Universitätsprofessor Dr.-Ing. habil. Stefan Lindenmeier

 

Universitätsprofessor Dr.-Ing. habil. Stefan Lindenmeier

 

Stefan Lindenmeier was born 1967 in Munich, Germany and finished his diploma studies in electrical engineering at the Technical University of Munich in 1994. After his work as research engineer at the Ferdinand Braun Institut für Höchstfrequenztechnik he obtained the Ph.D.-degree in 1996. In 2000 he received the Venia Legendi in High Frequency Technology  at the Technical University of Munich where he was assistant professor. In 2000 he joined the DaimlerChrysler Research and Technology Centre in Ulm, Germany, where he became leader of the research group for antennas and RF-sensors. Since 2004 he is full professor and leader of the institute of high frequency technology and mobile communication at the University of the Bundeswehr in Munich. Between 2004 and 2008 he was IEEE chapter coordinator of the MTT-Society for Region8 and IEEE Region chapter coordinator for Antennas and Propagation and Broadcast Technology and Microwave Theory and Techniques. From 2010 to 2012 he was dean of the Faculty of Electronic Engineering and from 2012 to 2014 he has been member of the University Senate. He is member of various expert committees in ITG, URSI, and others. His research topics are antenna technology, mobile communication and reception systems, microwave systems, radar and radio location technology, electromagnetic field modelling and electromagnetic compatibility. He is author of more than 150 scientific publications in these fields of research.

 

eMail: stefan.lindenmeier@unibw.de

Tel.: +49 (0)89 6004 - 3892

Raum 1357, Gebäude 35
 

 


 

Scientific Publications

  1. S. Lindenmeier, S. Senega: “Satellite Antennas“, Chapter to be published in "Handbook on Antennas" Springer Verlag
  2. "A High Efficient Automotive Roof-Antenna Concept for LTE, DAB-L, GNSS and SDARS with Low Mutual Coupling", I.Goncharova, S. Lindenmeier, EuCAP 2015, Lissabon.
  3. "An interoperable antenna for GPS and GLONASS services on a car", I.Goncharova, S. Lindenmeier, APS/USRI 2015, Vancouver, accepted for publication.
  4. A. Boege, L. Reiter, and S. Lindenmeier, “High-impedance amplifier enabling an easy implementable interface for a diversity system of window-printed antennas“, in Symposium on Antennas and Propagation AP-S 2015, Vancouver, Canada, Juli 19–25, 2015.
  5. Bueno Diez, M. A.; Lindenmeier, S., “A Highly Efficient Car2Car-Multiband Rooftop Automotive Antenna“, Antennas and Propagation Society International Symposium (APSURSI) Vancouver, 2015 IEEE, 19-25 July 2015.
  6. M. Spägele, S. Buntz, H. Leier, L. Reiter, S. Lindenmeier: “EMV-Analyse eines Ethernet-Systems im automobilen Umfeld“, Baden-Baden Spezial Ethernet, Baden-Baden, Deutschland, September 2014
  7. L. Reiter, A. Boege, and S. Lindenmeier, “A new low-cost active rod antenna for automotive reception of all terrestrial audio broadcast services“, in European Conference on Antennas and Propagation EuCAP 2014, the Hague, Netherlands, April 6–11, 2014, pp. 2981–2984.
  8. S. Senega, J. Kammerer, and S. Lindenmeier. “Scan-Phase Antenna Diversity for Digital Satellite Radio (SDARS) in a Single Automotive Side Mirror“. In: 2014 8th European Conference on Antennas and Propagation (EuCAP). 2014, pp. 3255–3259.
  9. I. Goncharova and S. Lindenmeier, “A high-efficient 3-D Nefer-antenna for LTE communication on a car“, The 8th European Conference on Antennas and Propagation (EuCAP 2014), 2014 IEEE.
  10. M. Spägele, S. Buntz, H. Leier, L. Reiter, S. Lindenmeier: “Asymmetrien eines Ethernet-  Systems und deren Auswirkungen auf die Störaussendung im automobilen Umfeld“, EMV  Symposium Düsseldorf, VDE-Verlag, pp. 212-222, Düsseldorf, Deutschland, März 2014
  11. M. Spägele, S. Buntz, L. Reiter, S. Lindenmeier: “Messtechnische Ermittlung der HF-Parameter und erweiterte, diskrete Modellbildung von Ethernet-Gleichtaktdrosseln“,   Automotive meets electronics, GMM Fachbericht, pp. 78-83, Dortmund, Deutschland, Februar 2014
  12. S. Senega, L. Reiter, and S. Lindenmeier. “Dual-Band Scan-Phase Diversity System for American and European SDARS“. In: Antennas and Propagation Society International Symposium, 2013 (APSURSI). 2013, pp. 1272–1273.
  13. T. Haumtratz, S. Lindenmeier, J. Schiller: Classification Experiments for the Investigation of bistatic radar on base of turntable measurements IEEE-SPIE/SPS 2013
  14. M. Spägele, F. Wagner, S. Buntz, H. Leier, S. Lindenmeier, L. Reiter and R. Münzner: Radiated Emission of automotive communication bus systems caused by mode-conversion of common-mode chokes and in-line-connectors, EMC Europe 2013
  15. S. Lindenmeier, L. Reiter, J. Kammerer and S. Senega, “Antenna Technology for Mobile Satellite Radio Reception” in  International Workshop on Antenna Technology (iWAT), Karlsruhe, Germany, pp. 163 – 166, March 2013
  16. J. Kammerer and S. Lindenmeier, “Invisible Antenna Embedded in the Roof of a Car with High Efficiency for Reception of Satellite Digital Audio Radio Services (SDARS)”, in European Conference on Antennas and Propagation (EUCAP), Göteborg, Sweden, Apr. 2013
  17. J. Kammerer and S. Lindenmeier, “Invisible Antenna Combination Embedded in the Roof of a Car with High Efficiency for Reception of SDARS – and GPS – Signals” in IEEE International Symposium on Antennas and Propagation (APSURSI), Orlando, USA, July 2013
  18. J. Kammerer and S. Lindenmeier, “A new compact antenna combination with high efficiency for reception of SDARS- and GPS signals” in IEEE International Symposium on Antennas and Propagation (APSURSI), Chicago, USA, July 2012, pp. 1 – 2
  19. J. Kammerer, L. Reiter and S. Lindenmeier, “Automotive Hexband Antenna for AM/FM/GPS/SDARS and AMPS/PCS1900 Cell Phone in an only 65 mm high Housing” in Radio and Antenna Days of the Indian Ocean  (RADIO 2012), Flic en Flac, Mauritius, October 2012
  20. G. Saala, S.  Lindenmeier: A Compact Antenna Design for Satellite Reception with High Efficiency based on Low-Cost Materials. APS 2012,  July 2012, Chicago, USA.
  21. S. Lindenmeier, J. Hopf, S. Treinis: Comparison of Automotive FM Antenna Diversity Concepts with a Compound Reception Test. EUCAP 2012: The 6th European Conference on Antennas and Propagation, March 26-30, 2012, Prague, Czech Republic.
  22. C. Neeb, S. Lindenmeier: A Simulation System to Evaluate Antenna Diversity Concepts for Improved Mobile Reception of COFDM-based Terrestrial Broadcasts, EUCAP 2012, Proceedings of the 6th European Conference on Antennas and Propagation, March 26-30, 2012, Prague, Czech Republic
  23. S. Senega, S.M. Lindenmeier: Antenna Module with Integrated Scan-Phase Antenna Diversity System for SDARS. EUCAP 2012, Proceedings of the 6th European Conference on Antennas and Propagation, March 26-30, 2012, Prague, Czech Republic.
  24. W. Pascher, O. Obeid, J. Brose, J. Hopf and S. Lindenmeier, “Concept and Realization of a Wireless RF Energy Transmission Using Capacitive Loaded Resonant Circuits”, German-Israeli Workshop on Electromagnetics, Yad Hashmona, Israel, 2011.
  25. S. Lindenmeier, R. Weigel (Editors): Electromagnetics and Network Theory and their Microwave Technology Applications, Springer Verlag, 2011
  26. T. Haumtratz, S. Lindenmeier, J. Schiller: Challenges for Non-Cooperative Target Identification in a bistatic radar configuration IEEE-SPIE/SPS 2011, Jachranka (PL), June 2011
  27. M. Spägele, S. Buntz, H. Leier, L. Reiter, S. Lindenmeier: Reduction of differential-mode to common-mode conversion of common-mode chokes for an automotive Communication Bus System by means of analytic description IET Science, Measurement & Technology, 2011
  28. T. Haumtratz, S. Lindenmeier, J. Schiller: Challenges for Non-Cooperative Target Identification in a bistatic radar configuration International Journal of Electronics and Telecomunications, Vol. 52, No. 3, pp. 377-382, Sep. 2011
  29. J. Kammerer and S. Lindenmeier, “A compact car antenna with high efficiency for reception of heo- and geo- satellites signals”, in IEEE International Symposium on Antennas and Propagation (APSURSI), Spokane, USA, July 2011, pp. 1205 – 1206
  30. S. Lindenmeier, S. Treinis, J. Hopf: Advanced analysis of FM-reception systems with antenna diversity. 2011 IEEE International Symposium on Antennas and Propagation (APSURSI), July 3-8, 2011, Spokane, Washington, USA.
  31. S. Senega, S. Lindenmeier: A fast switching antenna diversity system for improved mobile reception of digital radio signals of a geostationary satellite. Proceedings of the 5th European Conference on Antennas and Propagation (EUCAP), pp, 262-264, Apr. 2011, Rom, Italien.
  32. S. Lindenmeier, C. Meier, A. Terzis, J. Brose: “A High-Precision Wideband Local Positioning System at 24 GHz” Buchbeitrag, 16 Pages, in Electromagnetics and Network Theory and their Microwave Applications, Springer Verlag, 2011
  33. S. Treinies, J. Hopf, J. Brose, S. Lindenmeier: „A Method for Evaluation of FM Antenna Diversity Systems for Cars," 2010 IEEE AP-S URSI International Symposium on Antennas and Propagation, July 11-17, 2010
  34. O. Obeid, J. Brose, W. Pascher, S. Lindenmeier, „Möglichkeiten und Grenzen der drahtlosen Hochfrequenz-Energieübertragung mit kapazitiv belasteten resonanten Leiterschleifen“, German National URSI Conf., Miltenberg, 2010.
  35. D. Müller, S. Senega und S. Lindenmeier: Novel 2-Antenna Diversity Set for SDARS Reception in GEO and HEO Satellite Systems, European Wireless Technology Conference 2010, Paris, Frankreich, September 2010
  36. A. Negut, L. Reiter, S. Lindenmeier Ultra Short Active Antenna with High-Impedance Amplifier for AM, FM and DAB (VHF, L-band), GeMiC 2010, March 15-17, 2010, Berlin, Germany
  37. A. Negut, L. Reiter, J. Hopf, S. Lindenmeier, High-Impedance Amplifier for a Novel 14cm Short AM/FM Automotive Active Antenna, EuCAP 2010, , Barcelona, Spain, Apr. 12-16, 2010.
  38. D. Müller, M. Weikert und S. Lindenmeier: Investigation of a Compact Antenna Diversity Set for Satellite Radio Applications, European Conference on Antennas and Propagation 2010, Barcelona, Spanien, Apr. 2010.
  39. D. Müller, S. Senega und S. Lindenmeier: Compact 3-Antenna Diversity Set for HEO and GEO Satellite Systems with Terrestrial Repeaters, IEEE Antennas and Propagation Society International Symposium 2010, Toronto, Kanada, July 2010.
  40. G. Saala, S.  Lindenmeier: Compact circular polarized antenna for mobile reception of radio signals transmitted by geostationary satellites. 2010 European Microwave Conference (EuMC), pp. 1465-1468, Sep. 2010.
  41. S. Senega, D. Müller, L. Reiter, S. Lindenmeier: A Fast-Switching Diversity- and Beam-Forming-Circuit for S-Band Satellite Reception in Fading Scenarios. 2010 European Microwave Conference (EuMC), pp. 648-651, Paris, France, Sep 26 - Oct. 1st  2010.
  42. D. Barié, L. Reiter, S. Lindenmeier, “Fast Switched Diversity for Optimization of S-Band SDARS Reception”, European Microwave Conference (EuMC), Paris, France, Sep 26 - Oct. 1st  2010.
  43. J. Brose, S. Lindenmeier, S. Treinis, J. Hopf: A method for evaluation of FM antenna diversity systems for cars. 2010 IEEE Antennas and Propagation Society International Symposium, July 11-17, 2010, Toronto, Canada.
  44. S. Senega, D. Müller, L. Reiter, S. Lindenmeier: Scan-Phase Antenna Diversity System for Improvements in SDARS Audio Availability at very low Signal-to-Noise Ratios. 2010 IEEE Antennas and Propagation Society International Symposium, July 11-17, 2010, Toronto, Canada.
  45. S. Lindenmeier: Europäisches Satelliten Radio, ITG-VDE Workshop Automotive Antennen, Ulm, 6. May 2010
  46. C. Heuer, S. Lindenmeier, R. Bösche: Antennendiversity für digitale Rundfunkdienste, ITG-VDE Workshop Automotive Antennen, Ulm, 6. May 2010
  47. C. Heuer, S. Lindenmeier: Antenna Diversity System for the Mobile Reception of Satellite Digital Radio, European Conference on Antennas and Propagation, EUCAP 2009, Proceedings pp. 2473-2476 Berlin, 23-27 March 2009
  48. S. Senega, D. Müller, D. Barié, L. Reiter, J. Hopf, S. Lindenmeier: Investigation on the Combination of a Scan/Phase Antenna Diversity System with a Novel Diversity Antenna Set., APS 2009, March 16 – 20, Pittsburgh, Pennsylvania, USA.
  49. S. Senega, D. Barié, D. Müller, L. Reiter, S. Lindenmeier: Investigation on Improvements in SDARS Reception Quality with a Scan/Phase Antenna Diversity System, GeMiC 2009, March 16-18, 2009, Munich, Germany.
  50. A. Negut, L. Reiter, J. Hopf, S. Lindenmeier: Performance of a 20 cm Short Active AM/FM Monopole Antenna for Automotive Application. European Conference on Antennas and Propagation, EUCAP 2009/ Berlin, pp. 2708-2712, 23-27 March 2009.
  51. D. J. Müller, J. F. Hopf, and S. M. Lindenmeier: A Cavity-Backed Thin Combined Slot-Dipole Antenna for Mobile Reception of Satellite Signals in Automotive Applications. IEEE Antennas and Propagation Symposium, June 2009, Charleston, USA.
  52. G. Saala, J. Hopf, S. Lindenmeier: Small satellite car antenna for simultaneous reception of LHCP and RHCP signals. EuCAP 2009, 3rd European Conference on Antennas and Propagation, Vol. 3, pp. 2698–2700, 2009.
  53. G. Saala, D. Müller, J. Hopf, S. Lindenmeier: Antenna with Optimized Pattern for Simultaneous Reception of Terrestrial Signals and Signals of Geostationary Satellites. Advances in Radio Science, 2010, pp.37-42, Vol. 8.
  54. G. Saala, D. Müller, J. Hopf, S. Lindenmeier: Antenna with Optimized Pattern for Simultaneous Reception of Terrestrial Signals and Signals of Geostationary Satellites. Kleinheubacher Berichte 2009.
  55. S. Lindenmeier, J. Brose: Numerical modelling of car antennas.  Book, pp. 303-320,  Time Domain Methods in Electrodynamics, Springer Verlag, 2008.
  56. C. Meier, A. Heim, J. Brose, S. Lindenmeier: Accurate distance measurement with a wideband high resolution pseudo noise coded radar. European Microwave Conference 2008, Digest und CD-ROM, 4 Pages, Amsterdam, 28.-30. Oct. 2008, Niederlande
  57. C. Meier, A. Heim, J. Brose, S. Lindenmeier: A High Precision Wideband Local Positioning System at 24 GHz.  Journal Frequenz, pp.199-204, Vol. 62, 2008.
  58. C. Meier, A. Heim, J. Brose, S. Lindenmeier: A High Precision Wideband Local Positioning System at 24 GHz. IEEE MTT-S Int. Symp. EMNT, Munich, Oct. 8-9, 2008.
  59. D. Müller, L. Reiter, D. Barié, S. Lindenmeier: Measurement and Analysis of Satellite Digital Audio Signals in Rayleigh Fading Scenarios.  IEEE Antennas and Propagation Symposium 2008, July 2008, San Diego, USA.
  60. D. Barié, S. Senega, L. Reiter, S. Lindenmeier: Concept Studies of Scanning and Combined Scan/Phase Antenna Diversity Systems for SDARS. FREQUENZ 9-10/2008 pp. 257-261, Vol. 62, September-Oktober, 2008.
  61. S. Lindenmeier, D. Barié, L. Reiter, J. Hopf, S. Senega: Novel Combined Scan-Phase Antenna Diversity System for SDARS. APS 2008, USA
  62. D. Müller, L. Reiter, J.  Hopf, D. Barie and S. Lindenmeier: A Measurement System for Investigation and Evaluation of Diversity Antenna     Combinations in Microwave Fading Scenarios.. GeMiC - German Microwave Conference 2008, Mar. 2008, Hamburg.           
  63. D. Barié, S. Senega, L. Reiter, S. Lindenmeier: Concept Studies of Scanning and Combined Scan/Phase Antenna Diversity Systems for SDARS. GeMiC-German Microwave Conference 2008, Mar. 2008, Hamburg.
  64. C. Meier, A. Terzis, S. Lindenmeier: Accurate distance measurement with a wideband high resolution pseudo noise coded radar.European Microwave Conference, Digest und CD-ROM, 4 Pages, München, 8.-12. Oct. 2007.
  65. S. Lindenmeier, L. Reiter, J. Hopf, D. Barié: Antenna diversity for the improvement of satellite radio reception in fading scenario. Invited paper und Leitvortrag, International Conference on Wave Propagation in Communication, Microwave Systems and Navigation, Digest und CDROM, Chemnitz, 4.-5. July 2007.
  66. C. Meier, A. Terzis, S. Lindenmeier: Investigation and suppression of multipath influence on indoor radio location in the millimetre wave range. International Conference on Wave Propagation in Communication, Microwave Systems and Navigation, Digest und CDROM,  Chemnitz, 4.-5. July 2007.
  67. S. Lindenmeier, L. Reiter, D. Barié, J. Hopf: Antenna Diversity for Improving the BER in Mobile Digital Radio Reception Especially in Areas with Dense Foliage. INICA 2007, International ITG-Conference on Antennas, Munich, 28.-30. Mar. 2007.
  68. J. Hopf, L. Reiter, S. Lindenmeier: Compact Multi-Antenna System for Cars with Electrically Invisible Phone Antennas for SDARS Frequencies. INICA 2007, Internationale ITG-Conference on Antennas, Munich, 28.-30. Mar. 2007.
  69. S. Lindenmeier, C. Meier, A. Terzis: Robust 3D High-Precision Radio Location System. IEEE MTT-S International Microwave Symposium, Digest und CDROM,
    4 Pages, Honolulu, 3.-8. June 2007, USA.
  70. S. Lindenmeier, C. Meier, A. Terzis: High Precision Local Positioning in Reflective Environment. IEEE MTT-S International Microwave Symposium Workshop, Digest und CDROM, 32 Pages, Honolulu, 3.-8. June 2007, USA
  71. S. Lindenmeier, C. Meier, A. Terzis: Wideband Radar Sensors and its Antennas. IEEE MTT-S International Microwave Symposium Workshop, Digest und CDROM, 30 Pages, Honolulu, 3.-8. June 2007, USA.
  72. S. Lindenmeier, J. Brose: Numerical modelling of car antennas.  Symposium in Honor of Professor Wolfgang Höfer, Technische Universität München, 16.-17. May 2007.
  73. J. Hopf, L. Reiter, S. Lindenmeier: Crossed Frame Antenna for Automotive Application for the New US Satellite Digital Audio Radio Service (SDARS).  36th European Microwave Conference 2006, Digest und CDROM, 4 Pages, 10.-15. Sep. 2006, Manchester, UK.
  74. H. Lindenmeier, S. Lindenmeier, J. Hopf, A. Ramadan, L. Reiter: A new Design Principle of Active Receiving Antennas applied with a High Impedance Amplifier-Diversity-Module in a Compact Multi-band-Antenna-System on a Plastic Trunc Lid, SAE 2006 World Congress, Detroit, Apr., 2006, USA.
  75. C. Meier, A. Terzis and S. Lindenmeier: A high precision wideband local positioning system at 24GHz. IEEE-MTT-S International Microwave Symposium Digest,
    pp. 1580-1583, San Francisco, 11.-16. July 2006, USA.
  76. S. Lindenmeier: Antennen für Radar und mobile Kommunikation. Übersichtsbeitrag, RADCOM2006, CD-ROM, 19 Pages, Hamburg, 22.-23. Mar. 2006.
  77. S. Lindenmeier, J. Hopf, L. Reiter, J. Brose: Multiband antenna systems for terrestrial and satellite radio services. IEEE-MTT-S International Microwave Symposium Workshop Digest, CD-ROM, 26 Pages, Long Beach, 12.-17. June 2005, USA.
  78. L. Reiter, S. Lindenmeier: Compact Antenna with novel high Impedance Amplifier Diversity Module for the common Integration into narrow Dielectric Parts of a Cars Skin. XXVIIIth General Assembly of International Union of Radio Science (URSI), Digest und CDROM, 4 Pages, 22.-29. Oktober 2005, New Delhi, Indien.
  79. S. Lindenmeier, J. Hopf, L. Reiter: Integrated Microwave Antenna Systems in Mobile Applications. XXVIIIth General Assembly of International Union of Radio Science (URSI), Digest und CDROM, 4 Pages, 22.-29. Oktober 2005, New Delhi, Indien.
  80. S. Lindenmeier: Antennen für mobile Funksysteme. EEEFCOM 2005, Übersichtsbeitrag, Digest und CD-ROM, 20 Pages, 29.-30. June 2005, Ulm.
  81. H. Lindenmeier, L. Reiter, J. Hopf, S. Lindenmeier, H-G. Schüring, G. Hassmann: Vehicle-Conformal SDARS Diversity Antenna System by a Fast Operating Diversity Algorithm. IEEE International Symposium on Antennas and Propagation, 4 Pages,
    3.-8. July 2005, Washington, D.C., USA.
  82. H-G. Schüring, G. Hassmann, H. Lindenmeier, L. Reiter, J. Hopf, S. Lindenmeier: State of the Art of Vehicle Antennas for Satellite Radio. IEEE International Symposium on Antennas and Propagation, 4 Pages, 3.-8. July 2005, Washington, D.C., USA
  83. H. Lindenmeier, L. Reiter, J. Hopf, S. Lindenmeier, H-G. Schüring, G. Hassmann:  SDARS antenna diversity schemes for a better radio link in fast driven vehicles. SAE 2005 World Congress, Detroit, Michigan, Paper No. 2005-01-0568.
  84. L. Pierantoni, S. Lindenmeier, A. Massaro, T. Rozzi: Analysis of the EM coupling between satellite antennas. European Microwave Conference, Digest und CD-ROM,
    4 Pages, 11.-15. Oktober, 2004.
  85. S. Lindenmeier, A. Terzis, „Digital signal processing for robust data transmission with a DSSS wireless data link“, IEEE-MTT-S International Microwave Symposium Workshop Digest, CD-ROM, 20 Pages, Fort Worth, 6-11. June 2004
  86. L. Reiter, H. Lindenmeier, J. Hopf und H.-G. Schüring.
     Fast Switching Antenna Diversity a Means for Bit Error Reduction with Mobile Satellite Digital Broadcast Reception.
    2004 IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, June 20-25, 2004, Monterey, California, USA, Vol. 3, pp. 3215-3217
  87. S. Lindenmeier, C. Meier, „Funksysteme für eine hochgenaue Ortung“ Übersichtsbeitrag, RADCOM 2004, Digest und CDROM, 30 Pages, Hamburg, Februar 2003
  88. S. Lindenmeier, „Methoden zur Untersuchung von Übersprecheffekten in Mikrowellen-Sende-Empfängern“, Übersichtsvortrag, ITG Diskussionssitzung „Messverfahren der EMV“, Digest, München, 15.-17. Oct. 2003
  89. A. Voglgsang, H. Steckenbiller, S. Lindenmeier, „Messung und Modellierung von Nebensprechstörungen für xDSL-Kanäle“, ITG Diskussionssitzung „Messverfahren der EMV“, Digest, München, 15.-17. Oct. 2003
  90. S. Lindenmeier, A. Terzis, J.F. Luy, „Spread Spectrum Data Transmission at Low Signal Power with a Short Range Wireless Link at 24GHz", European Conference on Wireless Technology 2003 Digest und CD-ROM, 4 Pages, München, 8.-10. Oct. 2003
  91. L. Pierantoni, S. Lindenmeier, T. Rozzi, „Efficient Modelling of the Near Field Coupling between Phased Array Antennas“, European Microwave Conference Digest und CD-ROM, 4 Pages, München, 6.-10. Oct. 2003
  92. L. Marcaccioli, G. Olbrich, S. Lindenmeier, R. Sorrentino, „Planar Microstrip Diplexer for a Multifunctional Antenna“, European Microwave Symposium Digest und CD-ROM, 4 Pages, München, 6.-10. Oct. 2003
  93. A. Terzis, S. Lindenmeier, „Robuste Funkübertragung im Fahrzeugbereich“, Übersichtsvortrag, ITG/GMM Diskussionssitzung „Entwurfsverfahren für Automotive Anwendungen“, Digest und CD-ROM, 5 Pages, Heilbronn, 10.-12. Sep. 2003
  94. S. Lindenmeier, K. Böhm, J.F. Luy, „A Wireless Data Link for Mobile Applications“ IEEE Microwave and Wireless Components Lett., Vol.13, Nr.8, pp.326-328, Aug. 2003
  95. S. Lindenmeier, A. Terzis, J.F. Luy, „Kabelfreier Kurzstrecken-Daten-Link“, Symposium Heeresamt Abt.III, Zukünftige Ausstattung Leichte und Mittlere Kräfte, CD-ROM, 5 Seiten, Hammelburg, 1.-2. July 2003
  96. S. Lindenmeier, „24GHz Applications for Communication and Radar“, Übersichtsvortrag, EEEFCOM 2003, Digest 26 Pages, CD-ROM 59 Pages, Ulm, 21-22 May 2003
  97. U. Seiler, S. Lindenmeier, J.F. Luy, „A 24 GHz Integrated Transceiver Front – End“ AEÜ International Journal of Electronics and Communications Archiv für Elektronik und Übertragungstechnik, Vol.57 Nr. 2, pp. 154-158 , 2003
  98. S. Lindenmeier, A. Terzis, „A DSSS-Based Wireless Short Range Data Link“ AEÜ International Journal of Electronics and Communications Archiv für Elektronik und Übertragungstechnik, Vol.57 Nr. 3, pp. 161-167 , 2003
  99. A. Voglgsang, R. Knorr, S. Lindenmeier, „Crosstalk Identification and Modified Crosstalk Model for xDSL-Channels” 4th WSEAS Digest, International Conference on Mathematical Methods & Computational Techniques in Electrical Engineering, 7 Pages, Dec. 29.-31, Athen 2002
  100. S. Lindenmeier, „High Speed Wireless Data Links for Mobile Applications“, European Conference on Wireless Technology 2002, Digest pp. 19-22, Milan, Sep. 2002
  101. S. Lindenmeier, G. Olbrich, J.F. Luy, P. Russer, „A Five-Band Antenna for Terrestrial and Satellite Radio Services“, CD-ROM, 4 Pages, URSI 2002, Maastricht, Aug. 2002
  102. S. Lindenmeier, S. Mayer, D. Knöpfle, J.-F. Luy, „Communicating Near Range Sensor System for Automotive Application“, IEEE-MTT-S International Microwave Symposium Workshop Digest, CD-ROM, 16 Pages, Seattle, June 2002
  103. S. Lindenmeier, J.F. Luy, P. Russer: „A Multifunctional Antenna for Terrestrial and Satellite Radio Applications“ IEEE-MTT-S Digest, Vol.I, pp.393-396, Phoenix, 19.-25.5.2001
  104. C.N. Rheinfelder, S. Lindenmeier, J.-F. Luy, C. Willner, A. Schüppen, „A Sensor System Based on Sige MMIC’s for 24 GHz Automotive Applications“, IEEE-MTT-S Digest, Vol.III, pp. 2239-2242, Phoenix, 19.-25.5.2001
  105. S. Lindenmeier, „Finite Difference Methods for the Design of Microwave Structures“, Review Book on Microwave theory and Techniques, Herausgeber: A. Beyer, Verlag: Research Signpost, pp. 1 & 21-41, 2001
  106. S. Lindenmeier, P. Russer, „The ARB Method“, International Journal of Numerical Modelling Special Issue: Electronic Networks, Devices and Fields, Vol 14, pp. 115-128, 2001
  107. S. Lindenmeier, P. Russer, „Automatic Optimization of High Gain Antenna Arrays“, VDE World Microtechnologies Congress, Proceedings Vol 2, pp. 121-124, Sep. 2000
  108. S. Lindenmeier, „Methoden zur Analyse elektromagnetischer Kopplungen“, Habilitationsschrift an der Technischen Universität München, Lehrstuhl für Hochfrequenztechnik, 199 Pages, July 2000
  109. S. Lindenmeier, C. Christopoulos, P. Russer, „Methods for the Modeling of Thin Wire Structures with the TLM Method“, IEEE-MTT-S International Microwave Symposium, Boston, U.S.A., June 2000
  110. S. Lindenmeier, „Space Discretising Time Domain Methods for the Numerical Modelling of Electromagnetic Coupling in EMC”, Invited Paper, XIII Int. Conference on Microwaves, Radar and Wireless Comm. MIKON 2000, Digest, Vol 3. pp.94-103, Breslau, May 2000
  111. S. Lindenmeier, C. Christopoulos, P. Russer, „Thin Wire Modeling with the TLMIE-Method“, Progress in Applied Computational Electromagnetics ACES Symposium Digest, Mar. 2000
  112. S. Lindenmeier, L. Pierantoni, P. Russer, „Hybrid Space Discretizing-Integral Equation Methods for Numerical Modelling of Transient Interferences“, IEEE Trans. Electromagnetic Compatibility, Vol. 41, No. 4, pp.425-430, Nov. 1999
  113. S. Lindenmeier, L. Pierantoni, P. Russer, „The ARB Method“, 3d. Int. Workshop on TLM Modelling, Nizza, Digest, pp. 115-124, 27.-29. Oct. 1999
  114. L. Pierantoni, G. Cerri, S. Lindenmeier, P. Russer, „Theoretical and Numerical Aspects of the Hybrid MoM-FDTD, TLM-IE and ARB Methods for the Efficient Modelling of EMC Problems“, Europ. Microwave Symposium 1999, Digest, pp. 313-316, 4.-8. Oct. 1999
  115. S. Lindenmeier, P. Russer, „The Time Domain TLM-Integral Equation Method“, Workshop on Hybrid Methods, Europ. Microwave Symposium, Proceedings, 8 Pages, 4. Oct. 1999
  116. S. Lindenmeier, L. Pierantoni and P. Russer, „Numerical Modeling of Transient Radiated Interferences in Time Domain by the Hybrid ARB Method”, International Journal of Numerical Modelling: Electronic Networks, Devices and Fields, pp. 295-310, July 1999
  117. L. Pierantoni, S. Lindenmeier and P. Russer, „Efficient Analysis and Modeling of the Radiation of Microstrip Lines and Patch Antennas by the TLM-Integral Equation (TLM-IE) Method“, International Journal of Numerical Modelling: Electronic Networks, Devices and Fields, pp. 329-340, July 1999
  118. S. Lindenmeier, L. Pierantoni and P. Russer, „Time Domain Modeling of E.M. Coupling between Microwave Circuit Structures“, 1999 IEEE-MTT-S International Microwave Symposium, Anaheim, California, U.S.A., pp.1569-1572, June 1999.
  119. A. Altintas, S. Lindenmeier, P. Russer, „Time-Domain Equivalent Edge Currents“,  Progress in Applied Computational Electromagnetics 1998 ACES Symposium Digest,   pp.622-627, Mar. 1999
  120. S. Lindenmeier, L. Pierantoni, P. Russer, „Efficient Time Domain Modeling of E.M. Coupling Between Metallic Enclosures“, 13th Int. Symposium and Technical Exhi-bition on Electromagnetic Compatibility EMC, Zürich, Proc. pp. 181-184, Feb. 1999
  121. F. Alimenti, F. Tiezzi, R. Sorrentino, S. Lindenmeier, L. Pierantoni P. Russer, „Accurate Analysis and Modeling of Slot Coupled Patch Antennas by the TLM-IE and the FDTD Methods“, Europ. Microwave Symposium Digest, Vol.1, pp. 30-35, Sep. 1998
  122. S. Lindenmeier, P. Russer, „Efficient Modeling of Inductive Coupling with the PPS-FD-Solver for EMC-Problems“ Progress in Electromagnetics Research Symposium PIERS., Nantes, Proc. pp. 1257, July 1998
  123. L.Pierantoni, S. Lindenmeier, P. Russer, „Analysis of the E.M. Interferences of Metallic Enclosures by the Hybrid TLMIE Method“ Progress in Electromagnetics Research Symposium PIERS., Nantes, Proc. S. 1258, July 1998
  124. L. Pierantoni, S. Lindenmeier, P. Russer, „The TLM-Integral Equation (TLMIE) Method for Solving Radiation Problems in Planar Waveguides“ Progress in Electromagnetics Research Symposium PIERS., Nantes, Proc. pp. 1259, July 1998
  125. L. Pierantoni, S. Lindemeier and P. Russer, „A Hybrid TLM-IE Method for the Modeling of Radiation from Apertures“, Giornate di Studio AEI, (Eletcrotecnical Association of Italy) on: "Effectti dei campi elettromagnetici sull’ambiente", University of Aquila, Italy, July 2-3, 1998, pp.75-80.
  126. S. Lindenmeier, „Anwendungsbereiche für die numerische Feldmodellierung mit der TLM Methode“, Workshop Modellierung photonischer Komponenten und Systeme, Technischen Hochschule Ilmenau, Proc., May 1998
  127. S. Lindenmeier, L. Pierantoni P. Russer, „Adapted Radiating Boundaries (ARB) for Efficient Time Domain Simulation of Electromagnetic Interferences“, IEEE MTT-S Digest, pp.465-468, June 1998
  128. S. Lindenmeier, L. Pierantoni, P. Russer, „Efficient Analysis of Microstrip Radiation by the TLM-Integral Equation (TLMIE) Method“, IEEE MTT-S Digest, pp.1267-1270, June 1998
  129. S. Lindenmeier, P. Russer, „Untersuchung breitbandiger kurzer Hochgewinnantennen“ ITG Fachbericht Antennen 149, pp. 197-202, Apr. 1998
  130. S. Lindenmeier, L. Pierantoni, P. Russer, „Eine hybride Integralgleichungs-TLM-Methode zur Untersuchung von Abstrahlungsproblemen“, ITG Fachbericht Antennen 149, pp. 129-134, Apr. 1998
  131. L. Pierantoni, S. Lindenmeier, P. Russer, „A Hybrid Time Domain TLM-Integral Equation Method for Solution of Radiation Problems“, Progress in Applied Computational Electromagnetics 1998 ACES Symposium Digest,  pp.320-325 Mar. 1998
  132. S. Lindenmeier, P. Russer, „Design of Planar Circuit Structures with an Efficient Magneto-Static Field Solver“, IEEE Trans. MTT, Vol. 45, pp. 2468-2473, Dec. 1997
  133. S. Lindenmeier, B. Isele, R. Weigel, P. Russer, „A Fast Spatial Domain Method for the Suppression of Excitation-Induced Spurious Modes in SCN-TLM,“ IEEE Trans. MTT, Vol. 45, pp. 1998-2006, Nov. 1997
  134. S. Lindenmeier, B. Bader, P. Russer, „The ATLM Method“, Übersichtsvortrag, 2nd. int. Workshop on TLM Modeling, Proc. S. 24-35, Munich, Oct. 1997
  135. L. Pierantoni, S. Lindenmeier, P. Russer, „A Hybrid TLM-Integral Equation (TLMIE) Method for Efficient Solution of EMC Problems“, 2nd. int. Workshop on TLM Modeling, Proc. S. 186-195, Munich, Oct. 1997
  136. L. Pierantoni, S. Lindenmeier, P. Russer, „A Combination of Integral Equation Method and FD/TLM Method for Efficient Solution of EMC Problems“ Europ. Microwave Symposium Digest, Vol. 2, pp. 937-942, Sep. 1997
  137. S. Lindenmeier, B. Bader, P. Russer, „CAD-design of viahole fed planar antennas using space discretizing field solvers“, Europ. Microwave Symposium Digest, Vol. 2, pp. 848-853, Sep. 1997
  138. P. Russer, S. Lindenmeier, „Compact Distributed Microwave Circuit Models Generated by the TLM Method and Systems Identification“, SBMO `97 Symposium Proceedings (6Pages), Natal, Brazil, Aug. 1997
  139. L. Pierantoni, S. Lindenmeier, P. Russer, „An Hybrid TLM-Integral Equation Method for Efficient Modelling of EMC Problems“, Progress in Electromagnetics Research Symposium PIERS., Cambridge, U.S.A., Proceedings, pp. 358, July 1997
  140. S. Lindenmeier, B. Bader, P. Russer, „Antenna Design by Flexible ATLM Field Simulation in Time Domain“, Progress in Electromagnetics Research Symposium PIERS., Cambridge, U.S.A., Proceedings, pp. 879,  July 1997
  141. S. Lindenmeier, P. Russer, „Design of Planar Circuit Structures with an Efficient Magneto-Static Field Solver“, IEEE MTT-S Digest, Vol. 3, pp.1807-1810, June 1997
  142. S. Lindenmeier, B. Bader, P. Russer, „Investigation of Various H-Shaped Antennas With an ATLM Field-Solver“, IEEE MTT-S Digest, Vol. 3, pp.1365-1368, June 1997
  143. S. Lindenmeier, , W. Heinrich, P. Russer „Die PPS-Methode zur effizienten magneto-statischen Feldanalyse für EMV Probleme.“, MIOP 1997, 9. Kongressmesse für HF-tech., Funkkom. und EMV, Sindelfingen, Proc., Apr. 1997
  144. S. Lindenmeier, P. Russer, W. Heinrich, „Applications of the hybrid dynamic-static finite difference approach on 3D-MMIC structures.“, Progress in Applied Computational Electromagnetics 1997 ACES Symposium Digest, pp.1182-1188, Mar. 1997
  145. S. Lindenmeier, P. Russer, „The PPS-method for the FD-calculation of inductances of unrestricted lossless 3D-structures using a scalar magnetic potential“, Progress in Electromagnetics Research Symposium PIERS., Hongkong, UK., Proc. pp. Jan. 1997
  146. S. Lindenmeier, W. Heinrich, P. Russer, „A fast magneto-static field simulation for the incorporation into a hybrid dynamic static finite-integral algorithm,“ Prague, Europ. Microwave Symposium Digest, Vol. 1, pp. 447-451, Sep. 1996
  147. S. Lindenmeier, P. Russer, „The Alternating Rotated TLM Scheme (ARTLM) for Fast Simulations in Time Domain,“ Prague, Europ. Microwave Symposium Digest, Vol. 1, pp. 493-496, Sep. 1996
  148. S. Lindenmeier, „Finite-Differenzen-Methoden zur Modellierung planarer Hoch-frequenzschaltungen“, Dissertation an der TU München, Lehrstuhl für Hochfrequenz-technik, 170 Pages, July 1996
  149. S. Lindenmeier, P. Russer, „A system of new FDFD and FDTD schemes with high suppression of dispersion errors,“ in Progress in Electromagnetics Research Symposium PIERS., Innsbruck, Austria, July 1996
  150. B. Isele, S. Lindenmeier, R. Weigel, P. Russer, „On the suppression of excitation induced spurious modes in the symmetrical condensed node TLM-scheme“ in Progress in Electromagnetics Research Symposium PIERS., Innsbruck, Austria, July 1996
  151. S. Lindenmeier, P. Russer, W. Heinrich, „Hybrid dynamic-static Finite-Difference approach for MMIC design,“ IEEE MTT-S Digest, Vol. 1, pp. 197-200, June 1996
  152. S. Lindenmeier, B. Isele, R. Weigel, P. Russer, „A Fast Spatial Domain Method for the Suppression of Excitation-Induced Spurious Modes in SCN-TLM,“ IEEE MTT-S Digest, Vol. 1, pp. 351-354, June 1996
  153. S. Lindenmeier, P. Russer, W. Heinrich, „Effiziente 2-D Finite Integral-Methode im Frequenzbereich unter Einbeziehung quasistatischer Lösungen“, Kleinheubacher Berichte, Vol. 39, pp. 229-238, 1996
  154. S. Lindenmeier, B. Isele, R. Weigel, P. Russer, „Effiziente Spurious Modes-Unter-drückung für Anregungen in symmetrisch kondensierten TLM-Knoten“, Kleinheubacher Berichte, Vol. 39, pp. 61-70, 1996
  155. S. Lindenmeier, W. Heinrich, „Hybride Finite-Integrations-Methode unter Verwendung quasistatischer Näherungen“ Ferdinand-Braun-Institut, Berlin, Jahresbericht 1995, pp. 14-16
  156. S. Lindenmeier, B. Isele, R. Weigel, P. Russer, „On the Suppression of Spurious Modes in Stub-Loaded 3D-Symmetrical Condensed TLM-Nodes“ Proc. „1st Intl. Workshop on „Transmission Line Matrix (TLM) Modeling“, Victoria, Canada, BC, pp. 41-44, Aug. 1995
  157. S. Lindenmeier, B. Isele, R. Weigel, P. Russer, „Anregungen für symmetrisch kondensierte TLM-Knoten zur Vermeidung störender Gittermoden“, Kleinheubacher Berichte Vol. 38, pp. 317-326, 1995
  158. S. Lindenmeier, C. Huber, W. Heinrich, „Source-Induktivität von FET’s in Microstrip-Umgebung“ Ferdinand-Braun-Institut, Berlin, Jahresbericht 1994, pp. 25-28
  159. S. Lindenmeier, B. Isele, R. Weigel, P. Russer, „Improved initial conditions for the symmetrical condensed TLM-node with respect to physical propagation characteristics,“ in Progress in Electromagnetics Research Symposium PIERS., Nordwijk, Netherlands, (CD-ROM, 4 Pages), July 1994
Stefan Lindenmeier