BEGIN:VCALENDAR VERSION:2.0 PRODID:IEEE vTools.Events//EN CALSCALE:GREGORIAN BEGIN:VTIMEZONE TZID:Asia/Kolkata BEGIN:STANDARD DTSTART:19451014T230000 TZOFFSETFROM:+0630 TZOFFSETTO:+0530 TZNAME:IST END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20200721T060746Z UID:D617B5A3-920C-48E9-811F-4022920E4958 DTSTART;TZID=Asia/Kolkata:20200114T100000 DTEND;TZID=Asia/Kolkata:20200114T170000 DESCRIPTION:Method of Moments (MoM) is a widely used computational techniqu e for solving a wide array of electromagnetic problems involving RF and mi crowave circuits\, antennas\, scattering\, electrical analysis of chip-pac kage-board systems\, EMI/EMC\, bio-medical microwave imaging etc. This tal k will use illustrative examples to briefly cover important concepts in Me thod of Moments and their use in solving real-world problems.\n\nSpecific topics may briefly include:\n\n- Need for Computational Electromagnetics\n \n- Introduction to Method of Moments\, comparison against Finite Element Method (FEM) and Finite Difference Time Domain (FDTD) method\n\n- Basis fu nction and testing function\n\n- 3D electrostatic formulation\, charge den sity computation\, capacitance extraction\n\n- 3D full-wave formulation\, S-parameters extraction\, current density computation\, RCS evaluation\n\n - Electric Field Integral Equation (EFIE)\, RWG Basis function\n\n- Dielec tric handling using MoM – volume integral equation (SWG basis function) and surface integral equation (PMCHWT)\n\n- Magnetic Field Integral Equati on (MFIE)\, Combined Field Integral Equation (CFIE)\n\n- Demonstrative exa mples and practical applications – package-board extraction\, antenna an alysis\, EMI/EMC problems\, microwave imaging and breast cancer detection\ , etc.\n\n- Advanced topics – fast electromagnetic solvers\, large scale computation using Fast Multipole Method\, low-frequency breakdown in elec tromagnetics\n\n- Translating technology out of academia – commercial so lver development\, an industry perspective\n\nCo-sponsored by: ETCE Dept.\ , Jadavpur University\n\nSpeaker(s): Dr. Arkaprovo Das\, \n\nRoom: Seminar Room\, Bldg: Prayukti Bhavan\, Dept. of ETCE\, Jadavpur University\, 188 Raja S. C. Mallick Road\, Kolkata\, West Bengal\, India\, 700032 LOCATION:Room: Seminar Room\, Bldg: Prayukti Bhavan\, Dept. of ETCE\, Jadav pur University\, 188 Raja S. C. Mallick Road\, Kolkata\, West Bengal\, Ind ia\, 700032 ORGANIZER:jumtts.sbc2019@gmail.com SEQUENCE:4 SUMMARY:Method of Moments in Electromagnetics: Concepts and Practical Real- World Applications URL;VALUE=URI:https://events.vtools.ieee.org/m/217750 X-ALT-DESC:Description: <br /><p style="font-weight: 400\;">Method of Momen ts (MoM) is a widely used computational technique for solving a wide array of electromagnetic&nbsp\;&nbsp\; problems&nbsp\;&nbsp\; involving&nbsp\;& nbsp\; RF&nbsp\;&nbsp\; and&nbsp\;&nbsp\; microwave circuits\, antennas\, scattering\, electrical analysis of chip-package-board systems\, EMI/EMC\, bio-medical microwave imaging etc. This talk will use illustrative exampl es to briefly cover important concepts in Method of Moments and their use in solving real-world problems.</p>\n<p style="font-weight: 400\;">Specifi c topics may briefly include:</p>\n<p style="font-weight: 400\;">-&nbsp\;& nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;Need for Computational Electromagnetics< /p>\n<p style="font-weight: 400\;">-&nbsp\; &nbsp\; &nbsp\;&nbsp\;Introduc tion to Method of Moments\, comparison against Finite Element Method (FEM) and Finite Difference Time Domain (FDTD) method</p>\n<p style="font-weigh t: 400\;">-&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;&nbsp\;Basis function and te sting function</p>\n<p style="font-weight: 400\;">-&nbsp\; &nbsp\; &nbsp\; 3D electrostatic formulation\, charge density computation\, capacitance e xtraction</p>\n<p style="font-weight: 400\;">-&nbsp\; &nbsp\; &nbsp\; 3D f ull-wave formulation\, S-parameters extraction\, current density computati on\, RCS evaluation</p>\n<p style="font-weight: 400\;">-&nbsp\; &nbsp\; &n bsp\; Electric Field Integral Equation (EFIE)\, RWG Basis function</p>\n<p style="font-weight: 400\;">-&nbsp\; &nbsp\; &nbsp\; Dielectric handling u sing MoM &ndash\; volume integral equation (SWG basis function) and surfac e integral equation (PMCHWT)</p>\n<p style="font-weight: 400\;">-&nbsp\; & nbsp\; &nbsp\; Magnetic Field Integral Equation (MFIE)\, Combined Field In tegral Equation (CFIE)</p>\n<p style="font-weight: 400\;">-&nbsp\; &nbsp\; &nbsp\; Demonstrative examples and practical applications &ndash\; packag e-board extraction\, antenna analysis\, EMI/EMC problems\, microwave imagi ng and breast cancer detection\, etc.</p>\n<p style="font-weight: 400\;">- &nbsp\; &nbsp\; &nbsp\;&nbsp\;Advanced topics &ndash\; fast electromagneti c solvers\, large scale computation using Fast Multipole Method\, low-freq uency breakdown in electromagnetics</p>\n<p style="font-weight: 400\;">-&n bsp\; &nbsp\; &nbsp\; Translating technology out of academia &ndash\; comm ercial solver development\, an industry perspective</p> END:VEVENT END:VCALENDAR