Recently most of the singularities of the equivalent edge currents for flat plates were eliminated by the authors using the paths of most rapid phase variation. A unique direction on the plate was determined for given incidence and observer. This paper extends this method for arbitrary angle wedges and presents the new expressions of the equivalent edge currents. The resultant expressions are valid for any incidence and observation aspects and have no false singularities. Diffraction patterns and radar cross sections of 3-D objects composed of wedges are calculated by using these currents. They show good agreements with experimental data or the results by the other methods.
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Keiichi NATSUHARA, Tsutomu MURASAKI, Makoto ANDO, "Equivalent Edge Currents for Arbitrary Angle Wedges Using Paths of Most Rapid Phase Variation" in IEICE TRANSACTIONS on Electronics,
vol. E75-C, no. 9, pp. 1080-1087, September 1992, doi: .
Abstract: Recently most of the singularities of the equivalent edge currents for flat plates were eliminated by the authors using the paths of most rapid phase variation. A unique direction on the plate was determined for given incidence and observer. This paper extends this method for arbitrary angle wedges and presents the new expressions of the equivalent edge currents. The resultant expressions are valid for any incidence and observation aspects and have no false singularities. Diffraction patterns and radar cross sections of 3-D objects composed of wedges are calculated by using these currents. They show good agreements with experimental data or the results by the other methods.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e75-c_9_1080/_p
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@ARTICLE{e75-c_9_1080,
author={Keiichi NATSUHARA, Tsutomu MURASAKI, Makoto ANDO, },
journal={IEICE TRANSACTIONS on Electronics},
title={Equivalent Edge Currents for Arbitrary Angle Wedges Using Paths of Most Rapid Phase Variation},
year={1992},
volume={E75-C},
number={9},
pages={1080-1087},
abstract={Recently most of the singularities of the equivalent edge currents for flat plates were eliminated by the authors using the paths of most rapid phase variation. A unique direction on the plate was determined for given incidence and observer. This paper extends this method for arbitrary angle wedges and presents the new expressions of the equivalent edge currents. The resultant expressions are valid for any incidence and observation aspects and have no false singularities. Diffraction patterns and radar cross sections of 3-D objects composed of wedges are calculated by using these currents. They show good agreements with experimental data or the results by the other methods.},
keywords={},
doi={},
ISSN={},
month={September},}
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TY - JOUR
TI - Equivalent Edge Currents for Arbitrary Angle Wedges Using Paths of Most Rapid Phase Variation
T2 - IEICE TRANSACTIONS on Electronics
SP - 1080
EP - 1087
AU - Keiichi NATSUHARA
AU - Tsutomu MURASAKI
AU - Makoto ANDO
PY - 1992
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E75-C
IS - 9
JA - IEICE TRANSACTIONS on Electronics
Y1 - September 1992
AB - Recently most of the singularities of the equivalent edge currents for flat plates were eliminated by the authors using the paths of most rapid phase variation. A unique direction on the plate was determined for given incidence and observer. This paper extends this method for arbitrary angle wedges and presents the new expressions of the equivalent edge currents. The resultant expressions are valid for any incidence and observation aspects and have no false singularities. Diffraction patterns and radar cross sections of 3-D objects composed of wedges are calculated by using these currents. They show good agreements with experimental data or the results by the other methods.
ER -