Ulrich Jakobus


Ulrich Jakobus is Senior Vice President - Electromagnetic Solutions of Altair, Germany and was awarded Fellow of the Institute of Electrical and Electronics Engineers in 2013 for leadership in hybrid computational tool development and commercialization. His research laid the foundations for the commercial electromagnetics code FEKO which is used in antenna design, antenna placement, electromagnetic compatibility, microwave components, bioelectromagnetics, radar cross section and related fields.

Education and career

Jakobus was born in 1967 in Kirchheim unter Teck, Germany to Manfred Jakobus and Ingrid Jakobus. He studied at the University of Stuttgart and received a Diploma in Electrical Engineering in 1991 and a PhD in Electrical Engineering in 1994. He was appointed to the position of Professor in 1997.
From 1991 to 2000 he was employed by the Institut für Hochfrequenztechnik at the University of Stuttgart where he became a lecturer in Radio Frequency Technology. His research included numerical techniques in electromagnetics, antennas, electromagnetic compatibility, and bioelectromagnetics. His research laid the foundations for the commercial electromagnetics code FEKO. This software code can be used as a means of performing numerical experiments to answer various “what if” questions that usually arise during electromagnetic design tasks.
In 2000 he became director of EM Software and Systems-S.A. Ltd. in Stellenbosch, South Africa and product manager for FEKO with focus on development of FEKO.
In 2002 he founded EM Software and Systems GmbH in Böblingen, Germany and has been its director since then. In 2014 Altair acquired EM Software and Systems-S.A. and Jakobus became Vice President of Electromagnetic Solutions at Altair.
In January 2018 he was appointed Senior Vice President - Electromagnetic Solutions at Altair.

Memberships, associations, awards

Jakobus is a member of the following:
Jakobus has received several awards, including the following:
Jakobus has published papers on:
computational electromagnetics, finite element analysis, application program interfaces, approximation theory, electromagnetic shielding, electromagnetic wave scattering, finite difference time-domain analysis, geometrical optics, message passing, method of moments, ray tracing, telecommunication network planning, Green's function methods, aircraft antennas, anisotropic media, antenna arrays, antenna radiation patterns, antenna theory, convergence, dielectric bodies, electromagnetic fields, electromagnetic launchers, frequency selective surfaces, graphics processing units, and interference.
Selected publications: