The University of California Division of War Research (UCDWR) was created at Scripps Institution of Oceanography at the University of California, San Diego campus during World War II to aid the U.S. Navy in war-related research.
Following the outbreak of World War II, German U-boats began targeting merchant and passenger vessels in 1939, prompting the U.S. Navy to review its readiness to counter this threat. At the behest of the Navy, the National Academy of Sciences established a subcommittee on submarine detection which ultimately concluded that the Navy's "methods had hardly progressed since 1918" and recommended that the Navy create programs tasked development of instruments capable of detecting and measuring underwater occurrences. [1] In 1940, the National Defense Research Committee, by request of the Navy, established two laboratories, with one on the Atlantic coast of the U.S. and the other on the Pacific coast. The latter was established at the U.S. Naval Radio and Sound Laboratory (NRSL), located at Naval Base Point Loma, San Diego. [2] There, the University of California Division of War Research (UCWDR) was established with the University of California (UC) as the contract agency. The creation of UCDWR marked the first collaboration between the Navy and UC on wartime research. [3] The Navy also informally referred to UCDWR as the San Diego Laboratory.
“Some $12 million in research funds were granted to Scripps during the war to undertake research in submarine acoustics.” ... “The Navy also provided funding for a series of important Scripps expeditions to the Pacific, including several linked to Pacific atomic tests.” (Benson 530) [4]
Dr. Vern Knudsen, an acoustical physicist, came from UCLA to become the first leader of UCDWR. [1]
UCDWR recruited most of its staff from universities and colleges, as well as industrial and technical groups. Because of the initial general lack of knowledge of the context in which the staff would be applying their skills to, a large portion of the beginning was spent training them. [5]
Additionally, several people involved with the film industry were recruited from Hollywood, given that they were among the few who were familiar with electrical recording and projecting of sound; some of these people would be involved in the development of sonar. [1]
From 1942-1943, UCDWR was mainly focused on researching methods of detecting submerged submarines acoustically in order to rectify the Navy's inability to effectively employ its sonar equipment. While the Navy did have sonar schools, it was limited to teaching seamen how to operate and maintain their sonar equipment. [1] Knowledge of marine factors affecting the underwater transmission of sound was not deeply explored. Together with NRSL, UCDWR conducted research and experiments exploring how currents, organisms, water temperature, salinity, depth, and the sea floor affected noise. [1] The joint efforts of NRSL and UCDWR created an oceanographic scientific field that added to the Navy's ability to accurately detect sounds underwater, as well as measure listening ranges. [5]
Besides making gains in a research capacity, UCDWR was also responsible for developing devices for the submariners. The more successful projects involved the development of various sound beacons, which were used by submarine crews to prevent enemy anti-submarine vessels from tracking them. The NAC,NAG, NAH, and NAD (which were improvements from their respective predecessors) were designed to be released by submarines and remain stationary in the water while transmitting a signal at the same frequency of the enemy vessel, effectively jamming its sonar. [5]
Then followed a series of devices which were true decoys rather than jammers. The NAD-3 was one such device; instead of floating at a preset depth, it would be driven by a propeller and could follow a preset series of turns to simulate a submarine acoustically. [5]
In 1944, UCDWR completed a working sonar system called QLA, which was an evolution of an earlier project called Ethoscope. QLA was the first sonar to visually plot multiple contacts on a screen. [1] This capability was used to great effect in offensive operations late in the war when Navy submarines safely navigated the minefields guarding the Kuriles and the Strait of Tsushima by plotting the locations of the mines; the submarines infiltrated Japanese shipping lanes and sank 100,000 tons in June 1945 alone. [5]
After World War II ended in 1945, UCDWR came under the Naval Electronics Laboratory's authority. In June 1946, UCDWR formally became the Marine Physical Laboratory and was subsequently absorbed into the Scripps Institution of Oceanography in April 1948. [3]
Sonar is a technique that uses sound propagation to navigate, communicate with or detect objects on or under the surface of the water, such as other vessels. Two types of technology share the name "sonar": passive sonar is essentially listening for the sound made by vessels; active sonar is emitting pulses of sounds and listening for echoes. Sonar may be used as a means of acoustic location and of measurement of the echo characteristics of "targets" in the water. Acoustic location in air was used before the introduction of radar. Sonar may also be used for robot navigation, and SODAR is used for atmospheric investigations. The term sonar is also used for the equipment used to generate and receive the sound. The acoustic frequencies used in sonar systems vary from very low (infrasonic) to extremely high (ultrasonic). The study of underwater sound is known as underwater acoustics or hydroacoustics.
The Woods Hole Oceanographic Institution is a private, nonprofit research and higher education facility dedicated to the study of marine science and engineering.
The Sound Surveillance System (SOSUS) was a passive sonar system developed by the United States Navy to track Soviet submarines. The system's true nature was classified with the name and acronym SOSUS themselves classified. The unclassified name Project Caesar was used to cover the installation of the system and a cover story developed regarding the shore stations, identified only as a Naval Facility (NAVFAC), being for oceanographic research. In 1985, as the fixed bottom arrays were supplemented by the mobile Surveillance Towed Array Sensor System (SURTASS) and other new systems were coming on line, the name itself changed to Integrated Undersea Surveillance System (IUSS). The commands and personnel were covered by the "oceanographic" term until 1991 when the mission was declassified. As a result, the commands, Oceanographic System Atlantic and Oceanographic System Pacific became Undersea Surveillance Atlantic and Undersea Surveillance Pacific, and personnel were able to wear insignia reflecting the mission.
The Naval Undersea Warfare Center (NUWC) is the United States Navy's full-spectrum research, development, test and evaluation, engineering and fleet support center for submarines, autonomous underwater systems, and offensive and defensive weapons systems associated with undersea warfare. It is one of the corporate laboratories of the Naval Sea Systems Command. NUWC is headquartered in Newport, Rhode Island and has two major subordinate activities: Division Newport and Division Keyport in Keyport, Washington. NUWC also controls the Fox Island facility and Gould Island. It employs more than 4,400 civilian and military personnel, with budgets over $1 billion.
The SOFAR channel, or deep sound channel (DSC), is a horizontal layer of water in the ocean at which depth the speed of sound is at its minimum. The SOFAR channel acts as a waveguide for sound, and low frequency sound waves within the channel may travel thousands of miles before dissipating. An example was reception of coded signals generated by the Navy chartered ocean surveillance vessel Cory Chouest off Heard Island, located in the southern Indian Ocean, by hydrophones in portions of all five major ocean basins and as distant as the North Atlantic and North Pacific.
A research vessel is a ship or boat designed, modified, or equipped to carry out research at sea. Research vessels carry out a number of roles. Some of these roles can be combined into a single vessel but others require a dedicated vessel. Due to the demanding nature of the work, research vessels are often constructed around an icebreaker hull, allowing them to operate in polar waters.
R/P FLIP is an open ocean research platform owned by the U.S. Office of Naval Research (ONR) and operated by Scripps Institution of Oceanography. The platform is 108 meters (355 ft) long and is designed to partially flood and pitch backward 90°, resulting in only the front 17 meters (55 ft) of the platform pointing up out of the water, with bulkheads becoming decks. When flipped, most of the ballast for the platform is provided by water at depths below the influence of surface waves, hence FLIP is stable and mostly immune to wave action similar to a spar buoy. At the end of a mission, compressed air is pumped into the ballast tanks in the flooded section and the platform, which has no propulsion, returns to its horizontal position so it can be towed to a new location. The platform is frequently mistaken for a capsized ocean transport ship.
The Naval Physical and Oceanographic Laboratory or NPOL is a laboratory of the Defence Research and Development Organisation (DRDO), under the Ministry of Defence, India. It is situated in Thrikkakara, Kochi, Kerala. NPOL is responsible for the Research & Development of sonar systems, technologies for underwater surveillance, study of ocean environment and underwater materials.
The bathythermograph, or BT, also known as the Mechanical Bathythermograph, or MBT; is a small torpedo-shaped device that holds a temperature sensor and a transducer to detect changes in water temperature versus depth down to a depth of approximately 285 meters. Lowered by a small winch on the ship into the water, the BT records pressure and temperature changes on a coated glass slide as it is dropped nearly freely through the water. While the instrument is being dropped, the wire is paid out until it reaches a predetermined depth, then a brake is applied and the BT is drawn back to the surface. Because the pressure is a function of depth, temperature measurements can be correlated with the depth at which they are recorded.
A multibeam echosounder is a type of sonar that is used to map the seabed. Like other sonar systems, multibeam systems emit acoustic waves in a fan shape beneath the transceiver of the multibeam echosounder. The length of time it takes for the sound waves to reflect off the seabed and return to the receiver is used to calculate the water depth. Unlike other sonars, multibeam systems use beamforming to extract directional information from the returning soundwaves, producing a swath of depth readings from a single ping.
Dr. Fred Noel Spiess was a naval officer, oceanographer and marine explorer. His work created new advances in marine technology including the FLIP Floating Instrument Platform, the Deep Tow vehicle for study of the sea floor, and the use of acoustics for underwater navigation and geodetic positioning.
Project Artemis was a United States Navy acoustics research and development experiment from the late 1950s into the mid 1960s to test a potential low-frequency active sonar system for ocean surveillance. The at sea testing began in 1960 after research and development in the late 1950s. The project's test requirement was to prove detection of a submerged submarine at 500 nmi. The experiment, covering a number of years, involved a large active element and a massive receiver array.
USS Flamingo (AM-32) was a Lapwing-class minesweeper built for the United States Navy near the end of World War I. After service overseas clearing mines after the Armistice, the ship was laid up until 1922 when she was transferred to the United States Department of Commerce for use by the United States Coast and Geodetic Survey. Renamed USC&GS Guide, the ship operated as a survey vessel along the West Coast of the United States for 17 years, making significant contributions to navigation, hydrographic surveying, and oceanography. In June 1941, Guide was transferred back to the Navy, converted into a salvage ship, and renamed USS Viking (ARS-1). As Viking, she worked primarily from bases in California until 1953, when she was sold for scrapping.
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USS Snatch (ARS-27), well known as Scripps R/V Argo after conversion to scientific research, was a Diver-class rescue and salvage ship commissioned by the U.S. Navy during World War II and in service from 11 December 1944 through 23 December 1946. Her task was to come to the aid of stricken vessels. The ship is better known from her scientific research role as the Scripps Institution of Oceanography (SIO) research vessel R/V Argo. It is that name, apparently not formally recognized by Navy that maintained title to the vessel, found in the scientific literature and public releases about her wide ranging research voyages.
Hugh Bradner was an American physicist at the University of California who is credited with inventing the neoprene wetsuit, which helped to revolutionize scuba diving and surfing.
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Captain Nicholas Hunter Heck was a career officer of the United States Coast and Geodetic Survey Corps. A leading geophysicist of his time, Heck made important contributions in the study of seismology and oceanography. He also revolutionized hydrographic surveying by developing the wire-drag surveying technique and introduced radio acoustic ranging into Coast and Geodetic Survey hydrography.
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