FDTD Method for the Analysis of the EM Field from a Moving Source

被引:0
|
作者
Sahrani, Shafrida [1 ]
Akata, Tatsuya [2 ]
Kuroda, Michiko [3 ]
机构
[1] Univ Malaysia Sarawak, Fac Engn, Kota Samarahan, Malaysia
[2] Tokyo Univ Technol, Grad Sch Bion Comp & Media Sci, Tokyo, Japan
[3] Tokyo Univ Technol, Sch Comp Sci, Tokyo, Japan
来源
2013 ASIA-PACIFIC MICROWAVE CONFERENCE PROCEEDINGS (APMC 2013) | 2013年
关键词
FDTD method; Lorentz transformation; moving boundary problems; moving source; Overset Grid Generation method; ELECTROMAGNETIC-FIELD; SCATTERING; BOUNDARY;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A numerical technique for the analysis of the EM field by a moving source or a moving body can be significantly important for the realization of new optical/nanotechnology devices. We have previously proposed the Overset Grid Generation method coupled with FDTD method for the analysis of the EM field with moving boundaries considering Doppler Effect. By overlapping one moving sub-mesh on a static main mesh, each mesh is calculated alternately by using interpolation technique. For higher velocity value, Lorentz transformation is applied to the FDTD method. In this paper, this technique is proposed for solving the EM field when the input source is moving. As a bench mark, the received wave at the observation point is calculated when the source moves for x-direction in free space intersect at right angle by the dielectric object. The numerical results are compared with the stationary case and the moving case.
引用
收藏
页码:288 / 290
页数:3
相关论文
共 50 条
  • [31] Doppler shift analysis of moving antennas above the road surface by using FDTD method
    Arima, Takuji
    Ariyama, Naoki
    Yamaguchi, Ryo
    Tomimoto, Kazuma
    Uno, Toru
    2022 INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION (ISAP), 2022, : 287 - 288
  • [32] SOUND FIELD OF A MOVING SOURCE
    KRASILNIKOV, VA
    PAVLOV, VI
    IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENII RADIOFIZIKA, 1981, 24 (05): : 609 - 620
  • [33] Nonorthogonal LOD-FDTD Method for EM Scattering from Two-Dimensional Structures
    Rana, Md. Masud
    Mohan, Ananda Sanagavarapu
    IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, 2013, 55 (04) : 764 - 772
  • [34] Analysis of electromagnetic field of nerve impulses in brain using FDTD method
    Sasaki, K
    Homma, N
    Sakai, M
    Abe, K
    SICE 2003 ANNUAL CONFERENCE, VOLS 1-3, 2003, : 502 - 507
  • [35] Near Field Analysis of an Aircraft on the Layered Half Space by FDTD Method
    He XinBo
    Wei Bing
    Wang Fei
    2016 IEEE INTERNATIONAL CONFERENCE ON COMPUTATIONAL ELECTROMAGNETICS (ICCEM), 2016, : 114 - 116
  • [36] Analysis of light field of waveguide grating couplers using the FDTD method
    Liu, J
    Yuan, XH
    Huang, CQ
    Peng, SY
    Huang, DX
    OPTICAL DESIGN AND TESTING, 2002, 4927 : 245 - 248
  • [37] AN EXTENDED FDTD METHOD FOR THE ANALYSIS OF ELECTROMAGNETIC FIELD ROTATIONS AND CLOAKING DEVICES
    Silva-Macedo, J. A.
    Romero, M. A.
    Borges, B. -H. V.
    PROGRESS IN ELECTROMAGNETICS RESEARCH-PIER, 2008, 87 : 183 - 196
  • [38] The Research of Excitation Source in FDTD Method for Waveguide
    Gu, Xiaoliang
    Jin, Xiaolin
    Li, Bin
    2018 IEEE INTERNATIONAL VACUUM ELECTRONICS CONFERENCE (IVEC), 2018, : 67 - 68
  • [39] Relativistic FDTD Analysis of Far-Field Scattering of a High-Speed Moving Object
    Kuang, Lei
    Xu, Feng
    Zhu, Shouzheng
    Gao, Jianjun
    Zheng, Zhengqi
    IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS, 2015, 14 : 879 - 882
  • [40] FDTD Method for the Analysis of Moving Boundary Problems -Over Set Grid Generation Method and Body Fitted Grid Generation Method with Moving Boundaries-
    Kuorda, Michiko
    2017 INTERNATIONAL CONFERENCE ON ELECTROMAGNETICS IN ADVANCED APPLICATIONS (ICEAA), 2017, : 545 - 548
12345