Two nonuniform coaxial transmission lines have been fabricated in which the primary parameters of the line vary parabolically and cosinusoidally. The characteristic impedances and the matched loads have been measured ...
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Two nonuniform coaxial transmission lines have been fabricated in which the primary parameters of the line vary parabolically and cosinusoidally. The characteristic impedances and the matched loads have been measured and the application to a broadband impedance transformer has been studied. The results show that the characteristic impedance distribution of the nonuniform coaxial transmission line does not coincide with the nominal characteristic impedance but agrees with the solution of the differential equation for the impedance derived from the telegrapher's equation. The condition providing for an effective matched load is determined and it is found that under this matched condition both of the nonuniform coaxial transmission line elements operate as an impedance transformer over an extremely wide frequency range exceeding 0. 5 GHz.
This paper describes an improvement of the solution by Krawczyk, Moore and Jones (KMJ algorithm) for nonlinear equations based on the interval analysis. When the KMJ algorithm is applied to practical problems such as ...
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This paper describes an improvement of the solution by Krawczyk, Moore and Jones (KMJ algorithm) for nonlinear equations based on the interval analysis. When the KMJ algorithm is applied to practical problems such as the determination of the operating point of a multistable electronic circuit, a large computation time is required. It is shown that the algorithm can be improved in the computation time by a preprocessing and an elaboration in the region partitioning.
作者:
Okumura, KohshiKishima, AkiraYasuda, HisashiFaculty of Engineering
Kyoto University Kyoto Japan 606 Kohshi
Okumura graduated 1966 Dept. Electrical Eng. Fac. Eng. Kyoto University. Completed doctoral program 1971 Grad. School and Assistant Kyoto University. Doctor of Engineering. Presently Lecturer Dept. Electrical Eng. Engaged primarily in researches in nonlinear circuits lightning surge performance hysteresis characteristics and so forth. Member IEEJ IECEJ and IEEE. Hisashi Yasuda graduated 1981
Dept. Electrical Eng. Fac. Eng. Kyoto University. Completed Master's program 1983 Grad. School. Presently with Nippon Steel Co. Ltd. Member IECEJ. Nippon Steel Corporation
Kitakyushu Japan 805 Akira Kishima graduated 1951
Dept. Electrical Eng. Fac. Eng. Kyoto University. Completed Grad. School 1956. Assoc. Prof. Presently Prof. Dept. Electrical Eng. Fac. Eng. Kyoto University. Doctor of Eng. Engaged in researches in electrical circuit power circuit and systems.
This paper proposes a method for analyzing the transient and steady states of a sine wave oscillator circuit with reactive elements which have large differences in their values. The circuit equation is represented by ...
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This paper proposes a method for analyzing the transient and steady states of a sine wave oscillator circuit with reactive elements which have large differences in their values. The circuit equation is represented by an autonomous nonlinear differential equation with the values of these elements. First, we describe the method for solving numerically the differential equation regardless of the stiffness by the asymptotic method developed by Krylov, Bogolyubov and Mitropolskiy. Second, we present the method for obtaining solutions of the differential equation with regard to the stiffness by combining the asymptotic method with numerical integration.
作者:
Maruyama, SatoshiIwanami, YasunoriIkeda, TetsuoFaculty of Engineering
Nagoya Institute of Technology Nagoya Japan 486 Satoshi Maruyama graduated 1983 Dept. Electrical Eng.
Fac. Eng. Nagoya Inst. Technology. Completed Master's program 1985 Grad. School and affiliated with Fujitsu Co. Engaged in researches in distance measurement by spread spectrum technique. Tetsuo Ikeda graduated 1961 Dept. Comm. Eng.
Fac. Eng. Tohoku University. Completed doctoral program 1966 Grad. School. Assistant 1966 and Assoc. Prof. 1968 Fac. Eng. Tohoku University. Assoc. Prof. 1973 and Prof. 1977 Nagoya Inst. Technology. Engaged in researches in network theory computer networks communication system and electromagnetic environment. Doctor of Eng. Member I.E.E.E. Japan TV Soc. Jap. Inf. Proc. Soc. Jap. Soc. Inf. Comm. and I.E.E.E.
The spread spectrum (SS) communication is a communication system which has excellent characteristics against noise and is suited to the code-division multiplex. This paper describes a method which reduces the tracking...
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The spread spectrum (SS) communication is a communication system which has excellent characteristics against noise and is suited to the code-division multiplex. This paper describes a method which reduces the tracking phase error in DLL due to multipath waves in SS communication system. The method is based on the model with a single multipath wave.
作者:
David G. SlearRobert L. LongJames D. JonesF. S. GiacobbeGPU Nuclear
Parsippany N.J. 07054 In 1974
David Slear joined General Public Utilities Nuclear Corp. where his responsibilities included the design review of components for new nuclear power plants and troubleshooting component failures both in nuclear power and fossil plants in the GPU System. In 1978 he was promoted to Preliminary Engineering Manager and was responsible for coordinating the preparation of design criteria for several coal-fired plants and combustion turbines to be installed throughout the 1980s. Immediately following the TMI-2 accident
he was placed in charge of coordinating the establishment of criteria and the design for numerous modifications that were perceived to be required in order to maintain core cooling and a stable safe shutdown condition for the TMI-2 reactor. Subsequently he was promoted to Manager of TMI Engineering Projects which involved establishing the criteria and coordinating the engineering for the numerous modifications required to TMI-1 as a result of the Lessons Learned from the accident at TMI-2. He holds a B.S. Degree in Mechanical Engineering and an M.S. Degree in Mechanical Engineering.Since April 1982
Robert L. Long has been Vice President and Director of the Nuclear Assurance Division of the GPU Nuclear Corp. This includes responsibilities for the Quality Assurance Department the Nuclear Safety Assessment Department the Training & Education Directorate and the Emergency Preparedness Department. Joining GPU in 1978 he has been actively involved with Three Mile Island recovery and restart activities since the spring of 1979. From February 1980 through March 1982 he served as Director–Training & Education for GPU Nuclear. He holds the B.S. degree in Electrical Engineering from Bucknell University and the M.S.E. and Ph.D. degrees in Nuclear Engineering from Purdue University. He has written numerous publications and has presented lectures on “energy and the environment” issues all over the United States and in Southeast Asia. Since joining GPU Nuclear Corpo
作者:
MAYORGA, RVQUINTANA, VHPhD Candidate
Associate Professor Department of Electrical Engineering Faculty of Engineering University of Waterloo Waterloo Ontario Canada
The purpose of this paper is to extend a family of variable metric methods, of which the BFGS algorithm (Ref. 1) is a member, into function space, in particular, for the solution of unconstrained optimal control probl...
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The purpose of this paper is to extend a family of variable metric methods, of which the BFGS algorithm (Ref. 1) is a member, into function space, in particular, for the solution of unconstrained optimal control problems. An inexact one-dimensional minimization as suggested by Fletcher (ref. 2) is used. It is shown that, with this stepsize rule and under some mild assumptions, the sequence constructed by this family of methods converges superlinearly for a strictly convex functional defined on a suitable Banach space. This result is shown to remain valid on a Hilbert space and on a Euclidean space under more relaxed assumptions. The BFGS method without line searches is used to solve several standard numerical examples, and excellent performance is observed.
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:
BRACE, RLMCWADE, JEUSNCapt. R.L. Brace:
USN reported for active duty in the U.S. Naval Reserve in June 1945 and upon his release from active duty in 1948 entered Chaffey Junior College Ontario Calif. from which he received his Associate Degree in Engineering in June 1949. Subsequently he attended Purdue University from which he received his BS degree in Chemical Engineering in 1951 and while on a Westinghouse Research Fellowship his MS degree in Engineering in 1952. He joined Phillips Petroleum Co. in Oklahoma as a research engineer with the Jet Fuel Research Group upon receiving the latter degree and while so serving obtained 12 patents. In January 1955 he was recalled to active duty and reported to Officers Candidate School. Newport R.I. Upon being commissioned in the U.S. Naval Reserve in May of that year he began his flight training at the Naval Air Training Command ultimately being designated a Naval Aviator and augumented into the regular Navy in 1956. He served with four carrier-based attack squadrons including three combat tours and in 1962 completed a duty assignment with the U.S. Army in South Vietnam. Other assignments include Catapult and Arresting Gear Officer USS Enterprise (CVN-65) duty on the Staff. Commander Naval Air Force. U.S. Atlantic Fleet: Assistant Chief of Staff for Material
Task Force 78 during the mine countermeasure operations in North Vietnam Officer-in-Charge. Fleet Air Western Pacific Repair Activity
Cubi Point P.I.: and Head. Aircraft Launch and Recovery Equipments Branch Ship Installations Division. Naval Air Systems Command from 1974 to 1976 during which he had full responsibility for all shore-based and shipboard aircraft launching and recovery systems and was Acquisition Manager for the SERD Catapult Program. Capt. Brace who was designated an Aeronautical Engineering Duty Officer in 1964. is a graduate of the U.S. Navy Test Pilot School the Naval War College and the Defense Systems Management School and his military decorations include the Meritorious Service Award the Air Me
Eddy-current brakes as primary brakes in automobiles can potentially remedy the problems posed by conventional friction brakes. First, however, it will be necessary to analyze the effece of each design parameter on th...
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