文件名称:fdtd-scatter-of-sphere
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The Finite-Difference Time-Domain Method for Electromagnetics with MATLAB Simulations对应的代码,经过我的修改更加功能化。里面包含粗糙面生成代码是正确的,粗糙面RCS计算代码是错误的。-The Finite-Difference Time-Domain Method for Electromagnetics with MATLAB Simulations corresponding code, after I modified more functional. Rough surface which contains the generated code is correct, the rough surface of the RCS computing code is wrong.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
original
........\calculate_and_display_farfields.m
........\calculate_domain_size.m
........\calculate_farfields_per_plane.m
........\calculate_frequency_domain_outputs.m
........\calculate_incident_plane_wave_power.m
........\calculate_JandM.m
........\calculate_material_component_values.m
........\calculate_radiated_power.m
........\capture_sampled_currents.m
........\capture_sampled_electric_fields.m
........\capture_sampled_magnetic_fields.m
........\capture_sampled_voltages.m
........\constants_and_empty_arrays.m
........\create_bricks.m
........\create_PEC_plates.m
........\create_rough_surface.m
........\create_spheres.m
........\define_geometry.m
........\define_output_parameters.m
........\define_problem_space_parameters.m
........\define_sources_and_lumped_elements.m
........\display_3D_geometry.m
........\display_animation.m
........\display_frequency_domain_outputs.m
........\display_incident_electric_field.m
........\display_incident_frequency_domain.m
........\display_incident_plane_wave.m
........\display_material_mesh.m
........\display_material_mesh_gui.m
........\display_objects_mesh_in_animation.m
........\display_problem_space.m
........\display_RCS_xy.m
........\display_RCS_xz.m
........\display_RCS_yz.m
........\display_sampled_parameters.m
........\display_scattered_electric_field.m
........\display_total_electric_field.m
........\display_transient_parameters.m
........\fdtd_display.m
........\fdtd_solve.m
........\initialize_animation_parameters.m
........\initialize_boundary_conditions.m
........\initialize_capacitor_updating_coefficients.m
........\initialize_CPML_ABC.m
........\initialize_current_source_updating_coefficients.m
........\initialize_diode_updating_coefficients.m
........\initialize_display_parameters.m
........\initialize_farfield_arrays.m
........\initialize_fdtd_material_grid.m
........\initialize_fdtd_parameters_and_arrays.m
........\initialize_incident_field_updating_coefficients.m
........\initialize_inductor_updating_coefficients.m
........\initialize_output_parameters.m
........\initialize_resistor_updating_coefficients.m
........\initialize_sources_and_lumped_elements.m
........\initialize_updating_coefficients.m
........\initialize_voltage_source_updating_coefficients.m
........\initialize_waveforms.m
........\object_drawing_functions.m
........\plot_e0_xy.m
........\plot_e0_yz.m
........\plot_e0_zx.m
........\plot_ei_xy.m
........\plot_ei_yz.m
........\plot_ei_zx.m
........\plot_e_xy.m
........\plot_e_yz.m
........\plot_e_zx.m
........\plot_fields.m
........\plot_h_xy.m
........\plot_h_yz.m
........\plot_h_zx.m
........\polar_plot_constant_phi.m
........\polar_plot_constant_theta.m
........\post_process_and_display_results.m
........\rsgeng2D.m
........\run_fdtd_time_marching_loop.m
........\set_color_axis_scaling.m
........\time_to_frequency_domain.m
........\update_current_sources.m
........\update_diodes.m
........\update_electric_fields.m
........\update_electric_field_CPML_ABC.m
........\update_impressed_J.m
........\update_impressed_M.m
........\update_incident_fields.m
........\update_inductors.m
........\update_magnetic_fields.m
........\update_magnetic_field_CPML_ABC.m
........\update_voltage_sources.m