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Phiên bản lúc 15:17, ngày 4 tháng 9 năm 2021 sửa đổi Kaorimuraji911 (thảo luận \| đóng góp) Thành viên được xác nhận mở rộng 1.505 sửa đổi ←Trang mới: “{{Đang viết}}{{Short description\|Cold war passive, fixed array undersea surveillance system.}} nhỏ\|240x240px\|Các trạm giám sát SOSUS ban đầu Hệ thống giám sát âm thanh (tiếng Anh: The Sound Surveillance System ('''SOSUS''')) là một hệ thống sonar thụ động được Mỹ phát triển bởi Hải quân Mỹ để theo dõi tàu ngầm Liên Xô. Bản chất cùng với tên gọi c…” Thẻ: Soạn thảo trực quan Liên kết định hướng		Bản mới nhất lúc 02:18, ngày 4 tháng 7 năm 2024 sửa đổi lùi lại InternetArchiveBot (thảo luận \| đóng góp) Bot 475.668 sửa đổi Đã cứu 1 nguồn và đánh dấu 0 nguồn là hỏng.) #IABot (v2.0.9.5
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Dòng 1: ~~{{Đang viết}}~~{{Short description\|Cold war passive, fixed array undersea surveillance system.}} [[Tập_tin:1st-SOUSE-sensors.png\|nhỏ\|240x240px\|Các trạm giám sát SOSUS ban đầu]] Hệ thống giám sát âm thanh ([[tiếng Anh]]: The Sound Surveillance System ('''SOSUS''')) là một hệ thống [[sonar]] thụ động được Mỹ phát triển bởi Hải quân Mỹ để theo dõi tàu ngầm Liên Xô. Bản chất cùng với tên gọi của hệ thống này được giữ bí mật. Hải quân Mỹ gọi nó là chương trình Ceasar để làm bình phong cho việc đưa vào vận hành hệ thống này, theo đó, nó được tuyên bố chỉ là các trạm nghiên cứu Hải quân trên bờ dùng để nghiên cứu [[Hải dương học]]. Năm 1985, Hải quân Mỹ đã đưa vào trang bị các sonar mảng dạng kéo theo cho các tàu hải quân (Surveillance Towed Array Sensor System (SURTASS)) để bổ trợ cho các sonar cố định đặt dưới đáy biển SOSUS, tên của hệ thống theo dõi được đổi thành '''Hệ thống giám sát dưới đáy biển tích hợp-Integrated Undersea Surveillance System (IUSS)'''. Bộ chỉ huy cùng với nhân viên làm việc trong dự án SOSUS lấy vỏ bọc là nhân viên "nghiên cứu hải dương học" cho đến năm 1991, khi chiến tranh Lạnh kết thúc. Sau khi chương trình bị hủy bỏ, trung tâm chỉ huy của SOSUS là Hệ thống giám sát Hải dương Đại Tây Dương-Oceanographic System Atlantic và Hệ thống giám sát Hải dương Thái Bình Dương-Oceanographic System Pacific trở thành Hệ thống giám sát dưới đáy biển Đại Tây Dương-Undersea Surveillance Atlantic và Hệ thống giám sát dưới đáy biển Thái Bình Dương-Undersea Surveillance Pacific. [[Tập_tin:GIUK_gap.png\|nhỏ\|242x242px\|[[Vùng GIUK]]]] Hệ thống giám sát này có khả năng giám sát ở khoàng cách lớn nhờ lợi dụng kênh âm sâu, hay SOFAR<!-- Kênh âm sâu (SOFAR) là độ sâu của nước mà tại đó, vận tốc truyền âm thanh là thấp nhất -->. Cơ sở Hải quân đặt tại Barbados vào ngày 6/7/1962 báo cáo đã sử dụng SOSUS phát hiện được tàu ngầm hạt nhân Liên Xô di chuyển qua vùng biển giữa Greenland-Iceland-Vương quốc Anh ([[vùng GIUK]]). Các mảng tuyến tính với hydrophone được đặt trên các sườn dốc trong kênh âm thanh cho phép xử lý chùm tia tại các cơ sở trên bờ để tạo thành chùm tia phương vị. Khi hai hoặc nhiều tia gặp nhau, bằng phương pháp tam giác đạc sẽ có thể xác định vị trí trên không hoặc trên bề mặt.<ref group="note">Before the nature of the arrays became known, many writers assumed SOSUS was a barrier system, rather than arrays giving surveillance of entire ocean basins. An associated program, ''Colossus'', was such a system intended to be installed across straits.</ref> SOSUS được phát triển từ năm 1949 do các nhà khoa học và các kỹ sư cần nghiên cứu các vấn đề tác chiến chống ngầm. ItNó ~~was~~bao ~~implemented~~gồm asmột achuỗi ~~chain~~các ofống ~~underwater~~nghe ~~hydrophone~~dưới ~~arrays~~nước ~~linked~~kết bynối ~~cable~~với nhau bằng dây cáp, ~~based~~giống onnhư ~~commercial~~công ~~telephone~~nghệ ~~technology~~áp dụng trong điện thoại, tonối ~~shore~~tới ~~stations~~các ~~located~~trạm ~~around~~theo ~~the~~dõi ~~western~~đặt ~~Atlantic~~xung ~~Ocean~~quanh bờ Tây của Đại Tây Dương, ~~from~~từ [[Nova Scotia]] tođến [[Barbados]]. ~~The~~Hệ ~~first~~thống ~~experimental~~được ~~array~~thử ~~was~~nghiệm alần ~~six-element~~đầu ~~test~~với ~~array~~việc ~~laid~~triển atkhai 6 thiết bị thu âm đặt tại [[Eleuthera]] ~~in the~~, [[Bahamas]] invào năm 1951, ~~followed~~sau đó, ~~after~~bằng ~~successful~~những ~~experiments~~kinh ~~with~~nghiệm athu ~~target~~được ~~submarine~~khi định vị thành công tàu ngầm, invào năm 1952 byđã đưa hệ thống đầu tiên đi vào vận hành, gồm 40 thiết bị thu âm được đặt ở ađộ ~~fully-functional~~sâu {{cvt\|1000\|ft\|m\|1\|abbr=on}}. Vào thời điểm đó, ~~forty-hydrophone~~Hải ~~array.~~quân AtMỹ ~~that~~đã ~~time~~yêu ~~the~~cầu ~~order~~tăng ~~for~~số ~~stations~~lượng ~~was~~trạm ~~increased~~thu ~~from~~tín ~~six~~hiệu totừ ~~nine.~~6 ~~The~~lên ~~then-secret~~9 ~~1960~~trạm. ~~Navy~~Trong bộ film tài liệu mật thực hiện bởi Hải quân Mỹ vào năm 1960 ''Watch in the Sea'', ~~describes~~đã ~~the~~mô tả việc sản xuất các dải thu ~~production~~âm ~~arrays~~có asđộ ~~being~~dài {{cvt\|1800\|ft\|m\|1\|abbr=on}} ~~long~~. InNăm 1954, ~~the~~quân ~~order~~đội ~~was~~Mỹ ~~increased~~yêu bycầu ~~three~~xây ~~more~~dựng ~~Atlantic~~thêm ~~stations~~3 ~~and~~trạm angiám ~~extension~~sát ~~into~~Đại ~~the~~Tây ~~Pacific~~Dương và bắt đầu triển khai trạm giám sát ở Thái Bình Dương, ~~with~~với ~~six~~6 ~~stations~~trạm onđặt ~~the~~ở ~~West~~[[Bờ ~~Coast~~Tây ~~and~~Hoa ~~one~~Kỳ\|bờ inbiển phía Tây Hoa Kỳ]] và một trạm tại Hawaii. InTháng ~~September~~9 năm 1954, [[Ramey Air Force Base#U.S. Naval Facility Ramey/Punta Borinquen\|Naval Facility Ramey]] ~~was~~đi ~~commissioned~~vào inhoạt động ở Puerto Rico. ~~Others~~Các ofcơ ~~the~~sở ~~first~~giám ~~Atlantic~~sát ~~phase~~khác ~~followed,~~ở ~~and~~Đại inTây ~~1957~~Dương ~~the~~tiếp ~~original~~tục ~~operational~~được ~~array~~triển atkhai ~~Eleuthera~~sau ~~got~~đó, anvà ~~operational~~vào ~~shore~~năm ~~facility~~1957 ashệ ~~the~~thống ~~last~~cuối ofcùng ~~the~~trong ~~first~~chuỗi ~~phase~~giám ofsát ~~Atlantic~~Đại ~~systems~~Tây Dương đi vào hoạt động tại Eleuthera. ~~The~~Cũng ~~same~~trong ~~year~~năm này, ~~the~~hệ ~~Pacific~~thống ~~systems~~giám ~~began~~sát toThái beBình ~~installed~~Dương ~~and~~bắt ~~activated~~đầu được triển khai. ~~Over~~Trong ~~the~~vòng ~~next~~ba ~~three~~thập ~~decades~~kỷ tiếp theo, ~~more~~các hệ thống giám sát đã được ~~systems~~bổ ~~were~~sung ~~added;~~tại [[Naval Air Station Keflavik#Naval Facility (NAVFAC) Keflavik\|NAVFAC Keflavik]], [[Iceland]] innăm 1966 ~~and~~và NAVFAC Guam innăm 1968 ~~being examples of expansion beyond the western Atlantic and eastern Pacific~~. ~~Shore~~Các ~~upgrades~~trạm ~~and~~giám ~~new~~sát ~~cable~~ven ~~technology~~biển ~~allowed~~cùng ~~system~~với ~~consolidation~~công ~~until~~nghệ bycáp ~~1980~~mới ~~that~~đã ~~process~~giúp ~~had~~hệ ~~resulted~~thống incắt ~~many~~giảm ~~closures~~số oflượng ~~the~~trạm ~~NAVFACs~~giám ~~with~~sát ~~centralized~~NAVFAC, ~~processing~~điển athình anhư ~~new~~mỗi ~~type facility,~~trạm Naval Ocean Processing Facility (NOPF), ~~that~~được bythành lập năm 1981 ~~saw~~có ~~one~~khả ~~for~~năng ~~each~~chịu ~~ocean~~trách ~~and~~nhiệm ~~mass~~giám ~~closing~~sát ofcho ~~the~~1 ~~NAVFACs~~đại dương, thay cho các trạm NAVFAC. Khi các hệ thống di động mới được đưa vào hoạt động, các mảng giám sát SOSUS được cho ngừng hoạt động, một số mảng được chuyển sang sử dụng cho việc nghiên cứu khoa học. As the new mobile systems came on line, SOSUS arrays themselves were deactivated and some turned over for scientific research. The surveillance aspect continues with new systems under Commander, Undersea Surveillance. == ~~History~~Lịch sử ra đời == SOSUS ~~history~~bắt đầu thai nghén ~~began~~từ innăm 1949 ~~when~~khi ~~the~~Hải USquân ~~Navy~~Mỹ ~~approached~~thành ~~the~~lập ~~Committee~~một ~~for~~Ủy ~~Undersea~~ban ~~Warfare~~tác chiến chống ngầm, anbao ~~academic~~gồm ~~advisory~~một ~~group~~nhóm ~~formed~~tư invấn được thành lập từ năm 1946 ~~under~~trực ~~the~~thuộc ~~[[National~~Viện ~~Academy~~khoa ofhọc ~~Science]],~~hàn lâm quốc gia để nghiên cứu totác ~~research~~chiến ~~antisubmarine~~chống ~~warfare~~ngầm.<ref name="Whitman">{{cite magazine\|last=Whitman\|first=Edward C.\|date=Winter 2005\|title=SOSUS The "Secret Weapon" of Undersea Surveillance\|url=https://www.public.navy.mil/subfor/underseawarfaremagazine/Issues/Archives/issue_25/sosus.htm\|volume=7\|issue=2\|~~access-date~~accessdate =ngày 5 ~~January~~tháng 1 năm 2020\|magazine=Undersea Warfare\|journal=\|archive-date = ngày 24 tháng 3 năm 2020 \|archive-url=https://web.archive.org/web/20200324114806/https://www.public.navy.mil/subfor/underseawarfaremagazine/Issues/Archives/issue_25/sosus.htm}}</ref><ref>{{~~cite~~Chú thích web\|url=http://dlaweb.whoi.edu/fa/iselin.html\|title=The Papers of Colubus O'Donnell Iselin\|date=April 2001\|publisher=Woods Hole Oceanographic Institution\|~~access-date~~accessdate =ngày 11 ~~February~~tháng 2 năm 2020}}</ref> ~~As a~~Theo ~~result~~đó, ~~the~~Hải ~~Navy~~quân ~~formed~~Mỹ athành ~~study~~lập ~~group~~một ~~designated~~nhóm ~~''Project~~nghiên ~~Hartwell'',~~cứu ~~named~~dưới ~~for~~tên ~~the~~gọi ~~University~~Chương oftrình ~~Pennsylvania's~~Hartwell, ~~Dr.~~đặt theo tên giáo sư G.P. Hartwell ~~who~~của ~~was~~trường ~~the~~[[Đại ~~Deputy~~học ~~Chairman~~Pennsylvania]], ofchủ ~~the~~tịch ~~Committee~~của ~~for~~Ủy ~~Undersea~~ban ~~Warfare~~tác chiến chống ngầm,<ref group="note">AnMột ~~alternative~~câu ~~story~~chuyện iskhác ~~that~~là itnó ~~was~~được ~~named~~đặt ~~for~~theo atên ~~local~~của một quán bar ~~popular~~địa ~~with~~phương ~~MIT~~gần ~~faculty~~cơ sở của MIT.</ref> ~~under~~với atsự lãnh đạo của [[Massachusetts Institute of Technology]] (MIT) ~~leadership~~. ~~The~~Nhóm nghiên cứu của Hartwell ~~panel~~đề ~~recommended~~xuất ~~spending~~việc ofchi {{US$\|10000000\|1949\|round=-4}} ~~annually~~hàng tonăm ~~develop~~để ~~systems~~phát totriển ~~counter~~hệ ~~the~~thống ~~Soviet~~có ~~submarine~~khả ~~threat~~năng ~~consisting~~chống ~~primarily~~lại ofmối ađe ~~large~~dọa ~~fleet~~từ oftàu ~~diesel~~ngầm ~~submarines~~của Liên Xô.<ref name="ICAA">{{~~cite~~Chú thích web\|url=http://www.iusscaa.org/history.htm\|title=Integrated Undersea Surveillance System (IUSS) History 1950 - 2010\|publisher=IUSS/CAESAR Alumni Association\|~~access-date~~accessdate =ngày 11 ~~February~~tháng 2 năm 2020}}</ref><ref>{{~~cite~~Chú thích ~~book~~sách\|url=https://archive.org/details/differentsortoft0000gold/page/338\|title=A Different Sort of Time: The Life of Jerrold R. Zacharias\|last1=Goldstein\|first1=Jack S\|date=1992\|publisher=MIT Press\|isbn=026207138X\|location=Cambridge, Mass\|page=[https://archive.org/details/differentsortoft0000gold/page/338 338]\|language=en\|lccn=91037934\|oclc=1015073870}}</ref> ~~That~~Nhóm ~~group~~nghiên ~~also~~cứu ~~recommended~~cũng ađề ~~system~~xuất tomột ~~monitor~~hệ ~~low-frequency~~thống ~~sound~~giám insát ~~the~~âm ~~[[SOFAR~~thanh ~~channel]]~~tần ~~using~~số ~~multiple~~thấp ~~listening~~ở ~~sites~~các ~~equipped~~kênh ~~with~~SOFAR trang bị các [[Hydrophone\|~~hydrophones~~đầu thu sóng dưới nước]] ~~and~~cùng avới ~~processing~~các ~~facility~~cơ ~~that~~sở ~~could~~phân ~~calculate~~tích ~~submarine~~có ~~positions~~khả ~~over~~năng ~~hundreds~~tính oftoán vị trí của tàu ngầm từ ~~miles~~khoảng cách hàng trăm dặm.<ref name="Whitman" /><ref name="ICAA" /><ref>{{cite report\|url=https://ntrl.ntis.gov/NTRL/dashboard/searchResults/titleDetail/ADA800012.xhtml\|title=Report on Security of Overseas Transport. Volume 1. Project Hartwell. (B. A Proposed Sonar Listening System for Long-Range Submarine Detection\|date=ngày 21 ~~September~~tháng 9 năm 1950\|pages=D2–D8\|~~access-date~~accessdate =ngày 11 ~~February~~tháng 2 năm 2020}}</ref><ref group="note">The cited Project HARTWELL report first links arrays with fleet type submarines towing such an array in the GIUK then refers to potential exploitation of the deep sound channel low frequency sounds.</ref> === ~~Research~~Ghi chú === {{tham khảo\|group=note}} As a result of the Hartwell group's recommendations, the [[Office of Naval Research]] (ONR) contracted with [[American Telephone and Telegraph Company]] (AT&T), with its [[Bell Laboratories]] research and [[Western Electric]] manufacturing elements, to develop a long range, passive detection system, based on bottom arrays of hydrophones. The system, using equipment termed [[Low Frequency Analyzer and Recorder (LOFAR)\|Low Frequency Analyzer and Recorder]] and a process termed Low Frequency Analysis and Recording, both with the acronym LOFAR, was to be based on AT&T's sound spectrograph, developed for speech analysis and modified to analyze low-frequency underwater sounds. This research and development effort was given the name ''Project Jezebel''.<ref name="Whitman" /><ref name="ICAA" /><ref name="CUS">{{cite web\|url=https://www.public.navy.mil/subfor/cus/Pages/sosus_origins.aspx\|title=Origins of SOSUS\|publisher=Commander, Undersea Surveillance\|access-date=22 May 2020}}</ref> The origin of the project name was explained by [[Robert A. Frosch\|Dr. Robert Frosch]] to [[John C. Stennis\|Senator Stennis]] during a 1968 hearing. It was because of the low frequencies, "about the A below middle C on the piano" (about 100-150 cycles) and "Jezebel" being chosen because "she was of low character."<ref>{{cite book\|url=https://books.google.com/books?id=gMM6b6NLmJgC&pg=PA997\|title=Authorization for Military Procurement, Research and Development, Fiscal Year 1969, and Reserve Strength\|last=Committee on Armed Services (U.S. Senate)\|publisher=Government Printing Office\|year=1968\|location=Washington, D.C.\|page=997\|access-date=14 March 2020}}</ref> * Jezebel and LOFAR branched into the localization of submarines with the AN/SSQ-28 passive omnidirectional Jezebel-LOFAR sonobuoy introduced in 1956 for use by the air antisubmarine forces. That sonobuoy gave the aircraft cued by SOSUS access to the same low frequency and LOFAR capability as SOSUS. Bell Telephone Laboratories time delay correlation was used to fix target position with two or more sonobuoys in a technique named COrrelation Detection And Ranging (CODAR). This, and later specialized, sonobuoys equipped with a small explosive charge could be used in an active mode to detect the echo off the target. The active mode was named by engineers developing the technique "Julie" after a burlesque dancer whose "performance could turn passive buoys active."<ref name="Holler">{{cite journal\|last=Holler\|first=Roger A.\|date=November 5, 2013\|title=The Evolution Of The Sonobuoy From World War II To The Cold War\|url=https://apps.dtic.mil/dtic/tr/fulltext/u2/a597432.pdf\|journal=U.S. Navy Journal of Underwater Acoustics\|pages=332–333\|access-date=14 March 2020}}</ref> == Tham khảo == Related research, based at [[Columbia University\|Columbia University's]] Hudson Laboratory, was designated ''Project Michael''. [[Woods Hole Oceanographic Institution]] and the [[Scripps Institution of Oceanography]] were also tasked to develop an understanding of long-range sound transmission under ''Project Michael''.<ref name="Whitman" /><ref name="ICAA" /> The need to better understand the acoustic environment drove much of the oceanographic research by both the Navy and institutions with Navy funding for oceanography. A major, long term research program spanning over 25 years, the [[Long Range Acoustic Propagation Program]] (LRAPP), made significant progress in such understanding and influenced decisions in SOSUS, significantly the SOSUS expansion into the eastern Atlantic.<ref>{{cite journal\|last=Solomon\|first=Louis P.\|date=April 2011\|title=Memoir of the Long Range Acoustic Propagation Program\|url=https://apps.dtic.mil/dtic/tr/fulltext/u2/a568751.pdf\|journal=U.S. Navy Journal of Underwater Acoustics\|volume=61\|issue=2\|pages=176–205\|access-date=20 September 2020}}</ref><ref group="note">The sometimes mentioned ''Sea Spider'' "system" was simply a complex and unsuccessful experiment with a very large suspended array in the Pacific. It was part of LRAPP as noted on page 181 of the reference. The experiment was part of the [https://apps.dtic.mil/dtic/tr/fulltext/u2/b020846.pdf Pacific Acoustic Research Kaneohe — Alaska (PARKA) II] experiment in 1969. Parts of Sea Spider ended up off Bermuda, designated ''Testbed'' for more experiments. That array was installed by unusual cable and installation vessel [[USS Naubuc (AN-84)\|''Naubuc'']] but also failed (See ''Naubuc'').</ref> {{tham khảo\|2}} == Link ngoài == ~~=== Development and installation ===~~ The hardware technology was largely that of the commercial telephone system and oil exploration. Cable laying was a capability AT&T and other entities had developed for decades for [[Submarine communications cable\|commercial communications cables]]. The understanding of the ocean acoustic environment made the system possible rather than development of new technology. SOSUS was a case of new understanding of the environment and then application of largely existing technology and even equipment to the problem.<ref name="Weir">{{cite journal\|last1=Weir\|first1=Gary E.\|date=August 2006\|title=he American Sound Surveillance System: Using the Ocean to Hunt Soviet Submarines, 1950-1961\|url=http://www.ijnhonline.org/wp-content/uploads/2012/01/article_weir_aug06.pdf\|journal=International Journal of Naval History\|volume=5\|issue=2\|access-date=11 February 2020}}</ref> * [https://www.public.navy.mil/subfor/cus/Pages/Past_Sites.aspx Past IUSS Sites] {{Webarchive\|url=https://web.archive.org/web/20200216150114/https://www.public.navy.mil/subfor/cus/Pages/Past_Sites.aspx \|date = ngày 16 tháng 2 năm 2020}} Index to individual pages with location details, photos and badges of the shore sites. The forty hydrophones spaced on the array provided the aperture for signal processing to form horizontal azimuthal beams of two to five degrees wide, each beam with a LOFAR analyzer and capability to do narrow-band frequency analysis to discriminate signal from ocean noise and to identify specific frequencies associated with rotating machinery. The NAVFAC watch floor had banks of displays using electrostatic paper, similar to that used for echograms in depth finders. ~~[[Tập_tin:Lofargram.gif\|nhỏ\|200x200px\|LOFARgram]]~~ ~~[[Tập_tin:Watch_floor.gif\|phải\|nhỏ\|200x200px\|LOFARgram writers on NAVFAC watch floor.]]~~ The product of these displays was the LOFARgram which graphically represented acoustic energy and frequency against time. Those were examined by the personnel trained to identify submarine signatures.<ref name="Whitman" /><ref name="Weir" /> When two or more arrays held a target the bearings from each array gave an estimated target position by triangulation.<ref name="Whitman" /> The system could provide cuing information on the presence of the submarines and an approximate location for air or surface antisubmarine warfare assets to localize the target.<ref>{{cite thesis\|last=Di Mento\|first=John Mark\|chapter=The Ocean Environment and the Third Dimension of Naval Warfare\|title=Beyond the Water's Edge: United States National Security & the Ocean Environment\|publisher=[[Fletcher School of Law and Diplomacy]], [[Tufts University]]\|date=December 2006\|degree=Ph.D.\|location=Medford, M A\|chapter-url=https://apps.dtic.mil/dtic/tr/fulltext/u2/a468078.pdf\|pages=73–74}}</ref> The first Atlantic stations, ranging from [[Nova Scotia]] to Barbados, formed a long line semicircle looking into the Western Atlantic basin with geographic separation for contact correlation and triangulation.<ref name="Whitman" /> ~~=== Security ===~~ The combination of research and engineering under ''Jezebel'' and ''Michael'' into an actual broad area surveillance system as seen by Project Hartwell's [[Frederick Vinton Hunt\|Frederick V. Hunt]] became the Sound Surveillance System with the acronym SOSUS. Both the full name and acronym were classified. There were occasional slips. A contractor for the Office of Naval Research, Fleet Analysis and Support Division published an unclassified report with "SOSUS" in association with the system acronym "SOSS", defined as "Sound Search Station," and a capability to display data from sonobuoys side by side on either aircraft or SOSS displays in contact classification as either friendly or unfriendly targets.<ref>{{cite report\|url=https://ia801304.us.archive.org/3/items/DTIC_ADA021461/DTIC_ADA021461.pdf\|title=Measures of Effectiveness Handbook\|last=Rau\|first=J. G.\|date=August 1974\|publisher=Ultrasystems, Inc.\|location=Irvine, California\|pages=B-54 — B55\|access-date=29 August 2020}}</ref> The unclassified name ''Project Caesar'' was given to cover development and installation of the resulting system.<ref name="Whitman" /><ref name="ICAA" /> A cover story was developed to explain the visible shore installations, the Naval Facilities, and the commands under which they fell. The cover explained that data gathered by oceanographic and acoustic surveys with ships could at times be collected "more expeditiously and more economically by means of shore stations. These are the U. S. Naval Facilities."<ref>{{cite web\|url=http://www.iusscaa.org/coverstory.htm\|title=SOSUS Unclassified Cover Story\|publisher=IUSS/CAESAR Alumni Association\|access-date=11 February 2020}}</ref> The cover extended to the names of the commands and training of personnel with overall commands designated Ocean Systems Atlantic and Ocean Systems Pacific, and terms such as Ocean Technician [OT] and Oceanographic Research Watch Officer given to Naval Facility personnel.<ref name="Weir" /><ref>{{cite book\|url=https://archive.org/details/officereducation00wate\|title=Officer Education and Training in Oceanography for ASW and Other Naval Applications\|last=Waterman\|first=Larry Wayne\|date=March 1972\|publisher=Naval Postgraduate School\|page=[https://archive.org/details/officereducation00wate/page/115 115]\|access-date=11 February 2020}}</ref> Despite being qualified for a warfare specialty and its symbols, the Navy personnel in the small SOSUS community could not do so for the sake of secrecy until the mission became public in 1991. The Ocean System commands, COMOCEANSYSLANT (COSL) and COMOCEANSYSPAC (COSP), then began to reflect their true nature as Undersea Surveillance commands COMUNDERSEASURVLANT (CUSL) and COMUNDERSEASURVPAC (CUSP) under the Integrated Undersea Surveillance System (IUSS) name that had come into effect in 1985 as systems other than fixed emerged.<ref name="ICAA" /><ref name="Weir" /> SOSUS was closely held on a strict need-to-know basis that was close to [[Sensitive Compartmented Information]] even though it was classified at the [[Classified information#Secret\|Secret]] level. Even the Fleet had little knowledge of the system or its function. Contact data reaching the fleet was in a strictly formatted message designated RAINFORM, hiding the source, that the fleet often did not understand without reference to publications to understand the form's fields and codes. As a result, people in the fleet often did not know of the system's dedicated antisubmarine mission. Even when they knew they often did not know of its actual performance or exact role. This later had implications as the Cold War ended and budgets became an issue. In the late 1980s and early 1990s, the system was opened to tactical use and the fleet began to see the contact information in other formats readily understandable by fleet antisubmarine forces.<ref name="Maskell">{{cite thesis\|last=Maskell\|first=Dawn M.\|date=12 April 2001\|title=The Navy's Best Kept Secret — Is IUSS Becoming a Lost Art?\|publisher=United States Marine Corps Command and Staff College\|location=Quantico, Virginia\|url=https://archive.org/details/DTIC_ADA401150\|access-date=13 February 2020}}</ref> In 1997 the RAINFORM was abandoned and replaced.<ref name="ICAA" /> For much of the system's operation, direct action based on SOSUS contacts was avoided. An example was subject to a box piece in the January 5, 1981 issue of ''Newsweek'' titled "A Soviet War of Nerves" concerning an incident from August 1978. An alert to Atlantic Fleet, [[Strategic Air Command]] (SAC) and the Pentagon came from "underwater listening devices at several secret Navy installations" that two [[Yankee class]] nuclear-armed submarines had left their usual patrol areas 1,200 miles out in the Atlantic and were getting dangerously close. That approach raised the threat level to several SAC bases along the coast. Rather than prosecute the contacts and reveal how closely the system could track the submarines, the SAC bases put more bombers on ready alert assuming the Soviets would notice. The submarines did not withdraw so SAC dispersed the bombers to bases as far away as Texas. Though there is no positive proof that action was the cause, the Yankees moved back to their usual areas and had not moved close to the U.S. coast again at the time of the piece.<ref>{{cite magazine\|last1=Alpern\|first1=David M.\|last2=Martin\|first2=David C.\|date=January 5, 1981\|title=A Soviet War of Nerves\|page=21\|magazine=Newsweek}}</ref> ~~[[Tập_tin:NAVFAC_Nantuckett_early_1960s.jpg\|phải\|nhỏ\|250x250px\|NAVFAC Nantucket showing Terminal building as internal security area.]]~~ The original Naval Facilities and later, consolidated, processing centers were high security installations characterized by an outer security fence and gate checkpoint. The terminal buildings within were double fenced with separate entry security. Not all personnel assigned to the facility had access to the operational part of the installations. The early arrangement can be seen in the vertical photograph of Naval Facility Nantucket and later in the photograph of Naval Facility Brawdy below. Equipment in the terminal buildings was installed by specially cleared Western Electric Company personnel.<ref name="Kneedler">{{cite magazine\|last=Kneedler\|first=Robert\|date=Fall 2007\|title=Recollections On the Successful Implementation of the Portion of Brick Bat 03 - Titled Project Caesar II - Pacific (Part 2 of 2)\|url=http://www.iusscaa.org/datafiles/cablefall2007.pdf\|publisher=IUSS/CAESAR Alumni Association\|volume=9\|issue=1\|pages=3–6\|access-date=28 March 2020\|magazine=The Cable}}</ref> ~~=== Initial installations ===~~ Western Electric and ONR representatives met on 29 October 1950 to draft a contract that was signed as a letter contract on 13 November to build a demonstration system. The contract was managed by [[Bureau of Ships]] (BuShips) with then Ensign Joseph P. Kelly, later Captain and termed "Father of SOSUS," assigned. An experimental six-element hydrophone array was installed on the island of [[Eleuthera]] in the [[Bahamas]] during 1951. Meanwhile, ''Project Jezebel'' and ''Project Michael'' focused on studying long range [[Underwater acoustics\|acoustics in the ocean]].<ref name="Whitman" /><ref name="ICAA" /><ref>{{cite web\|url=https://www.csp.navy.mil/cus/About-IUSS/Father-of-SOSUS/\|title=CAPT Joseph P. Kelly, USN (1914-1988)\|last=Commander, Undersea Surveillance\|publisher=U.S. Navy\|access-date=11 February 2020}}</ref> From 2-19 January 1952 the British cable layer {{ship\|HMTS\|Alert\|1915\|2}} installed the first full sized, {{cvt\|1000\|ft\|m\|1\|abbr=on}} long, forty transducer element operational array in {{cvt\|240\|fathom\|ft m\|1\|abbr=on}} off Eleuthera in the Bahamas.<ref group="note">Her Majesty's Telegraph Ship, [https://atlantic-cable.com/Cableships/Alert(3)/index.htm H.M.T.S. ''Alert''], was a British General Post Office cable layer built in 1915.</ref> Successful tests with a target submarine resulted in the order to install a total of nine arrays along the coast of the Western North Atlantic. The 1960 secret, limited distribution Navy film ''Watch in the Sea'', contains a segment at about 9:22 minutes into the film concerning the search for a suitable array location and laying the array. It describes the operational arrays as being {{cvt\|1800\|ft\|m\|1\|abbr=on}} long.<ref>{{cite web\|url=https://books.google.com/books?id=mIBYhunGeH8C&pg=RA1-PA90\|title=Catalog of Audiovisual Productions — Navy and Marine Corps\|year=1984\|publisher=Department of Defense\|access-date=23 March 2020\|volume=2}}</ref><ref>{{cite film\|title=Watch in the Sea — Project Caesar (Standard AV Production Identification Number: 24458-DN)\|publisher=Department of the Navy, Bureau of Ships\|year=1960\|url=https://www.youtube.com/watch?v=qsADWTHlmKI\|access-date=23 March 2020}}</ref> In 1954 ten additional arrays were ordered with three more in the Atlantic, six on the Pacific coast and one in Hawaii.<ref name="Whitman" /><ref name="ICAA" /> ~~[[Tập_tin:Neptune_arc2_DN-ST-90-11493.jpg\|phải\|nhỏ\|150x150px\|''Neptune'' (ARC-2), first cable repair ship formally assigned to Project Caesar.]]~~ The cable ships [[USNS Neptune (ARC-2)\|''Neptune'']] and [[USNS Albert J. Myer\|''Albert J. Myer'']] were acquired to support ''Project Caesar'' with later addition of the cable ships [[USS Aeolus (ARC-3)\|''Aeolus'']] and [[USS Thor\|''Thor'']]. Other ships were added for acoustic and bathymetric surveys and cable support.<ref name="ICAA" /> ~~== Operational systems ==~~ SOSUS systems consisted of bottom-mounted [[hydrophone]] arrays connected by [[Submarine communications cable\|underwater cables]] to facilities ashore. The individual arrays were installed primarily on [[Continental slope\|continental slopes]] and [[Seamount\|seamounts]] at the axis of the deep sound channel and [[Normal (geometry)\|normal]] to the direction in which they were to cover. The combination of location within the ocean and the sensitivity of arrays allowed the system to detect acoustic power of less than a single [[watt]] at ranges of several hundred kilometres. SOSUS shore terminal processing stations were designated with the vague, generic name of Naval Facility (NAVFAC).<ref name="Whitman" /><ref>{{cite report\|url=https://apps.dtic.mil/dtic/tr/fulltext/u2/a421957.pdf\|title=The Third Battle: Innovation in the U.S. Navy's Silent Cold War Struggle with Soviet Submarines\|last=Cote\|first=Owen R., Jr.\|publisher=Naval War College\|pages=25–26\|access-date=11 February 2020\|year=2003}}</ref> By the 1980s improved communications technology allowed the array data once processed in individual Naval Facilities to be sent to central processing centers (Naval Ocean Processing Facility (NOPF)) for centralized processing of multiple fixed and mobile array information.<ref name="Weinel2">{{cite magazine\|last=Weinel\|first=Jim\|date=Summer 2004\|title=Evolution of SOSUS/IUSS Signal Processing (Part 2 of 2)\|url=http://www.iusscaa.org/datafiles/cablesummer2004.pdf\|publisher=IUSS/CAESAR Alumni Association\|volume=7\|issue=1\|page=3\|access-date=11 February 2020\|magazine=The Cable}}</ref><ref>{{cite web\|url=https://fas.org/irp/agency/navy/underseasurv/\|title=Commander Undersea Surveillance\|publisher=Federation of American Scientists\|access-date=1 January 2021}}</ref> The first systems were limited by the commercial telephone cable technology for the application requiring a shore facility within about {{convert\|150\|nmi\|mi km\|abbr=on}} from the array and thus within that distance from the continental shelf locations suitable for the array.<ref name="Whitman" /> The cable of the time consisted of multi-pair wire connected to the forty hydrophones of the array. New coaxial multiplexed commercial telephone system cable, designated SB, using a single wire for all hydrophones allowed major changes with the prototype installed in 1962 at Eleuthera.<ref group="note">The [https://ussaeolus.com/ USS ''Aeolus'' Association] website has a photo of a display of the first three types of [https://ussaeolus.com/wp-content/uploads/photo-gallery/DSC04649.JPG Project Caesar cables].</ref> The upgrades made possible by the multiplexed coaxial cable were designated Caesar Phase III. Caesar Phase IV was associated with major upgrades in shore processing with Digital Spectrum Analysis (DSA) backfits at the stations replacing original equipment during the late 1960s. In September 1972 a third generation coaxial cable, again based on commercial developments at Bell Labs and designated SD-C, was installed for the system terminating at [[Naval Facility Centerville Beach]], California.<ref name="Weinel1">{{cite magazine\|last=Weinel\|first=Jim\|date=Spring 2003\|title=Evolution of SOSUS/IUSS Signal Processing (Part 1 of 2)\|url=http://www.iusscaa.org/datafiles/cablespring2003.pdf\|publisher=IUSS/CAESAR Alumni Association\|volume=6\|issue=1\|page=3\|access-date=11 February 2020\|magazine=The Cable}}</ref> The SD-C cable was the basis for a fourth generation of sonar sets with installation of the Lightweight Undersea Components (LUSC) involving new shore equipment in 1984. In June 1994 an entirely new cable system was introduced with fiber optic cable.<ref name="Weinel2" /> ~~[[Tập_tin:P-3B_DN-SC-82-02246.JPEG\|phải\|nhỏ\|150x150px\|P-3B of Patrol Squadron 6 (VP-6).]]~~ Cable technology and signal processing improved and upgrades were made to the original installations. Cable technology made it possible to site arrays further from shore into the ocean basins. New signal processing capabilities allowed for innovations such as the split array in which a single line array was divided into segments, each separately processed, then electronically recombined to form narrower beams for better bearing and cross fixes between arrays. Augmenting these local improvements was the increased central processing in centers that eventually became the Naval Oceanographic Processing Facilities. There the contacts of multiple arrays were correlated with other intelligence sources in order to cue and provide the search area for air and surface antisubmarine assets to localize and prosecute.<ref name="Whitman" /><ref name="Holler" /> The system was considered a strategic, not tactical, system at the time and part of continental defense. In military construction hearings during 1964 before the Senate Committee on Armed Services the request for funding of recreational and other support buildings for the [[Naval Facility Cape Hatteras]] the Navy noted it was part of a program supporting continental air and missile defense forces without mention of its role in tracking Soviet missile submarines.<ref name="Services1963">{{cite book\|url=https://books.google.com/books?id=veZqGdB_n88C&pg=PA288\|title=Military Construction Authorization, Fiscal Year 1964: Hearings ... Eighty-eighth Congress, First Session, on S. 1101 - H.R. 6500, a Bill Authorizing Certain Construction at Military Installations, and for Other Purposes. September 6, 27, 30, October 1, 2, 3, and 7, 1963\|author=United States. Congress. Senate. Committee on Armed Services\|publisher=U.S. Government Printing Office\|year=1963\|pages=288–289}}</ref> ~~=== Chronology ===~~ ~~==== 1950s ====~~ In 1954 the [[Fleet Sonar School]] at Key West established a Sound Search Course for training personnel. The highly classified program was behind the "Green Door" which became a name for the program itself as well as being seen as a term for the secrecy.<ref name="ICAA" /><ref name="Weir2">{{cite web\|url=https://www.history.navy.mil/research/library/online-reading-room/title-list-alphabetically/n/needs-opportunities-modern-history-us-navy/navy-science-professional-history.html\|title=The Navy, Science, and Professional History\|last=Weir\|first=Gary R.\|year=2017\|publisher=Naval History and Heritage Command\|access-date=11 February 2020}}</ref> [[Tập_tin:Naval_Facility_Cape_May.jpg\|phải\|nhỏ\|250x250px\|NAVFAC Cape May (1955-1962) Terminal Building on WW II Coast Artillery bunker before storm damage forced move to Fort Miles in Delaware where it became NAVFAC Lewes.]] In 1954 three full systems to include a NAVFAC terminus were installed with arrays terminating at NAVFACs at Ramey Air Force Base, Puerto Rico in September, [[Grand Turk Island\|Grand Turk]] in October, and [[San Salvador Island\|San Salvador]] in December.<ref group="note">For details on locations, including photographs, see [https://www.public.navy.mil/subfor/cus/Pages/Past_Sites.aspx "Past IUSS Sites"]</ref> Systems terminating at [[Naval Facility Bermuda]], [[CFS Shelburne\|Canadian Forces Station (CFS) Shelburne, Nova Scotia]], [[Naval Facility Nantucket\|Nantucket]], and [[Cape May]] were installed during 1955. Systems terminating at [[Naval Facility Cape Hatteras]] and [[Antigua#U.S. government presence\|Naval Facility Antigua]] and two Evaluation Centers, forerunners of NOPFs, were established in New York and Norfolk during 1956. The initial array at Eleuthera got a fully functioning NAVFAC with an additional system for the Atlantic at Barbados and the first of the Pacific systems at [[San Nicolas Island]] came in 1957. During 1958 the remainder of the Pacific stations at [[Naval Facility Point Sur]] and [[Centerville Beach]] in California and [[Pacific Beach, Washington]], and [[Coos Bay, Oregon\|Coos Head]] near Coos Bay, Oregon were installed.<ref name="ICAA" /> Six Pacific coast systems had been planned but only five Naval Facilities were constructed. The northernmost system off Vancouver Island was to terminate in Canada but a change in government there precluded a facility in Canada at the time. The sixth array, requiring redesign of the cable and repeater system, was thus terminated at Naval Facility Pacific Beach, making it a dual array facility.<ref name="Kneedler" /> ~~[[Tập_tin:Point_Sur_Lightstation_and_Naval_Facility_Point_Sur_1969.png\|nhỏ\|264x264px\|Point Sur Lightstation and in background NAVFAC Point Sur (1969)]]~~ From 1958-1960 Project Caesar assets began work installing the [[Missile Impact Location System]] (MILS), based on technology and installation methods similar to those for SOSUS, in support of Air Force ICBM tests. The survey and installation focus in that period was on installation of MILS in the Atlantic and Pacific test ranges.<ref name="ICAA" /><ref group="note">The similarity is seen in the 1962 Bell Telephone System advertisement [https://books.google.com/books?id=PG2k1YOFsbMC&pg=PA8#v=onepage&q&f=false "How the ocean grew 'ears' to pinpoint missile shots"].</ref> Arrays of hydrophones placed around the target area located the missile warhead by means of measuring arrival times of the explosion at the various hydrophones of a SOFAR charge in the test warhead.<ref>{{cite web\|url=http://sofarbda.org/mils.html\|title=MILS\|last=Hallett\|first=Bruce\|publisher=SOFAR Bermuda\|access-date=11 February 2020}}</ref> During that period an atypical SOSUS system was installed in 1959 at [[Argentia, Newfoundland]] to provide surveillance for approaches to [[Hudson Bay]]. It was a shallow water, curved array with ten eight-element arrays installed on two cables with each cable having the capacity for the usual forty elements.<ref name="ICAA" /> ~~==== 1960s ====~~ In 1962 a new system was installed terminating at [[Naval Air Facility Adak#Naval Facility (NAVFAC) Adak\|Naval Facility Adak]] in the [[Aleutians]]. The system terminating at Cape May was rerouted to a new [[Fort Miles#Cold War\|Naval Facility Lewes]], Delaware, with upgraded processing, after the NAVFAC Cape May had been destroyed in the [[Ash Wednesday Storm of 1962\|"Ash Wednesday" Storm]].<ref group="note">The web page [http://www.navyatcapehenlopen.info/navfacterminalbuilding.html '''A Century of Service: The U.S. Navy on Cape Henlopen'''] has a detailed description with photos and illustrations of this NAVFAC and the cable and array locations. The original phonetic name for the system was GEORGE. The photo of a cross section of the old 21 quad cable is of particular interest.</ref><ref name="ICAA" /><ref>{{cite web\|url=https://www.public.navy.mil/subfor/cus/Pages/NAVFAC_Lewes.aspx\|title=Naval Facility Lewes, August 1955 - September 1981\|last=Commander Undersea Surveillance\|publisher=U.S. Navy\|access-date=11 February 2020}}</ref> NAVFAC Argentia got a 2X20 element array in 1963. A 1965 decision to deploy systems to the [[Norwegian Sea]] was followed in 1966 with a system terminating at [[Keflavik, Iceland]] with the first 3X16 array system while Western Electric installed data links by land line to OCEANSYSLANT and OCEANSYSPAC. New systems were installed during 1968 at [[Midway Island]] and [[Guam]]. COMOCEANSYSPAC relocated to [[Ford Island, Hawaii]] from [[Treasure Island, California]]. The shallow water system at Argentia was deactivated.<ref name="ICAA" /> In 1965 {{ship\|USNS\|Flyer\|\|2}} was acquired as a bathymetric survey ship.<ref name="SL">{{cite magazine\|date=January 1967\|title=USNS Flyer\|url=https://books.google.com/books?id=wzZIil93az0C&q=Caesar%20%22USNS%20Flyer%22&pg=PA19\|volume=17\|issue=1\|page=19\|access-date=24 February 2020\|magazine=Sealift Magazine}}</ref> The satellite communications ship {{ship\|USNS\|Kingsport\|T-AG-164\|2}} joined the project in 1967 for acoustic and bathymetric work.<ref name="CAS">{{cite book\|url=https://books.google.com/books?id=grmENiGabHEC&pg=PA4244\|title=Department of Defense Authorization for Appropriations for Fiscal Year 1979\|last=Committee on Armed Services (U.S. Senate)\|publisher=Government Printing Office\|year=1978\|location=Washington, D.C.\|pages=4244–4246\|access-date=24 February 2020}}</ref><ref>{{cite report\|url=http://www.dtic.mil/dtic/tr/fulltext/u2/c017390.pdf\|title=Bearing Stake Exercise: Sound Speed and Other Environmental Variability\|last1=Fenner\|first1=Don F.\|last2=Cronin\|first2=William J., Jr.\|publisher=Naval Ocean Research and Development Activity (NORDA)\|location=NSTL Station, MS\|access-date=26 September 2020\|year=1978}}</ref> ~~==== 1970s ====~~ The first NAVFAC decommissioning took place with the isolated duty station at NAVFAC San Salvador, Bahamas shut down on 31 January 1970.<ref name="ICAA" /><ref>{{cite web\|url=https://www.public.navy.mil/subfor/cus/Pages/NAVFAC_San_Salvador.aspx\|title=Naval Facility San Salvador, December 1954 - January 1970\|last=Commander Undersea Surveillance\|publisher=U.S. Navy\|access-date=11 February 2020}}</ref> The old station is now home of the [[University of the Bahamas\|Gerace Research Center]].<ref>{{cite web\|url=https://www.bahamas.com/vendor/gerace-research-center\|title=Gerace Research Center\|publisher=The Islands Of The Bahamas\|access-date=11 February 2020}}</ref> NAVFAC [[Barbers Point]] is commissioned. A system wide modernization began in 1972. Argentia became a joint Canadian Forces and U.S. Navy facility. NAVFAC Ramey becomes NAVFAC Punta Borinquen in 1974. Further NAVFACs shut down in 1976 with NAVFACs Punta Borinquen and Nantucket decommissioned. NAVFAC Barbados was decommissioned in 1979.<ref name="ICAA" /> ~~[[Tập_tin:U.S._Naval_Facility_Brawdy.jpg\|phải\|nhỏ\|150x150px\|Naval Facility Brawdy, Wales, the first "super NAVFAC" to be established.]]~~ In 1974 [[RAF Brawdy#Naval Facility Brawdy\|Naval Facility Brawdy, Wales]] was established as the terminus of new arrays covering the eastern Atlantic. NAVFAC Brawdy became the first "super NAVFAC" with some four hundred U.S. and United Kingdom military and civilian personnel assigned. <ref name="ICAA" /><ref>{{cite web\|url=https://www.public.navy.mil/subfor/cus/Pages/NAVFAC_Brawdy.aspx\|title=Naval Facility Brawdy April 1974 - October 1995\|publisher=United States Navy\|access-date=22 March 2020}}</ref><ref group="note">The Naval Ocean Processing Facility (NOPF) appears to be a "super NAVFAC" with processing of multiple array data, often by joint allied forces. Naval Ocean Processing Facility (NOPF), Dam Neck, Virginia, in 1980 with Western Atlantic consolidation was the first of the NOPFs to be so named. With closure of NAVFAC Brawdy and its array data remoted to Joint Maritime Facility (JMF), St Mawgan the later Integrated Undersea Surveillance System character of the consolidated, joint centers was achieved. Ultimately that JMF itself was "remoted" across the Atlantic to Dam Neck.</ref> The facility ({{coord\|51\|52\|15.3\|N\|005\|08\|13.8\|W\|}}) was adjacent to the [[RAF Brawdy\|Royal Air Force Station Brawdy]] which had returned to RAF control during February 1974 after closure in 1971.<ref>{{cite book\|title=RAF Squadrons, a Comprehensive Record of the Movement and Equipment of all RAF Squadrons and their Antecedents since 1912\|last=Jefford\|first=C.G.\|publisher=Airlife Publishing\|year=2001\|isbn=1-84037-141-2\|location=Shrewsbury, Shropshire, UK\|page=32}}</ref> In 1975 {{ship\|USNS\|Mizar\|T-AGOR-11\|2}} left [[Naval Research Laboratory]] service and joined Project Caesar. In April 1974 the ship was reported as already being funded by Naval Electronics Systems Command (NAVELEX), where the project program management resided, and no longer funded as an oceanographic ship.<ref>{{cite report\|url=https://books.google.com/books?id=rdYX2ZWvH2UC&pg=RA1-PA100\|title=The Federal Ocean Program\|date=April 1974\|page=100\|access-date=23 February 2020}}</ref> By 1979 it was the most recently built ship of the five project ships that then included cable repair ships ''Albert J. Myer'' and ''Neptune'' due for modernization and the larger repair ship ''Aeolus'' that was uneconomical to repair and marginal as a cable ship.<ref group="note">Both ''Aeolus'' and ''Thor'' had been conversions from ''Artemis'' class AKA types of unusually shallow draft. Cable ships were designed for deep draft with high capacity cable tank storage and ability to maintain station during stopped or low speed repair operations in poor weather. The AKA conversions could not carry a full cable load and full fuel load without exceeding maximum draft. A major deficiency for a modern cable laying ship, rather than dedicated repair ship, was lack of stern laying capability. Neither of the larger repair ships could be modified for that. On some operations, they had to be towed from astern by a tug in order to lay cable over the bow sheaves using cable machinery forward. They even had dual sets of running lights installed so the stern could be the bow and show proper lights.</ref> ''Kingsport'' was still with the project. The Navy was requesting four fully functional cable ships, the modernized ''Albert J. Myer'' and ''Neptune'' and two large new ships. The two new ships were to be designed as modern cable ships, fully capable of cable and survey work.<ref name="CAS" /> ~~==== 1980s ====~~ In 1980 consolidation and elimination of expensive individual facilities was made possible by the Wideband Acoustic Data Relay (WADR) first installed at Midway Island in January 1982 so that the two Midway arrays could eventually be remoted directly to NOPF Ford Island. This first generation WADR was used to consolidate array data from the California facilities at San Nicolas Island and Point Sur in 1984. Those were followed by remoting Hawaii's Barber’s Point in 1985, the Pacific Northwest arrays at Pacific Beach and Coos Head in 1987, and Bermuda in the Atlantic in 1992. A second generation WADR allowed the consolidation of the Aleutian station at Adak in 1993, the North Atlantic's Argentia in 1995, and those termed "Special Projects" in 1997 and 1998.<ref name="Weinel2" /> The western Atlantic system consolidation was centered on the establishment of the Naval Ocean Processing Facility (NOPF) at Dam Neck, Virginia beginning with closure of NAVFACs Eleuthera and Grand Turk. During 1981 Naval Ocean Processing Facility (NOPF), Ford Island became operational and the decommissioning of NAVFAC Midway with that system's data routed to NAVFAC Barbers Point was completed. NAVFAC Lewes, Delaware closed that year.<ref name="ICAA" /> NAVFAC Cape Hatteras closed in 1982 and in 1983 Midway acoustic data was rerouted directly to Naval Ocean Processing Facility, Ford Island.<ref name="ICAA" /><ref name="Weinel2" /> ~~[[Tập_tin:USNS_Zeus.jpg\|nhỏ\|200x200px\|USNS ''Zeus'']]~~ In 1984 the first SURTASS vessel, {{ship\|USNS\|Stalwart\|T-AGOS-1\|}} arrives at [[Little Creek, Virginia]]. {{ship\|USNS\|Zeus\|T-ARC-7\|}}, the one new cable ship of the requested two, enters the "Caesar fleet" for operations. Atlantic NAVFAC Antigua and Pacific NAVFACs at San Nicolas Island and Point Sur in California closed. Point Sur acoustic data was routed to NAVFAC Centerville. Consolidation and new systems brought further change in 1985. NAVFAC Barbers Point closes with acoustic data directed to NOPF, Ford Island. The Fixed Distributed System (FDS) test array, a new type of fixed bottom system, terminus was made at NAVFAC Brawdy, Wales. ''Stalwart'' makes first SURTASS operational patrol and system name is changed from SOSUS to Integrated Undersea Surveillance System (IUSS). Consolidation continued in 1987 with NAVFAC Whidbey Island, Washington, established with NAVFAC Pacific Beach's acoustic data routed to that facility. During 1991 NAVFAC Guam, Mariana Islands closed.<ref name="ICAA" /> ~~==== 1990s ====~~ USNS ''Stalwart'' and {{ship\|USNS\|Worthy\|T-AGOS-14\|}} monohull SURTASS ships were withdrawn with [[Small-waterplane-area twin hull\|SWATH hull]] {{USNS\|Victorious\|T-AGOS-19\|}} accepted by the Navy during 1992. That year the system got Chief of Naval Operations tasking to report whale detections.<ref name="ICAA" /> More original NAVFACs closed during 1993 with NAVFACs Centerville Beach, California and Adak, Alaska closing with their acoustic data routed to NAVFAC Whidbey Island. The facility at Whidbey, with multiple systems terminating there became Naval Ocean Processing Facility (NOPF) Whidbey. During 1994 Canadian Forces Shelburne, Nova Scotia closes as does NAVFAC Argentia with HMCS ''Trinity'' established at [[Halifax Nova Scotia]] with operation as Canadian Forces IUSS Centre (CFIC). NAVFAC Bermuda data is routed to Naval Ocean Processing Facility (NOPF) at Dam Neck. The new Advanced Deployable System enters as a part of IUSS and NAVFAC Brawdy, Wales closes with equipment and operation transferred to [[RAF St Mawgan#Cold War\|Joint Maritime Facility St Mawgan]] during 1995. During 1996 NAVFAC Keflavik Iceland closes and the new Fixed Distributed System Initial Operational Capability is accomplished.<ref name="ICAA" /> In 1997 the Adak system reverts to "wet storage."<ref name="ICAA" /> ~~==== 2000 to 2010 ====~~ ~~[[Tập_tin:USNS_Impeccable_T-AGOS-23.jpg\|phải\|nhỏ\|150x150px\|''Impeccable'', a [[Small-waterplane-area twin hull\|SWATH]] design, for SURTASS/LFA operations.]]~~ {{ship\|USNS\|Impeccable\|T-AGOS-23\|}} is commissioned as the first SURTASS/Low Frequency Active (LFA) surveillance ship in 2000. In 2003 the new Advanced Deployable System (ADS) completes dual array testing. Extensive changes both with shore and sea assets take place over the following years as post Cold War missions change and systems are applied in new ways. Further consolidation takes place such as in 2009 when Joint Maritime Facility, St. Mawgan in the U.K. has data remoted directly to NOPF Dam Neck and is decommissioned. British and US Forces then begin joint, combined operations at NOPF Dam Neck.<ref name="ICAA" /> ~~=== Management and commands ===~~ Project Caesar, from initial bathymetric and acoustical surveys through cable installation and turnover to operations, was managed by Bureau of Ships (BuShips) from 1951 until 1964. All the direct support through contracts with Western Electric, Bell Labs and ship schedules was under this management. In 1964 the project was placed under Industrial Manager, Potomac River Command and then Naval District Washington in 1965. In 1966 the project came under Naval Electronics Systems Command (NAVELEX PME-124) where it remained through the name change in 1986 to [[Space and Naval Warfare Systems Command]] (SPAWARSYSCOM PMW 180)<ref group="note">PME-124 and PMW-180 were the program manager's office designations. Name changed in June 2019 to [https://www.navy.mil/submit/display.asp?story_id=109773 Naval Information Warfare Systems Command].</ref> and a move from Arlington to San Diego in 1997.<ref name="ICAA" /> The Navy operational side, taking over when the systems were accepted and turned over for operation, came under Commander, Oceanographic System Atlantic (COMOCEANSYSLANT) in 1954. Commander, Oceanographic System Pacific (COMOCEANSYSPAC) was established for the Pacific systems in 1964. Within the Office of Chief of Naval Operations the Director ASW Programs OP-95 was established in 1964. In 1970 COMOCEANSYSLANT and COMOCEANSYSPAC were designated as major commands by the Chief of Naval Operations.<ref name="ICAA" /> ~~[[Tập_tin:Navy_Integrated_Undersea_Surveillance_System_Insignia.png\|nhỏ\|200x200px\|Officer and enlisted IUSS insignia.]]~~ With the new, mobile systems [[Towed Array Sensor System]] (TASS) and the [[Surveillance Towed Array Sensor System]] (SURTASS) entering the system, the SOSUS name was changed in 1984 to Integrated Undersea Surveillance System (IUSS) to reflect the change from bottom fixed systems alone. In 1990 officers were authorized to wear IUSS insignia. Finally, with "undersea surveillance" so openly displayed, the mission is declassified in 1991 and the commands reflect that with replacement of the "oceanographic systems" with the accurate "under sea surveillance," the commands renamed as Commander, Undersea Surveillance Atlantic and Commander, Undersea Surveillance Pacific. In 1994 the Atlantic and Pacific commands were merged into Commander Undersea Surveillance at [[Dam Neck, Virginia]]. In 1998 that command was placed under Commander, Submarine Force, U.S. Atlantic Fleet.<ref name="ICAA" /> The LOFARgram representation of acoustics in black, gray and white with an operator trained and adapted to interpreting that display was the critical link in the system. Experienced operators that could detect subtle differences and with practice could detect faint signatures of targets were vital to detection. It was even found that color blindness could be an advantage. It was soon apparent that the Navy's practice of short term tours and transfer out of the system was a problem. Commander Ocean Systems Atlantic launched an effort in 1964 to create a rating peculiar to SOSUS and allow personnel to remain within the community. It took five years for Bureau of Personnel to create the rating of Ocean Technician [OT]. That bureau did not do the same for officers thus forcing those with experience to either leave for new duties or leave the Navy. Some did so and remained in the system as civil service or contractor personnel.<ref name="Weir" /> The first women were assigned to NAVFAC Eleuthera when an officer and ten enlisted women were assigned in 1972.<ref name="ICAA" /> Due to the fact that the SOSUS community departed from the usual Navy cultural routine, with repeat assignments within the small community, women were able to serve in a warfare specialty without shipboard duty that was still being denied. That opened a new field for women outside the usual medical, education, or administrative specialties. SOSUS assignment qualified as important as sea duty on a Cold War front line.<ref name="Weir" /> ~~=== Events ===~~ In 1961 the system proved its effectiveness when it tracked {{ship\|USS\|George Washington\|SSBN-598\|}} on her first North Atlantic transit to the United Kingdom.<ref name="Whitman" /> The first detection of a Soviet nuclear submarine occurred on 6 July 1962 when NAVFAC Barbados recognized and reported contact #27103, a Soviet nuclear submarine west of Norway coming into the Atlantic through the Greenland-Iceland-United Kingdom (GIUK) gap.<ref name="Whitman" /><ref name="ICAA" /> When the {{USS\|Thresher\|SSN-593}} sank in 1963, SOSUS helped determine its location. In 1968, the first detections of [[Victor class submarine\|Victor]] and [[Charlie class submarine\|Charlie]] class Soviet submarines were made, while in 1974 the first [[Delta class submarine]] was observed. In 1968, SOSUS played a key role in locating the wreckage of a US [[Ballistic missile submarine\|nuclear attack submarine]], the {{USS\|Scorpion\|SSN-589}}, lost near [[the Azores]] in May. Moreover, SOSUS data from March 1968 facilitated the discovery, and clandestine retrieval six years later, of parts of a Soviet [[GOLF II-class ballistic missile submarine]], the [[K-129]], that foundered that month north of [[Hawaii]].<ref name="Whitman" /> ~~=== Operational issues ===~~ The secrecy of the system meant that it did not have the widespread fleet support of successful tactical systems despite its actual success. It was the primary cuing system which antisubmarine forces used to localize and potentially destroy targets for over forty years but secrecy largely kept that fact from the fleet. The lack of strong fleet support was a factor when budget cuts after the Cold War fell heavily on the surveillance program.<ref name="Maskell" /> The system's first station came on line before there was any signature library of Soviet submarine acoustic characteristics while submerged. The operators had no information on which to identify a hostile submerged submarine's unique signature while snorkeling on the LOFARgram. The signatures available were of surfaced submarines from other sources. It was not until the Cuban Missile Crisis in 1962, when the quarantine reduced other shipping noises, that operators recognized unusual signatures that were confirmed to be Soviet snorkeling submarines when aircraft sighted snorkels and [[Sonobouy\|sonobuoys]] confirmed the unusual acoustics as being from that submarine. Even then, others had doubts until 1963–1964 Norwegian data on submarines deploying or returning collected correlated signatures. SOSUS then became the major collector of Soviet submarine signatures and "boot strapped" itself to becoming the primary signature library for itself and becoming the major intelligence source for all other Navy acoustic sensor systems.<ref>{{cite web\|url=http://www.iusscaa.org/articles/brucerule/brucerule_cable_2012.htm\|title=Faulty Intelligence Nearly "Sank" SOSUS During the Cuban Missile Crisis\|last=Rule\|first=Bruce\|year=2012\|publisher=IUSS/CAESAR Alumni Association\|access-date=13 February 2020}}</ref><ref name="BRearly">{{cite web\|url=http://www.iusscaa.org/articles/brucerule/the_sosus_system_a_personal_perspective_of_the_early_years.htm\|title=The SOSUS System A Personal Perspective of the Early Years\|last=Rule\|first=Bruce\|date=June 17, 2015\|publisher=IUSS/CAESAR Alumni Association\|access-date=13 February 2020}}</ref> Both undersea surveillance and the operation of U.S. submarines were tightly held secrets within the communities. That secrecy led to misunderstandings and even potential breaches of security. Despite periods of realization both communities fell back into assumptions as a result of secrecy. On the submarine force side, there was a recurrent idea that SOSUS/IUSS could not detect U.S. submarines despite early SOSUS tracking USS ''George Washington'' across the Atlantic in its early days. Realization SOSUS could detect U.S. nuclear submarines led to the Navy's quieting program for those submarines and the assumption returned.<ref name="Maskell" /> The opposite occurred when the surveillance community did not have information on U.S. submarine operations, and assumed they held a Soviet or unknown contact. In 1962 and 1973, US submarines conducting covert operations off of the Soviet submarine base at [[Petropavlovsk-Kamchatsky\|Petropavlovsk]] were detected by NAVFAC Adak. In 1962, the detections were published at the secret level by Commander, Alaskan Sea Frontier, and these reports were pushed up the chain of command. [[COMSUBPAC\|Commander, Submarine Force, U.S. Pacific Fleet]] (COMSUBPAC) recognized the contacts as US submarines engaged in highly classified operations, and immediate changes were ordered for the reporting procedures. In 1973 such contacts were again almost published, but were stopped only when information was identified by a visiting civilian expert who recognized the acoustic signatures as that of a U.S. submarine. When that submarine put into Adak for a medical emergency the detection events were matched to the submarine's logs ending the disbelief the "Soviet" contact was actually a U.S. submarine.<ref name="Maskell" /><ref name="BRearly" /><ref>{{cite web\|url=http://www.iusscaa.org/articles/brucerule/navfac_adak.htm\|title=NAVFAC ADAK, Ancient History\|last=Rule\|first=Bruce\|date=November 13, 2013\|publisher=IUSS/CAESAR Alumni Association\|access-date=13 February 2020}}</ref> ~~== "Caesar fleet" ==~~ ~~Other ships are mentioned as having "cameo" appearances and the project apparently made use of other Navy survey and civilian cable ships on occasion. The core fleet appears to be those listed below.~~ ~~Cable ships:~~ * {{USS\|Aeolus\|ARC-3\|2}}<ref name="ICAA" /> * {{USNS\|Albert J. Myer\|\|2}}<ref name="ICAA" /> * {{USNS\|Neptune\|ARC-2\|2}}<ref name="ICAA" /> * {{USS\|Thor\|\|2}}<ref name="ICAA" /> * {{USNS\|Zeus\|T-ARC-7\|2}}<ref name="ICAA" /> ~~Other:~~ * {{USNS\|Flyer\|T-AG-178\|2}}<ref name="SL" /> * {{SS\|Arthur M. Huddell\|\|2}}<ref name="ICAA" /> * {{USNS\|Kingsport\|T-AG-164\|2}}<ref name="CAS" /> * {{USNS\|Mizar\|T-AGOR-11\|2}}<ref name="ICAA" /> ~~== Espionage ==~~ In 1988, [[Stephen Joseph Ratkai]], a Hungarian-Canadian recruited by [[Soviet intelligence\|Soviet Intelligence]], was arrested, charged and convicted in [[St. John's, Newfoundland]] for attempting to obtain information on the SOSUS site at [[Naval Station Argentia]]. [[John Anthony Walker]], a US Navy [[Warrant officer (United States)#Navy\|Chief Warrant Officer]] and communications specialist, divulged SOSUS operational information to the Soviet Union during the Cold War which compromised its effectiveness.<ref>{{cite news\|last1=Keller\|first1=Bill\|date=1985\|title=Spy Case is Called Threat to Finding Soviet Submarines\|language=en\|work=The New York Times\|url=https://www.nytimes.com/1985/06/06/us/spy-case-is-called-threat-to-finding-soviet-submarines.html\|access-date=11 February 2020}}</ref> ~~== Post-Cold War ==~~ By 1998 cable technology and shore processing allowed consolidation of shore stations to a few central processing facilities. Changes in Soviet operations, few hostile nuclear submarines at sea and the ending of the [[Cold War]] in the 1990s meant the need to maintain IUSS/SOSUS at full capability decreased.<ref name="Whitman" /> The focus of the US Navy also turned toward a new fixed system, the Fixed Distributed System, and systems deployable on a theater basis such as the Surveillance Towed Array Sensor System and Advanced Deployable System.<ref name="ICAA" /> Although officially declassified in 1991, by that time IUSS and SOSUS had long been an [[open secret]]. ~~=== Civilian science applications ===~~ Alternate or dual-use partnerships exist with a number of agencies and institutions. The Applied Physics Laboratory, [[University of Washington]] has used the system for [[Ocean Acoustic Tomography]].<ref>{{cite web\|url=http://www.apl.washington.edu/projects/blue_water/index.html\|title=Blue Water Acoustic Research at APL-UW\|publisher=University of Washington\|access-date=11 February 2020}}</ref> [[National Oceanic and Atmospheric Administration]] (NOAA) Vents program at its Pacific Marine Environmental Laboratory was granted access to the system at the Naval Ocean Processing Facility at Whidbey Island in October 1990 to combine raw analog data from specific hydrophones with NOAA systems for continuous monitoring of the northeast Pacific Ocean for low-level seismic activite and detection of volcanic activity along the northeast Pacific spreading centers.<ref>{{cite web\|url=https://www.pmel.noaa.gov/acoustics/sosus_gen.html\|title=SOund SUrveillance System (SOSUS): General Information\|publisher=National Oceanic and Atmospheric Administration\|access-date=11 February 2020}}</ref><ref>{{cite web\|url=https://pmel.noaa.gov/sites/default/files/atoms/files/oceanacoustics2.pdf\|title=PMEL/Vents Ocean Acoustics (Briefing)\|date=August 2008\|publisher=Pacific Marine Environmental Laboratory, NOAA\|access-date=11 February 2020}}</ref> [[Woods Hole Oceanographic Institute]] detected and tracked a lone whale with a unique call over a period of years in the Pacific.<ref>{{cite magazine\|last=Lippsett\|first=Lonny\|date=April 5, 2005\|title=A Lone Voice Crying in the Watery Wilderness\|url=https://www.whoi.edu/oceanus/feature/a-lone-voice-crying-in-the-watery-wilderness/\|publisher=Woods Hole Oceanographic Institute\|access-date=11 February 2020\|magazine=Oceanus}}</ref> Texas Applied Research Laboratories,<ref>{{cite web\|url=http://www.arlut.utexas.edu/researching/index.html#acoustics\|title=Ongoing Research at ARL:UT\|publisher=Arlut.utexas.edu\|access-date=2013-12-13\|agency=University of Texas at Austin Applied Research Laboratories}}</ref> and several other organizations have used the system for research. ~~== Associated systems ==~~ ~~=== ''Colossus'' ===~~ Jezebel research had developed an additional short range, high frequency, upward-looking system using active transducers for direct plotting of ships passing over the array. Colossus was intended to be installed in narrows and straits.<ref name="ICAA" /> ~~=== ''Artemis'' ===~~ [[Project Artemis\|''Artemis'']] was an experiment with a large active source. It was not a part of the SOSUS development. The system used very large towers and unwieldy components while SOSUS provided more than adequate warning and coverage and thus the system did not come into operation. The word ''Artemis'' had been used as a code word in the first days before ''Jezebel'', ''Michael'' and ''Caesar'' as an unclassified name. ''Artemis'', goddess of the hunt, stood for those cleared for Frederick V. Hunt and his idea of a passive system like SOSUS in his May 1950 report. That old application of ''Artemis'' caused some confusion.<ref name="Weir2" /> ~~== Footnotes ==~~ ~~{{reflist\|group=note}}~~ ~~== See also ==~~ * [[Communication with submarines]] * [[Integrated Undersea Surveillance System insignia]] * [[SOFAR channel]] * [[Missile Impact Location System]] * [[Project Artemis]] * [[Gordon Eugene Martin]], Navy physicist and executive officer of the prototype SOSUS station ~~== References ==~~ ~~{{Reflist\|2}}~~ ~~== External links ==~~ * [https://www.public.navy.mil/subfor/cus/Pages/Past_Sites.aspx Past IUSS Sites] Index to individual pages with location details, photos and badges of the shore sites. * [http://pub10.bravenet.com/photocenter/album.php?usernum=774301397#bn-photocenter-1-1-774301397/1098/1/ CAESAR Fleet] * [http://www.navyatcapehenlopen.info/navfacterminalbuilding.html The Terminal Equipment Building of the Navy Sound Surveillance System (SOSUS)] Photos and diagrams of NAVFAC Lewes, 21 quad cable cross section, LOFARGRAM photos Hàng 193 ⟶ 39: * {{YouTube\|title=Watch In The Sea--part one\|id=qsADWTHlmKI}} * {{YouTube\|title=Watch In The Sea--part two\|id=ZqqAO7bZnq8}} * [https://apps.dtic.mil/dtic/tr/fulltext/u2/025718.pdf 1953 ''Project Michael'' report: Transmission of 30 cps Sound in Deep Water] {{Webarchive\|url=https://web.archive.org/web/20210805104837/https://apps.dtic.mil/dtic/tr/fulltext/u2/025718.pdf \|date=2021-08-05 }} {{Cold War}}