Antennas and Propagation 1979. Volume 1

دسته بندی: ابزار
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تعداد صفحات: 415 
زبان: English 
فرمت فایل : DJVU (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 44 مگابایت 

قیمت کتاب (تومان) : 34,000

International Symposium Digest. — Washington, Institute of Electrical and Electronics Engineers, University of Washington Seattle. — 390 p. Chairman: A. Ishimaru, University of Washington Seattle, WA. Opening Remarks:
I.C. Peden — Steering Committee Chairperson University of Washington Seattle, WA.
Welcome:
G.M. Beckmann, Provost University of Washington Seattle, WA
I. J. Stampalia, Director of Engineering Technology Boeing Aerospace Company, Seattle, WA.
Rays and Modes in Guided Propagation
L. B. Felsen, Polytechnic institute of New York, Farmingdale, NY.
The Interferometer Array in Radio Astronomy
G. W. Swenson, Jr., University of Illinois at Urbana-Champaign, Urbana, IL.
Historical Overview and State-of-Art on the Quantification of EM Bio-Effects
A. W. Guy, University of Washington, Seattle, WA.
Satelliteborne Synthetic Aperture Radar
K. Tomiyasu, General Electric Co., Philadelphia, PA.
The Activities of the Antenna Society of the Chinese Electonics Institute
Mao Yu-Kuan, Northwest Telecommunication Engineering Institute, Xian, Shanxi, People's Republic of China. Bremmer Commemorative Anniversary Session
Chairman: J.R. Wait, ERL/NOAA, Boulder, CO. Ground Wave Theory Via Normal Modes - An Historical Perspective
J.R. Wait, ERL/NOAA, Boulder, CO.
Propagation Along Concave Surfaces
L.G, Felsen, Polytechnic Institute of New York, Farmingdaie, NY.
Speckle Interferometry for a Partially-Coherent Source
R. L. Fante, Rome Air Oevelopement Center, Hanscom AFB, MA.
Wigner-Distribution Matrix for a Stochastic Medium
H. Bremmer, Emeritus Professor, Technical University, Eindhoven, The Netherlands.
Waves in Random Media: Limiting Irradiance Distribution
D.A. de Wolf, RCA Laboratories, Princeton, NJ.
Forward Scatter Theory and Diffusion Theory for Waves in Random Media.
A. Ishimaru, University of Washington, Seattle, WA. Array Syntesis.
Chairman: M.T. Ma, National Bureau of Standards, Boulder, CO. Pattern Synthesis of Wullenweber Type Antenna with a Director
G. Sato and H. Kawakami, Sophia University, Tokyo, Japan and K. Hasegawa, Sony Tektronix Co. Ltd Tokyo, Japan.
On the Design of Travellng-Wave-Fed Longitudinal Shunt Slot Arrays
S. Elliott, University of California, Los Angeles, CA.
A Pattern Synthesis Method with Low Sidelobes over a Wide Frequency Range
K. Hidaka, Toshiba Research and Development Center, Kawasaki Japan.
Subarraying Feeds for Low Sidelobe Scanned Arrays
R. J. Mailloux, Rome Air Development Center, Bedford, MA.
Pattern Synthesis of Array Antenna Mounted on a Circular Conductor
T. Chiba and Y, Suzuki, Toshiba Corporation, Kawasaki, Japan.
Results of an Exact Dome Antenna Synthesis Procedure
L. Susman and H. Mieras, Sperry Research Center, Sudbury, MA.
A Synthesis of Circular Arrays by Taking Account of the Excitation Circuit
F. Watanabe and N. Goto, Tokyo Institute of Technology, Tokyo, Japan.
Taylor-Type Amplitude Distribution for Circular Arrays
V. Mangulls, RCA Laboratories, Priceton, NJ.
An Iterative Approach for Computing an Antenna Aperture Distribution from Given Radiation Pattern Data
R. J. Marhefka, E.L. Pelton and W.D. Burnside, The Ohio State University, Columbus, OH.
Arrays of Broadwal1 Shunt Slots In Rectangular Waveguides
B. Rulf, Raytheon Company, Bedford MA and A. Hessel, Polytechnic Institute of New York, Farmingdale, NY. Reflector antennas: analisis and synthesis.
Chairman: V. GalIndo-Israel, Jet Propulsion Laboratory, Pasadena, CA. Open Hast Scattering Investigation
С. E. Ryan, Jr., and E. E. Weaver, Georgia Institute of Technology, Atlanta, GA.
Feed Strut Scattering Analysis for Wide Angle Sidelobes
S. H. Lee, R. C. Rudduck, W. D. Burnslde and N. Wang, Ohio State University, Columbus, OH.
A Method for Pattern Calculation for Reflector Antennas Whose Geometry is Described by a Finite Number of Discrete Surface Points
P. K. Agrawal and W. F. Croswell, NASA Langley Research Center, Hampton, VA and J. F. Kauffman, North Carolina State University.
GTD Analysis of Reflector Antennas with General Rim Shapes
R. C. Rudduck, S. H. Lee and W. D. Burnslde, Ohio State University, Columbus, OH.
Effects of Secondary Diffractions in the Radiation Pattern of the Paraboloid
P. Brachat and P. F. Combes, Universite Paul Sabatier, FRANCE
Shapings of Dual-Reflector Antenna Systems
C. Donn, Martin Marietta Aerospace Co., Denver, CO.
Efficient Design of Offset Dual Shaped Reflectors for Antenna and Beam Waveguide Applications
A. G. Cha and V. Galindo-Israel, Jet Propulsion Lab, Pasadena, CA and R. Mittra, University of Illinois, Urbana IL
Subreflector and Main Reflector Shaping for Beam Tracking Offset Antennas
C. J. Sletten, Solar Energy Technology, Inc., Bedford, MA.
Tri-Reflector Antennas with No Cross-Polarized Component
T. Kitsuregawa, M. Mizusawa, M. Yamasaki and T. Katagi, Mitsubishi Electric Corp., Kamakura-city, JAPAN.
New Class of Horn Paraboloids
C. G. M. van ‘t Klooster, Physics Lab TNO, The Hague, The Netherlands, and V. J. Vokurka, Eindhoven University of Technology, Eindhoven, The Netherlands. Microstrip antenna (theoretical).
Chairman: L. Lewin, University of Colorado, Boulder, CO. A Modal Expansion Theory for the Mlcrostrlp Antenna
K. R. Carver, New Mexico State University, Las Cruces, NM.
An Analysis on Current Excitation of a Circular Resonant Microstrip Disk
R. S. Chu and S. S. Wang, Hughes Aircraft Company, Fullerton, CA.
Input Impedance of a Circular Microstrip Disk Antenna: Analytical Study and Comparison with Experiment
S. Yano and A. Ishimaru, University of Washington, Seattle, WA and J. Yee, The Boeing Aerospace Company, Seattle, WA.
An Improved Theory for Microstrip Antennas and Applications
W. F. Richards and Y, T. Lo, University of Illinois, Urbana, IL.
Design and Theory of Circularly Polarized Microstrip Antennas
W. F. Richards, Y. T. Lo and P. Simon, University of Illinois Urbana, IL. Microstrip antenna (experimental).
Chairman: R. E. Munson, Ball Brothers Research Corporation, Boulder, CO. Microstrip Antenna, Design Equations
K. Kalol, Pacific Missile Test Center, Point Mugu, CA.
Increasing the Beamwidth of a Microstrip Radiating Element
G. G. Sanford, Ball Aerospace Systems Division, Boulder, CO and L. Klein, Transportation Systems Center, Cambridge, MA.
A Dual Beam Low Sidelobe Microstrip Array
S. W. Bartley and D. A. Heubner, Hughes Aircraft Company, Canoga Park, CA.
Franklin-Type Microstrip Line Antenna
S. Nishimura, K. Nakano and T. Makimoto, Osaka University, JAPAN.
Theory of the Input Behavior of a Dielectric-Filled Edge-Slot Antenna
D. L. Sengupta and L. F. Martins-Camelo, University of Michigan Ann Arbor, MI.
Series-Fed, Dielectric-Filled, Edge-Slot Antennas
D. H. Schaubert and H. S. Jones, Jr., Harry Diamond Laboratories Adelphi, MD. Numerical techniques.
Chairman: Т. K. Liu, LuTech, Inc., Berkeley, СA. NEC - Numerical Electromagnetics Code for Antennas and Scattering
G. J. Burke and A. J. Poggio, Lawrence Livermore Lab, Livermore CA and J. C. Logan and J. W. Rockway, NOSC, San Diego, CA.
Triangular Patch Modeling of Arbitrary Bodies - An Electric Field Integral Equation Approach for Both Open and Closed Bodies
D. R. Wilton, S. S. M. Rao and A. W. Glisson, University of Mississippi, University, MS.
Scattering from Thin Plates and Finite Curved Surfaces
L. N. Medgyesi-Mitschang, McDonnell Douglas Research Labs, St. Louis, MO.
Surface-Patch Modeling of Scatterers of Arbitrary Shapes
J. J. H. Wang and C. Papanicolopulos, Georgia Institute of Technology, Atlanta, GA.
Junction Treatment for BOR-Wire Geometries
J. F. Shaeffer and L. N. Medgyesi-Mitschang, McDonnell Douglas Research Labs, St. Louis, NO.
A Unified Theory for Thin Wire Antennas of Arbitrary Length
D. C. Chang and L. Rispin, University of Colorado, Boulder, CO.
On the Solution to Pocklington's Equation for Antennas Printed on Grounded Substrates
N. G. Alexopoulos and I. E. Rana, University of California, Los Angeles, CA.
Investigation on New Green's Functions for Numerical Solution of Field Problems
L. Shafai and K. A. Iskander, University of Manitoba, Winnipeg Canada.
Asymptotical Expansions for Rapidly Varying Integrands
J. R. Mosig, Ecole Polytechnique Federale, Lausanne, Switzerland.
A Diffraction Coefficient for а Суlindricallу Truncated Planar Surface
C. D. Chuang and W. D. Burnside. Ohio State University, Columbus, OH. Adaptive techniques and synthetic aperture radar.
Chairman: W. R. Stone, Megatek Corp., San Diego, CA. Element Placement for Adaptive Satellite Antenna Arrays
M. L. Burrows, M.I.T. Lincoln Laboratory, Lexington, HA.
A Technique for Measuring the Bandwidth Characteristics of Adaptive Nulling Antennas
J. T. Mayhan, M.l.T. Lincoln Laboratory, Lexington, MA.
Phase-Only Adaptive Nulling with Discrete Values
E. Mendelovicz, E. T. Oestreich, Hughes Aircraft Co., Canoga Park, CA.
A Retrodirective System Utilizing on Interferometer Receive Array
J. A. Kaiser, Jr., Goddard Space Flight Center, Greenbelt, MD.
Maximum Entropy Spacial Resolution Adaptive Array
W. F. Gabriel, Naval Research Laboratory, Washington, D.C.
Some Examples of How Wave Polarization and Surface Discontinuities Influence Microwave Holographic Imaging
G. Tricoles, E. L. Rope, and R. A. Hayward, General Dynamics Electronics Division, San Diego, CA.
Synthetic Aperture Radar with Elevation-Plane Scanned Antenna Beam for Wide Swath Coverage
K. Tomiyasu, General Electric Company, Philadelphia, PA.
First Experimental Results from the Valley Forge Radio Camera Program
B. D. Steinberg, University of Pennsylvania, Philadelphia, PA.
An Experimental Nonlinear Adaptive Array
M. Pelletier, G. Y. Delisle, and J.A. Cummins, Laval University Quebec, Canada.
An Experimental Demonstration of Pulse Compression Antennas
P. J. Steinbach, American Electronic Laboratories, Inc., Lansdale, PA and P. Van Etten, RADC, Griffiss AFB, NY. Inverse problems.
Chairman: W. M. Boerner, University of Illinois at Chigago Circle, Chicago, IL. A Review of the One Dimensional Inverse Scattering Problem for Stratified Inhomogenous Media
I. W. Kay, Institute for Defense Analyses, Arlington, VA.
Inverse Problems in Optics
H. P. Baltes, L. G. Z, Landis and Gyr, Zug, Switzerland and B. J. Hoenders, State University at Groningen, Groningen, The Netherlands.
Inverse Problem with Causality Between Sources and Field
H. G. Schmidt-Weinmar, The University of Alberta, Ednonton Canada.
The Inverse Problem in Light Scattering
G. Ross, Queen Elizabeth College, London, United Kingdom M. A. Fiddy, U.C.L., London, United Kindom, H. Moszzi, Queen E1izabeth College, London, United Kingdom and M. Nieto-Vesperinas, C.S.I.C., Madrid, Spain.
The Application of the Bojarski Exact Inverse Scattering Theory to the Remote Proboing of Inhomogeneous Media
W. R. Stone, Megatek Corporation, San Diego, CA.
Development of Physical Optics Far Field Inverse Scattering (POFFIS) and its Limitations
W. M. Boerner, University of Manitoba, Winnipeg, Canada and C. M. Ho, U.I.C.C., Chicago, IL.
A Chronological History of Radar Target Imagery at the Ohio State University
D.I. Moffatt, The Ohio State University ElectroScience Laboratory, Columbus, OH.
n-Dimensional Fast Foureir Transform Tomography for Incomplete Information and its Application to Electromagnetic Inverse Problems
N. Bojarski, Newport Beach, CA.
Time Domain Inverse Scattering - Rotationally Symmetric Conducting Targets with Oblique Incidence
C. L. Bennett and H. Mieras, Sperry Research Center Sudbury, MA.
Refractive Index Profile and Target Reconstruction; a Time and Spectral Domain Integral Equation Approach
J. Ch. Bolomey, D. Lesselier, CH. Pichot, W. Tabbara, C.N.R.S -E.S.E. Gif-sur-Yvette, France. Reflector antennas and feeds.
Chairman: W. V. T. Rusch, University of Southern California, Los Angeles, CA. A Parabolic-Cylinder Antenna with Very Low Sidelobes
R. L. Fante, P. R. Franchi, N. R. Kernweis and L. F. Dennett, Deputy for Electronic Technology RADC, Hanscom AFB, MA.
Gregorian Corrected Offset-Fed Reflector with Conical-Scan Capability
D.C. Chang and V. W. T. Rush, University of Southern California, Los Angeles CA and F.A.Young, Hughes Aircraft Co., El Segundo CA.
Beam Scanning Characteristics of Offset Gregorian Antennas
M. Akagawa and D. F. DiFonzo, COMSAT Labs, Clarksburg, MD.
Multibeam Satellite Antennas with Optimized Polarization Distribution and Full U.S. Coverage
E.A. Ohm, Bell Labs, Holmdel, NJ.
Feed Array Complexity vs. Area Coverage Gain of Optical Aperture Antennas
H. S. Luh, Ford Aerospace and Communications Corp., Palo Alto, CA.
Low Sldelobe Transverse Feed Technique
J. J. Stangel, J. C. Herper and J. V. D'Agostino, Sperry Rand Corp., Great Neck, NY.
Corrected Off-Axis Beams for Parabloic Reflectors
С. C. Hung and G. G. Chadwick, Lockheed Missiles and Space Co., Sunnyvale, CA.
A Dual-Mode Circulary Polarized Feed System Using a Small Square Corrugated Horn
C. Donn, D. Newell and S. Kootstra, Martin Marietta Aerospace Co., Denver, CO.
A Coaxial Dual Mode Feed System
R. Schwerdtfeger, Huber and Suhner AG, Herisau, Switzerland.
The New Multimode Horn Composed of a Currugated Guide and a Smooth-Walled Guide with Changing Flare-Angles
Zhang Ri-rong and Li Feng-zhi , Communication Engineering Institute, Beijing, China. Guided waves.
Chairman: G. L. Yip, McGill University, Montreal, Quebec. Full Wave Solution of a Point Source Inside a Lossy Optical Fiber
M. Fischer, K. D. Becker, Universitat des Saarlandes, Saarbrucken, FRG.
Scattering from an Off-Axis Inhomogeneity in Step-Index Optical Fibers-Mode Conversion
A. Safaai-Jazi and G. L. Yip, McGill University, Montreal, Quebec.
An Exact Solution for the TM Mode In an Eckart-Epstein Type Optical Strip Guide
C. A. van Duin and F. W. Sluijter, Eindhoven University of Technology, Eindhoven, The Netherlands.
To Theory Single-Mode Multilayer Ring Fiberguides with Losses
V. V. Cherny, University of California, Berkeley, Berkeley, CA G. A. Juravlev, A. I. Kirpa, I. L. Rylov, V. P. Tjoy, All-Union Correspondence Engineering Institute, Moscow, USSR.
Electromagnetic Propagation Along a Wire in a Tunnel- Approximate Analysis
R. J. Pogorzelski, TRW Defense and Space Systems, Redondo Beach, CA. Atmospheric propagation.
Chairman: G. L. Yip, McGill University, Montreal, Quebec. A Computer Simulation of Propagation Through a Tenuous Random Medium
M. R. Inggs, R. F. Technology Centre, Letherhead, United Kingdom, R. H. Clarke. Imperial College, London, United Kingdom.
Optical Beam Propagation of a Partially Coherent Source in the Turbulent Atmosphere
S. С. H. Wang, C. F. Ouyang, and M. A. Plonus, Northwestern University, Evanston, IL.
A Method for Predicting Сrosspolarization Discrimination Statistics for Spatially Non-Uniform Rain
J. D. Kanellopoulos, Imperial College of Science and Technology London, United Kingdom. Lens and horn antennas.
Chairman: A. Hessel, Polytechnic Institute of New York, Farmingdale, NY. A New Bootlace Lens for Limited Scan Antennas
J. C. Herper, J. J. Stangel and P. A. Valentino, Sperry Rand Corporation, Sperry Gyroscope, Great Neck, NY.
Multifocal Three Dimensional Bootlace Lenses
J. B. L. Rao, Naval Research Laboratory, Washington, D.C.
Study of Mutual Coupling in Waveguide Lens Antennas
L. Grun and S. W. Lee, University of Illinois at Urbana-Champaign, Urbana, IL
Design Studies of Wide Angle Array Fed Lens
D. T. Thomas, Raytheon Company, Goleta, CA.
Hardware Demonstration of a 2-DimenslonaI Wide Angle Array Fed Lens
D. T. Thomas and S. D. Bixler, Raytheon Company, Goleta, CA
Low-Sidelobe, Shaped-Beam Scalar Horns
W. A. Schneider, T. L. Blakney, V. J. Zanella, Boeing Aerospace Company, Seattle, WA.
Diagonal Horn Antenna for Amplitude Comparison DF Systems
R. P. Flam and S. J. Foti, American Electronic Laboratories, Inc, Lansdale, PA.
Design of Arrays of Oversized Aperture, Tapered Waveguide Horn Elements
N. Amitay and M. J. Gans, Bell Laboratories, Holmdel, NJ.
Computation of Scattering and Radiation from Open-Ended Wave-guides and Small Horns
A. Frandsen, Electromagnetics Institute Technical University of Denmark.
Effect of Dielectric Loading on a Surface Wave Horn Antenna
N. K. Agrawal and D. Guha, University of Roorkee, India. Microstrip antennas (theoretical).
Chairman: Y. T. Lo, University of Illinois, Urbana, IL. Analysis of the Properties of Microstrip Antennas Using Strips Embedded in a Grounded Dielectric Slab
M. C. Bailey, NASA Langley Research Center, Hampton, VA.
Input and Mutual Impedance Computation for Microstrip Dipole Antennas
N. K. Uzunoglu, J. G. Fikioris, National Technical University of Athens, Athens, Greece and N. G. Alexopoulos, University of California, Los Angeles, CA.
The Near Field of an Open Microstrip Structure
J. R. Mosig and F. E. Gardiol, Ecole Polytechnlque Federale, Lausanne, Switzerland.
Microstrip Spiral Antennas
A. Van de Capelle, J. De Bruyne, M. Verstraete, H. Pues and J. Vandensande, Katholieke Universiteit Leuven, Leuven-Heverlse, Belgium.
A Theoretical Investigation of the Two-Wire Round Spiral Antenna - Archimedian Type
H. Nakano and J. Yamauchi, Hosei University, Tokyo, Japan.