment industry ranks third among East European Communist countries in volume of output. The industry consists of nine major plants producing telephone, radio, and TV equipment in quantities adequate to fill nearly all domestic needs and to afford substantial exports. Exports, in some years amounting to as much as 40% of output, include telephone and microwave relay systems as well as articles such as .elephone handsets and radio and TV receivers. Telecom censorship is carried out by various agencies of the Ministry of Interior. Long distance 2 =1 telephone calls are ro monitored, and international telegraph traffic also is tens^ red. Security police or military personnel guard the most important telecom facilities. Main long.discanec circuits consist of underground cables, which are not easily sabotaged. Most vulnerable are the numerous repeater stations used on all sections of the wipe line network. Maintenance personnel are well organized and capable of handling the ;r assignments. Periodic refresher training is provided. Repair and supply responsibilities are divided among six regional directorates. Terrain and weather present no unusual problems in constructing or maintaining telecom facilities. Plans provide for continued modernization and expansion of all telecom services. Telex exchanges are to be increased from 2,600 to 6,000, and more automatic telephone exchanges are to be installed. In 1969, 14 cities were believed to have direct-distance- dialing systems; by 1985, 90% of Hungary's phones are scheduled to be on direct- distance dialing. Plans also provide for expanding Hungary's TV relay system to 70 stations and the first transmission of color TV broadcasts. Color TV, using the SECAM system, was originally scheduled for 1969, but it is believed to have been delayed until 1973. APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 GLOSSARY (U /OU) ABBREVIATION FOREIGN ENGLISH AKOV Autokozlekedesi Vallalat Motor transport enterprises AUTOKER Auto Keresekedelmi Vallalat Automobile and Spare Parts Enterprise BHEV Budapesti Helyierdeku Vasut Budapest Suburban Railways FHV Fertovidaki Helyierdeku Vasut Lake Fert6 Suburban Railroad Gy. S.E.V. Gyor- Sopron- Ebenfurti Vasut Gyor- Sopron Ebenfurth Railway HUNGAROCAMION International Road Transport Company KIS Kommunista Isjusagi Szovetwg Communist Youth League KPM Kozlekedes es Postaugyi Minisz- Ministry of Transportation and terium Postal Affairs MAHART Magyar Hajozasi Reszvenytarsasag Hungarian Shipping Joint Stock Company MALEV Magyar Legikozlekedesi Vallalat Hungarian Airlines MAV Magyar Allamvasatak Hungarian State Railways MAVAUT Magyar Allamvasatak Autobusz Autobus Service of the Hun Uzeme garian State Railways MN Magyar Nephadsereg Hungarian People's Army MHS Magyar Honvedelmi Sportszovetseg Hungarian Sports Federation for National Defense SAFH Soviet Air Force, Hungary TAROM Transporturi Aeriene Roman Romanian Air Transport UVATERV Ut Vasut Teruezo Vallalat Road and Railroad Construction Planning Enterprise VOLAN Trust Autokozlekedesi Troszt Volan VOLAN Trust Transport Orga- nization SEcpxr 25 APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPF20VEE3 FOR F2ELEASE= 2009/06/16: CIA- FRE3P01 00707FR0002001 1 0043 -6 Places and Features Referred to in thir. General Survey (U/OU) 1B APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 COOR OINATEa 'A 'B COORDINATES I COORDINATES 'A'� 'F.. I. 'N 'E Ahaliget( rrsla) 46 09 18 05 Gy6ngy6soroszi 47 50 19 54 RAkhegy 47 17 1S 16 Adony 47 07 18 52 Gyo" r.... 47 41 17 38 Rlikosszentmilhily (see of Budapest) 47 32 19 10 Adyliget (sec of Budapest) 47 33 18 56 Gyula... 46 39 21 17 Retsig.. 47 56 19 03 InterOt{itl0nl Ajka 47 06 17 34 H ajduszobosz l6......................... 47 27 21 24 Rijeka, Yugoslavia 45 21 14 24 Megye t/ou Algy6 46 20 20 13 lialimba 47 02 17 32 R6szke.. 46 11 20 03 National 61 Almisfuzito 47 43 18 16 Hamburg, W. Germany.................. 53 33 10 00 Rudabdnyu 48 23 20 38 Plies Megye can Alps ml s 46 25 10 00 Hatvan..................... 47 40 19 41 Rafirikovo, Czechoslovakia............... 48 25 20 20 Apafa (rr sta) 47 35 21 40 Hegyeshalom 47 55 17 10 Rahy, Czechoslovakia 48 04 18 58 Apaffija 47 35 21 40 Heves.................................. 47 36 20 17 Saj6 stun 47 56 21 07 Arad, Romania 46 11 21 19 Hidasnemeti 48 30 21 14 Salg6utrjhin 48 07 19 49 Asz6d 47 39 19 30 116dmez5vAsirheIy 46 25 20 20 Sfiri..... 47 13 19 17 Bab6esa 46 02 17 22 Hortabigy (region) 47 35 21 05 Snrmell6k 46 43 I*. 10 Bibolna 48 37 17 59 Inota (see of I'drpalota) 47 12 18 11 Kirvhir.. 47 15 16 56 Baia Marc, Romania. 47 40 23 -35 leskaaw nq lyurgy........................ 47 14 IS 18 SA rviz( cana l)........................... 46 21 18 46 Baja 46 11 18 58 Iza -major (fnrmh........................ 46 57 17 25 Sussnitz, E. Germany.................... 54 31 13 39 Bakony ruts) 47 15 17 50 Izmail, U .S.S.R......................... 45 21 28 50 Si6..... 46 22 18 48 Balaton lake 46 50 17 45 Kabhegy (ml) 47 03 17 39 Sib (canalized strut) 46 20 18 53 Balatonbogbir 46 47 17 40 Kalush, U .S.S.R......................... 49 01 24 22 Si6f ok... 46 54 18 03 e Balatonfiired 46 57 17 53 KApolnisnyek 47 14 18 41 Somogy. 46 07 18 19 Balatonkereszt6r 46 42 17 23 Kafosvi: r 46 22 17 48 Sopron.. 47 41 16 36 O Dalassagyarmat 48 05 19 18 Kurcng.. 4" 19 20 56 Suboticu, Yugoslavia 46 06 19 40 C BalatonszArsz6 46 50 17 50 Kardoskut 46 29 20 40 Szabads:ig -he6Y (hill) 47 30 18 59 Balkan %fountains (mis) 43 15 25 00 Kaz' I.Areika 48 15 20 38 Szajol... 47 11 20 18 46 Balkan Peninsula (peninsula) 44 00 23 00 K nm et 46 54 19 42 Szandasz5ll6s........................... 47 08 20 14 DAnreve 48 18 20 22 Kekes ml 47 52 20 OI Szarvas. 48 52 20 33 Bari cska 47 17 18 48 Kiskiirc. 47 30 20 30 Szuzhalom batta......................... 47 20 l8 56 Bares.-. 45 58 17 28 Kiskunhalas 46 26 19 30 1.rOzczecin (Stettin), Poland................ 53 25 14 35 Furth Batevq, (rrsla) 48 22 22 23 Kiskunlach 'ira.......................... 47 12 19 01 Szeged.. 46 15 20.10 Wiener Netwe .$.S.R. Bnttonyu 46 17 21 01 Kisterenye 48 01 19 50 SzFkesfehervfir 47 12 .'18 25 Neustadt See Bhizakerettye 46 32 16 44 Kisvfirda 48 13 22 05 Szentendre 47 40 19 05 BWtt 46 46 21 08 Komirom 47 44 18 07 Szentgotth6rd 46 57 16 17 Bekescsaba 46 41 21 06 Koml6.. 46 12 18 16 Szentes.. 46 39 20 18 Lel Beregdar6c 48 12 22 32 Kom orb. 48 18 22 07 Szerencs. 48 10 21 12 r Beregovo, U.S.S.R 48 13 22 39 Koppfiny (strut) 46 35 18 26 Szob.... 17 49 18 52 Beremend.............................. 45 47 18 26 K6rmend 47 01 48 42 16 36 21 15 Szolnok................................ Szombathely 47 11 47 14 20 12 16 37 A u S t Beretty6 (slrm) 46 59 21 07 Kosice, Czechoslovakia Beretty66jfalu 47 13 21 33 Kunmadaras 47 26 47 �14 18 10 Bezdan, Yugoslavia 45 51 18 56 Kunszentmhir ton........................ 46 50 20 17 Tapi6 (st run 47 18 20 05 Biharkeresztes 47 08 21 43 Leninvfiros 47 56 21 05 Tard.... 47 53 20 37 Bodajk 47 19 18 14 Lepseny.. 47 00 IS 15 Tlirnok.. 47 22 1S .51 Borsod (sec of Miskolc) 48 19 20 45 Liikii shiza 46 26 21 1.1 Taszir.. 46 22 17 55 Borsodnfidnsd 48 07 20 15 Lovfiszi. 46 33 16 34 Tatabhinya 47 34 18 25 Bruck, A ustria 48 01 16 46 fagyarb6ly 45 50 IS 30 Tihany.. 46 55 17 54 Buda (ace of Budapest) 47 30 19 02 Lirianosztra 47 52 IS 53 TirnO. Albania 41 20 19 50 Budapest 47 30 19 05 \lards (\lureyul, Romania) (strut) 46 15 20 12 Tisza (.st rut)............................ .17 30 20 40 Buick mts 48 05 20 :30 tartonvhisfir 1 47 19 18 47 Tiszabez6d 48 22 22 09 B( ikkhibniny 47 53 20 41 :.iihtra m is) 47 53 19 57 T iszal6k. -I8 01 21 23 4 C�akovec, Yugoslavia 16 23 16 26 \leesek ml,) 46 10 18 18 Tis zapalkonya 47 53 21 04 Carpathian \fountains (mis) 47 00 25 .30 Medved'ov, Czechoslovakia............... 47 48 17 40 I� iszaszcntm6rton 48 23 22 14 Cegled 17 10 19 48 1ez61mrin v............................ 411.19 21 02 Tiszavast� i tri 47 58 21 21 Celld6m61k 47 15 17 09 Iczo" kdvesd 47 49 20 35 T okaj... 48 07 21 25 FOrstenfeld, Chop, U. S.S.R 48 26 22 12 Iez6szentgybrgy 17 00 18 17 T6ki1 l.. 47 19 18 58 Csenger 47 50 22 41 Miskolc. 48 06 20 47 Tolna... 46 26 18 47 Csepel 47 25 19 05 Mobic 45 59 IS 42 Tiiriikbilint 47 26 18 5,5 12Abaf6z ar Csepelsziget(isl) 47 15 I8 57 \1 6r.... 47 23 47 :i2 18 12 17 17 Tuzscr rr .sla).......................... Udvar.. 48 21 45 54 22 09 18 40 Sz p Csillebcre (sec of Budapest) .17 29 18 57 %loson magyar6vir C.S.S.R..................... 48 27 22 �13 jpcst.. 47 34 19 05 Csongr, id 16 42 20 09 \fukachevo, 46 32 17 00 Csorna 47 37 17 15 Mura strut) 46 30 16 55 t' judvar. 2a Danube sirm) 45 20 29 -10 M urakeresztilr 46 22 16 52 Uzlovoye, U.S.S.R....................... 48 22 22 2.1 DeAkipus zta 46 59 17 24 \lure *ul, Romania (strut) 46 15 20 12 Vic..... 47 47 19 08 Debrecen 47 32 21 39 Niducivar 47 25 21 10 Valealui \lihai, Romania................ 47 31 22 09 Demjen 17 50 20 20 Nagycenk 47 36 16 42 Varnydin, Yugoslavia.................... 46 18 16 20 Deveeser 47 06 17 26 Nagykanizsa 46 27 16 59 Virosriild 46 49 19 46 Di6sgy5r(see of Miskolc) 48 06 20 41 N agylengyel 46 47 16 46 \hir alota............... APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 A1=P1=PF20VEE3 FOR F2ELEASE= 2009/06/16: 1FZE31=P01 00707F20002001 10043-6 ungary )oundary Railroad ary Divided highway al Road Airfield Populated places Over 500,000 O 100,000 to 500,000 Wn eyrbisa 0 25,000 to loo,000 Under 25,000 V` iY.! Spot elevations in feet is 13w v 5 S Scale 1.'1,250,000 670 CceclhosIbvakia U. S. S. R Uzhgorod tom, zs a o r I4bmebre n $ahy y Ra 9. r Neusiedl 0 2 fa. 1 om N07 y o g t c aSdg, i 11 ...Rom Eamer r 4` ytlit[k Ceorna w nat o,,, Send r t eazi t ihn bop 0 t, l K a m -e d t tt; r rataba OroqWny 476 3 t k n a at: tr, P AR F "i:" .1 Mart S r.,3 r 't, Under conayctio1` [stare dape Y a S' 40 Mir !4 n lei ro y Sa A Deveceer Z' dY rar 1 F e e 1 1 A w dl's' 0,.. t �a s r .ae.. r 4 DunaA' r Bal U of i6fok') vl;:C Keesk 41; S ir Balatonb sl OS 01 r APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 ti s� r tad k a a s Z o, gQy kKar I p- -Y r Y fi rR i yy ff yy11 a 4` j K'r f -i".. y {C X {nIf11111l1 i o'I' t x r 1 aY6rklvl +.sj'4; t y'Y H y yy c ,i, 9. y f7f OF h0 Lt (u111n�) S 'uo(l Romania Wn eyrbisa rx AWW V` iY.! Nylrbitor is 13w v 5 S 670 k 1 rrltAny r .e S x a[ i +t Y F Z'G �,u lava s fiQ x i rY 7`r` 54.E j r N- J e,..s Valea lui Mihai ti s� r tad k a a s Z o, gQy kKar I p- -Y r Y fi rR i yy ff yy11 a 4` j K'r f -i".. y {C X {nIf11111l1 i o'I' t x r 1 aY6rklvl +.sj'4; t y'Y H y yy c ,i, 9. y f7f OF h0 Lt (u111n�) S 'uo(l Romania APPROVEE3 FOR RELEASE= 2009/06/16: CIA �RE3PO1 0070TR0002001 1 0043 -6 Baja 46 11 18 58 Balcony mis) 47 15 17 50 Balaton (l ake) 46 50 17 45 Balatonboglir 46 47 17 40 Balatcnf tired 46 57 17 53 Balatonkereszt6r 46 42 17 23 Balassagyarmat 48 05 19 IS B alatJnszirs z6 46 50 17 50 Bataan Mountains (mis) 43 15 25 00 Balkan Peninsula (peninsula) 44 00 23 00 Binreve 48 18 20 22 Baracaka 47 17 18 46 Bares 45 58 17 28 Bateva,_L1.S.S.R. (rr sla) 48 22 22 23 Battonya 46 17 21 01 Bizakerettye 46 32 16 44 13ekes 46 46 21 08 Bekesesaba 46 41 21 06 Beregdar6c 48 12 22 32 Beregovo, U.S.S.R. 48 13 22 39 Beremend 45 47 18 26 Beretty6 (slrm) 46 59 21 07 Beretty 66jfalu 47 13 21 33 Bezdan, Yugoslavia 45 51 18 :56 Biharkeresztes 47 08 21 43 Bodajk 47 19 18 14 Borsod (sec of Miskolc) 48 19 20 45 Borsodnidasd 48 07 20 15 Bruck, Austria 48 01 16 46 Buda (sec of Budapest) 47 30 19 02 Budapest 47 30 19 05 Bukk mix 48 05 20 :30 BukkA britny 47 53 20 41 Nkovec, Yugoslavia 46 23 16 26 Cf.rpathian %fountains (mix) 47 00 25 30 egled 47 10 19 48 Celldomolk 47 15 17 09 Chop. U. S.S.R 48 26 22 12 Csenger 17 50 22 41 Csepel 47 25 19 05 Csepelsziget (isl) 47 15 1S 57 Csillebcrc (sec of Budapeaq 47 29 18 57 Csongrid 46 42 20 09 Csorna 47 37 17 15 Damibe(slrm) 45 20 29 40 Deikipuszta 46 59 17 21 Debrecen 47 32 21 38 De:.. jen 47 50 20 20 Deveeser 47 06 17 26 Di6sgy6rr (see of Miskolc) 48 06 20 41 nomFxiybr..._,.,, .......T.. -46 23 �I8 07- Don, U. S. S.R.(sirm) 47 04 39 19 Dorog 46 38 18 17 Drave stem 45 33 IS 55 Drit vaszabolcs 45 48 18 13 Dregelypalitnk 48 03 19 03 Dudar 47 18 17 57 Dunafoldvitr 46 48 18 56 Dunakeszi 47 38 19 08 Dunftntil (region) 47 00 18 00 Dumtitjviiros .16 59 18 56 Ebenfurth, Austria 47 52 Ifi 22 1': cs ed 47 44 19 47 Eger 47 54 20 2:3 F.pprjes- hegyhiit (hill) 46 37 16 44 F. perjeske 48 21 22 13 Esztergom 47 48 IS 45 Fenvcslitke (rr Ala) 48 H 22 0 FonyW5 47 21 17 -16 Ferene Csatorna (canal) 46 11 18 56 Fokto 46 31 is Fiirstenfeld, Austria 47 03 16 05 (l itnt 47 23 19 24 Gdaisk. Poland 54 21 IS 40 Gd Poland 54 30 18 33 God 47 42 19 08 Godisa rrsla 46 13 18 06 Go 16115 47 36 19 22 Gdnyti 47 4t 17 50 Great Alfold (plain) 47 00 20 00 G veld� noes 46 14 17 01 Gyongyos 47 47 19 56 Iza- major (farti 46 57 17 25 Izmail, U .S.S.R 45 21 28 50 Kabhegy (ml) 47 03 17 39 Kalush, U.S.S.R 49 01 24 22 Kipolnisnyek 47 14 18 41 Kaposviir 46 22 17 48 Karcag 47 19 20 56 Kardoskit 46 29 20 40 Kazinebareika 48 15 20 38 Kecskemet 46 54 19 42 Kekes(ml) 47 52 20 01 Kisk6re 47 30 20 30 Kiskunhalas 46 26 19 30 riskunlachitz .a 47 12 19 01 Kisterenye 48 01 19 50 Kisvirda 48 13 22 05 K om6rom 47 44 1S 07 Koml6 46 12 18 16 Komo a 48 18 22 07 Koppiny (siren) 46 35 18 26 Kormend 47 01 16 36 Kosice. Czechoslovakia 48 42 21 15 Kun madaras 47 26 20 48 K unszentmirton 46 50 20 17 eninvitros 47 :56 21 0:5 Lepseny 47 00 18 15 Lok6shiza 46 26 21 14 I. oviszi 46 33 16 34 lagyarb6ly 45 50 18 30 l: irianosztra 47 52 18 53 Maros (Mureyul. Romania) (sirm) 46 15 20 12 Martonviisiir 47 19 18 -17 \fitra mix 47 53 19 57 Meesek mis) 46 10 18 IS Medved'ov, Czechoslovakia 47 48 17 40 Icz( ,biW-n 46 49 21 02 Iezbao. esd 47 49 20 35 MezSszentgyorgy 47 00 18 17 liskole I.............. 48 06 20 47 k lohics 45 59 18 42 M 6r 47 23 18 12 Moson magyaniviir 47 52 17 17 llukachevo, U.S.S.R 48 27 22 43 Mum sl rm) 46 30 16 55 M urakere szt6r 46 22 16 52 Murequl, Romania (xirm) 46 15 20 12 Nidudvar 47 25 21 10 Nagycenk 47 36 16 42 Nagykanizsa 46 27 16 59 Nagy) engyel 46 47 16 46 Neustedl, Austria........... 47 56 16 50 N; inibniny 47 33 22 02 Nyinid 47 00 17 27 N yirbiitor 47 50 22 08 Nyirbogdiny 48 03 21 53 Nyiregyh: iza 47 57 21 4:3 O esa 47 18 19 14 Oradea, Romania 47 04 21 513 hrkeny 47 08 19 26 O rush: iza 40 :34 20 40 Oroszhiny 47 29 18 19 Orszentmiklbs 17 41 19 16 Osijek, Yugoslavia .15 :3:3 18 42 Ozd 48 13 20 IS PAcsony rrAla) 47 02 Ifi 51 Poks 16 :38 18 52 Painhagen ,:Austria 47 42 16 5:5 PA 1) a 47 20 17 28 Pecs 16 05 Is 11 Pecsv: irad iii 09 18 2:5 Pest (ser of Budopexl) 17 :30 19 0:5 Pestlo rine (sec of Budapest) 47 213 19 12 Pctfurdo` 47 10 1S 07 Pilis rues 47 42 IS 37 Pilisv6r6sv sir .17 37 18 55 Piszkes Teto "(ml) 47 55 19 5.1 Polgitr 47 52 21 07 Puspokladiny 47 19 21 0 PnsMitfoldvir .16 32 20 48 Riiha sGm 47 41 17 38 Ribca (.x trrn 47 41 17 37 Rajkn IS 00 17 12 Sassnitz, E. Germany 54 31 13 39 Sib 4622 18 48 Sib (canalised sirm) 46 20 18 53 Si6fok 46 54 18 03 Som ogy 46 07 18 19 Sopron 47 41 16 36 Subotica, Yugoslavia 46 06 19 40 Szabudsig- hegy(hill) 47 30 IS 59 Szajol 47 11 20 18 Szandasz5116s 47 08 20 14 Szarvas 46 52 20 33 Szuzhalom batta 47 20 18 56 Szczecin (Stettin), Poland 53 25 14 35 Szeged 46 15 20 10 Szekesfehervnr 47 12 18 25 Szentendre 47 40 19 05 Szentgotthird 46 57 15 17 Szentes 46 39 20 16 Szerenes IS 10 21 12 Szob 47 49 18 52 Szolnok 47 11 20 12 Szombathely 47 14 16 37 Sz5ny 47 44 IS 10 Tapi6 s( rin 47 18 20 05 rard 47 53 20 37 Tiirnok 47 22 IS 51 Tasz: ir 46 22 17 55 Tatabinya 47 34 18 25 rihany 46 55 17 54 Tirane, Albania 41 20 19 50 'risza sirm I ..................1 47 30 20 4G Tiszabezded 48 22 22 09 Tisz:tliik........... I 48 01 21 23 'riszapalkonyu 47 53 21 04 I' is zaszcntmirton 48 23 22 14 riszayasviri I..... 47 58 21 21 rokaj I 48 07 21 25 Tokid 47 19 18 58 rolnu 46 26 IS 47 Torokbilint 47 26 18 55 T wiser( rrAla) 48 21 22 09 I' dear 45 54 I8 40 tjpest 47 34 19 05 t' judvar 46 32 17 00 ('zlovoye. U.S.S.R 48 22 22 24 1' i5c 47 47 19 08 Valea lui Mihai, Romania 47 31 22 09 VaraYdin, Yugoslavia 46 18 16 20 V: irosfold 46 49 19 46 Viirpalota 17 12 18 08 Vit s;i rosnamcny 48 08 22 19 Vasvir 47 03 16 �18 Vecscs 47 24 19 17 Velencei Te) (lake) 47 13 18 36 Vertes 47 23 21 52 Vi' rtes( hil ls) 4i 25 IS 20 Veszprem 47 06 17 55 Visonta 47 47 20 02 Voronezh, U.S.S.R 51 38 39 12 Wiener Neustadt, Austria 47 48 16 15 Wismar, E. Germany 53 54 11 28 Zagreb, Yugoslavia 45 48 16 00 7.agyva slrin 47 10 20 12 Ziihony 48 2:5 22 II 1. nlaegerszeg 46 50 16 51 Z sire 47 27 16 41 Zvolen, C zechoslovakia 48 35 19 08 Selected airfields Iudapest Terihogy 47 26 19 Li Budapest'Tokol 47 21 IS 59 Debrecen 47 29 21 37 Fokto 46 33 18 57 Kecskemet 46 55 19 45 Kiskunlachaza 47 11 19 05 Kunmadaras 17 23 20 �17 Ifezokovesd 47 49 20 38 iapa 47 22 17 :30 S,� mellek 46 41 17 10 raszar I 46 21 17 55 Veszpreni 47 05 17 58 to-0 Neus: Se l 501074 1.73 Central Intelligenc APPROVED FOR RELEASE: 2009/06/16: CIA- RDP01- 00707R000200110043 -6 APPROVEE3 FOR RELEASE= 2009/06/16: CIA �RE3P01 0O707R0002001 1 0043 -6 Spot eleve!lons in /eat LuCenec Y`w M r e G Scale 1:1250,000 '.KazpearGk r r ^Slatu45Md Ix Miles G C �h r' �a. 2 5 Kil o meters Sal n �1 f:{ta 1 d� F Sahy 1 t Ba;assayarma. lY Y y efSk 3 x'Sr v K HE 5 Pleueiedl o ''a .lF O r a Hegyeah i v x Q r ti C y x ;x n r OQa t N �1 a` E t n xolet! 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