Robust ship AAW defense capability is a priority requirement that enables Naval Forces to conduct joint expeditionary force operations in littoral environments. As an aid to achieving this capability for all ship clas...
Robust ship AAW defense capability is a priority requirement that enables Naval Forces to conduct joint expeditionary force operations in littoral environments. As an aid to achieving this capability for all ship classes, the Navy has reorganized its management of ship defense. A major focus of these efforts is the development of a fully automatic, integrated combat system for non-Aegis ships which is based on coordinated detection, control, and hard kill/electronic warfare (HK/EW) engagement functions. A phased approach to attaining this fully integrated capability has been established which includes major element upgrade introduction when technology and budget permit. This paper describes the ship self-defense performance assessment methodology which has been adopted to support the review and decision process for future planning and budgeting. This process is a continuation and refinement of that used to provide data for the Office of the Secretary of Defense Fall 1991 Conventional Systems Committee Ship Self-Defense Review. The performance assessment methodology starts with definition of survivability requirements by ship class, combat system configurations, Anti-Ship Missile threat, and operational scenario. Viable self-defense system element options are then identified. The capability of these options are then characterized for input into ship level performance prediction models. Three partitions of performance prediction modeling are made: hard kill elements only, electronic warfare element only, and integrated HK/EW. The most significant accomplishment of this effort, beyond providing data to support programmatic decision, has been the creation of a truly integrated HK/EW surface ship combat system model that interleaves HK and EW timelines and allows parametric variation to evaluate options. Because of classification, only generic examples of numerical result will be presented. However, the procedures for establishing the modelling process, prioritization of
The effects of microwave radiation, hyperthermia, and L-ascorbic acid on metabolism of (U_14C) glucose, (2-14°C) glucose, and (1,5-l4C) citrate in Ehrlich ascites tumor cells (EATC) were studied. Microwave irradi...
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作者:
PLATO, ARTIS I.GAMBREL, WILLIAM DAVIDArtis I. Plato:is Head of the Design Work Study/ Shipboard Manning/Human Factors Engineering Section
Systems Engineering and Analysis Branch Naval Ship Engineering Center (NAVSEC). He graduated from the City College of New York in 1956 receiving his Bachelor of Mechanical Engineering degree. Following this he started work at the New York Naval Shipyard in the Internal Combustion Engine and Cargo Elevator Section. During 1957 and 1958 he was called up for active duty with the U.S. Army Corps of Engineers and served in Europe with a Construction Engineer Battalion. After release from active duty he returned to the shipyard where he remained until 1961 when he transferred to the Naval Supply Research and Development Facility Bayonne New Jersey. Initially he was in charge of an Engineering Support Test Group and the drafting services for the whole Facility. Later he became a Project Engineer in the Food Services Facilities Branch with duties that included planning and designing new afloat and ashore messing facilities for the Navy. In 1966 he transferred to NAVSEC as a Project Engineer in the Design Work Study Section and in this capacity worked on selected projects and manning problems for new construction and also developed a computer program (Manpower Determination Model) that makes accurate crew predictions for feasibility studies. In 1969 he became Head of the Section. He has been active in the U.S. Army Reserve since his release from active duty and his duties have included command of an Engineer Company various Staff positions and his present assignment as Operations Officer for a Civil Affairs Group. He has completed the U. S. A rmy Corps of Engineers Career Course and the Civil Affairs Career Course and is presently enrolled in the U.S. Army Command and General Staff College non-resident course. Additionally he completed graduate studies at American University Washington D.C in 1972 receiving his MSTM degree in Technology of Management and is a member of ASE ASME CAA U. S. Naval Instit
The purpose of this paper is to discuss a system analysis technique called “Design Work Study”, that is used by the U.S. Navy for the development of improved ship control systems. The Design Work Study approach is o...
作者:
SONENSHEIN, RADM. NATHANUSNThe author graduated from the U.S. Naval Academy in the Class of 1938. His work has included instruction in Naval Construction and Marine Engineering at the Massachusetts Institute of Technology leading to a Master of Science degree in 1944 and the Advanced Management Program at Harvard Graduate School of Business in 1964. As an Engineering Duty Officer (EDO)
he has served in various Navy commands including the Mare Island Naval Shipyard the former New York Naval Shipyard the USS Philippine Sea (CVA-47) during the Korean War as Chief Engineer and CINCPACFLT and COMSERVPAC Staffs as Fleet and Force Maintenance Officer. Within the Naval Ship Systems Command and its predecessor BUSHIPS his duties have included Director of the Facilities Division Head of the Hull Design Branch Director of the Ship Design Division Assistant Chief for Design Shipbuilding and Fleet Maintenance and as Commander Naval Ship Systems Command from 1969 until 1972. Other duties have included an assignment as the Project Manager for the Navy's Fast Deployment Logistic Ship Project from 1965 to 1967 Deputy Chief of Naval Material for Logistic Support from 1967 to 1969 and Chairman of the Naval Material Command Shipbuilding Council which commenced upon completion of his tour as Commander NAVSHIPS in 1972. On 4 September 1973 he was appointed Director of the Defense Energy Task Group (DETG) and subsequently on 15 November 1973 as Director of Energy for the Department of Defense. A former President of ASNE from 1970 to 1971 he is currently Vice-President of the American Society of Naval Architects and Marine Engineers. In addition he is a member of the honorary engineering society Sigma Xi and listed among those in Who's Who in America.
作者:
SONENSHEIN, N.U. S. NAVYTHE AUTHOR: is a graduate of the United States Naval Academy
Class of 1938. His graduate work has included instruction in Naval Construction and Marine Engineering at Massachusetts Institute of Technology leading to a Master of Science degree in 1944 and the Advanced Management Program at the Harvard Graduate School of Business in 1964. As an Engineering Duty Officer he has served in various Naval commands including the Mare Island Naval Shipyard the New York Naval Shipyard and as Fleet and Force Maintenance Officer on the staffs of Commander in Chief and Commander Service Force U.S. Pacific Fleet. Within the Naval Ship System Command formerly the Bureau of Ships his duties have included Director of the Facilities Division Head of the Hull Design Branch Director of the Ship Design Division and Assistant Chief of the Bureau of Ships for Design Shipbuilding and Fleet Maintenance. He is a member of Sigma Xi ASNE and SNAME. From October 1965 to 31 July 1967 he served as Project Manager Fast Deployment Logistic Ship Project. As of 1 August 1967 he has assumed the duties of Deputy Chief of Naval Material for Logistic Support.
作者:
D'EMIDIOUSNThe author Prior to entering the Navy
Commander D'Emidio received a Bachelor of Science degree in Civil Engineering from the Newark College of Engineering (1951) and a Master of Science degree in Sanitation Engineering from the University of Michigan (1960). He was employed as a Sanitary Engineer Designer for the Architect/Engineer firm of Porter Urquhart-Skidmore Owings and Merrill in North Africa. After completing Officer Candidate School in 1953 Commander D'Emidio served in the Public Works Department of the Naval Air Material Center Philadelphia Pennsylvania. In 1957 he became Officer in Charge of Construction for three U.S. Air Force Strategic Air Command Bases in Spain. After successful tours of duty as Public Works Officer Naval Air Station Columbus Ohio and Technical Department Officer Construction Battalion Center Davisville Rhode Island he was assigned to the Naval Nuclear Power Division of Naval Facilities Engineering Command. In this capacity he assisted in the procurement and shipment of the Navy's first nuclear power plant which was installed by Seabees at McMurdo Sound Antartica in 1962. Later that year he became Civil Engineer Corps Advisor to the Brazilian Navy where he assisted in the design of a carrier-sized dry dock. In 1965 he returned to the Naval Facilities Engineering Command to establish the Navy's first Comprehensive Air and Water Pollution Abatement Program. During this tour of duty he successfully defended the Navy's Pollution Abatement Program through the Congress. Commander D'Emidio is a licensed Professional Engineer in the states of New Jersey and Ohio and is a Diplomat in the American Academy of Environmental Engineers. He is also a member of the American Society of Civil Engineers the Society of Military Engineers and the American Public Works Association. Commander D'Emidio is assigned to the Office of the Chief of Naval Operations where he is the Director of the Navy Environmental Protection Division.
作者:
SONENSHEIN, NUSNTHE AUTHOR:is a graduate of the United States Naval Academy
Class of 1938 His graduate work has included instruction in Naval Construction and Marine Engineering at Massachusetts Institute of Technology leading to a Master of Science Degree in 1944 and the Advanced Management Program at the Harvard Graduate School of Business in 1964. As an Engineering Duty Officer he has served in various Naval commands including the Mare Island Naval Shipyard the New York Naval Shipyard as Chief Engineer of the USS PHILIPPINE SEA (CVA47) during the Korean War and as Fleet and Force Maintenance Officer on the staffs of Commander in Chief and Commander Service Force U.S. Pacific Fleet. Within the Naval Ship Systems Command formerly the Bureau of Ships his duties have included Director of the Ship Design Division Head of the Hull Design Branch Director of the Ship Design Division and Assistant Chief of the Bureau of Ships for Design Shipbuilding and Fleet Maintenance. He is a member of Sigma Xi ASNE and SNAME. From October 1965 to 31 July 1967 he served as Project Manager Fast Deployment Logistic Ship Project. As of 1 August 1967 he has discharged the duties of Deputy Chief of Naval Material for Logistic Support.
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