Home | deutsch  | Legals | Sitemap | KIT
Johannes Fink

Dipl.-Ing. Johannes Fink

office hours: 

Mittwoch, 15:30 - 17:00 Uhr


room: 102
phone: +49 721 608-43791
fax: +49 721 608-46071
johannes finkKug1∂kit edu

Geb.05.01, Kreuzstr. 11, D-76133 Karlsruhe

Research interests

  • Radar signal processing: pulse and continuous wave radar
  • Radar Waveforms
  • Object recognition: detection and classification
  • Short range radar

 

Teaching responsibilities

  • Teaching Assistant Telecommunications I (2014 / 2015 / 2016 / 2017)
  • Teaching Assistant Applied Information Theory (2016 / 2017)
  • Lab communications engineering (2012 / 2013 / 2014 /2016 / 2017)
  • Team project (2012 / 2013 / 2014)

Student's thesis (Master's and Bachelor's), projects and internships

Completed works

  • "Occupancy grid maps for obstacle detection with a radar sensor"
  • "Design of interference-robust Waveforms for frequency modulated radar sensor networks and methods of sensor cooperation"
  • "Verification and optimization of FMCW radar signal processing"
  • "Feature-based classification of gestures by means of high resolution radar measurements"
  • "Development of signal processing algorithms for a 60 GHz radar"
  • "Improvement of radar signal processing by exploiting a priori information"
  • "Evaluation of state estimators for radar tracking in traffic scenarios"
  • "Clutter and attenuation in frequency modulated radar"
  • "Design of interference-robust waveforms for frequency modulated radar sensor networks und methods for sensor cooperation"
  • "Digital signal processing for frequency modulated Radar"
  • "Radar cross section estimation for frequency modulated Radar"
  • "System concepts for radar sensors in the 24 GHz ISM-Band: Comparison of the modulation schemes CW, FMCW and FSK in the context of different applications"
  • "Development of an UWB-Radar demonstrator"
  • "Detection algorithms for impulse based ultrawideband radar"
  • "Analysis of high resolution detection algorithms for impulse based ultrawideband radar"
  • "Impulse based radar - modelling and simulation in MATLAB / Simulink"
  • "Antenna design for impulse based ultrawideband radar"

Publications

Copyright Note: Personal use of this material is permitted. However, permission to reprint/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works must be obtained from the IEEE.