Millimeter wave E-plane filter for supporting vector machine to model for diaphragm and diaphragm modeling method
A technology of support vector machine and modeling method, which is applied in the field of millimeter wave E-plane filter and diaphragm modeling for diaphragm modeling by support vector machine, which can solve the problem of slow modeling speed, improve the design speed and improve efficiency. Accuracy, avoiding the reuse of electromagnetic calculations, avoiding the effects of complex methods
Inactive Publication Date: 2013-12-25
XIDIAN UNIV
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Although the numerical analysis methods used in the past have high precision, the modeling speed is slow
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[0035] Such as figure 1 , figure 2 As shown, the millimeter-wave E-plane filter modeled by the support vector machine to the diaphragm is characterized in that it at least includes: a rectangular waveguide 1, two or more metal diaphragms 2, and a right E-plane cavity in the middle of the rectangular waveguide 1 ; The E plane cavity is parallel to the length direction of the rectangular waveguide, which contains a metal diaphragm 2; the metal diaphragm 2 is located in the center of the E plane of the vertical rectangular waveguide, and is parallel to the E plane, and the adjacent metal diaphragms 2 are distributed at different intervals. The metal diaphragm is adjacent to a straight line along the length direction of the rectangular waveguide, and the diaphragm surface is perpendicular to the straight line along the length direction of the rectangular waveguide.
[0036] The metal diaphragms 2 play a coupling role, and a resonant cavity is formed between adjacent diaphragms. ...
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The invention relates to a design method of a millimeter wave E-plane filter and in particular relates to a millimeter wave E-plane filter for supporting a vector machine to model for a diaphragm and a diaphragm modeling method. The millimeter wave E-plane filter for supporting the vector machine to model for the diaphragm is characterized by at least comprising a rectangular waveguide (1), two or more metal diaphragms (2) and an E-plane cavity in the right middle of the rectangular waveguide (1), wherein the E-plane cavity is parallel to a length direction of the rectangular waveguide and comprises the metal diaphragms (2); the metal diaphragms (2) are located in the center of a vertical rectangular waveguide E-plane and are parallel to the E-plane; adjacent metal diaphragms (2) are distributed at unequal intervals; the adjacent metal diaphragms are arranged along a straight line of the length direction of the rectangular waveguide; the surfaces of the diaphragms are vertical to the straight line of the length direction of the rectangular waveguide. Through the millimeter wave E-plane filter for supporting the vector machine for modeling the diaphragm, the design speed and precision of the filter are greatly improved, and a complex method for using electromagnetic calculation repeatedly is avoided.
Description
technical field [0001] The invention relates to a design method of a millimeter-wave E-plane filter, in particular to a millimeter-wave E-plane filter and a membrane modeling method in which a support vector machine models a diaphragm. Background technique [0002] In the design of the millimeter-wave E-plane filter, the modeling and analysis of the E-plane mask is a key link. Although the numerical analysis methods used in the past have high precision, the modeling speed is slow. Contents of the invention [0003] The purpose of the present invention is to provide a millimeter-wave E-plane filter and a membrane modeling method for membrane modeling by a support vector machine with high modeling precision and fast modeling speed, so as to greatly improve the design speed of the filter. [0004] The object of the present invention is achieved in this way, the support vector machine is characterized in that the millimeter-wave E-plane filter of diaphragm modeling, at least ...
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IPC IPC(8): H01P11/00H01P1/208G06F17/50
Inventor 孙璐詹劲松文枫王家礼
Owner XIDIAN UNIV