Dr. Edgar Krune

„The most exciting thing about innovations are not the new gadgets and services that reach the consumer, but the long-term lifestyle changes they can trigger.“

Focus of work

  • Autonomous driving
  • Electronics
  • Sensors
  • Artificial Intelligence
  • Electromobility
  • Photonics

Curriculum vitae

Edgar Krune studied electrical engineering with a focus on electronics, information technology and communication systems at the TU Berlin. There he subsequently carried out research in the field of silicon photonics and received his doctorate for a thesis on low-jitter optical clock distribution for high-speed analog-to-digital converters. Since 2017, Edgar Krune has been working as a research associate/consultant at the iit in the context of research funding. He is supervising publicly funded research projects, in particular on autonomous and electric driving and linked topics such as electronics, sensors or artificial intelligence.

Publications

^
Apt, Wenke; Botthof, Alfons; Bovenschulte, Marc; Dwertmann, Anne; Ferdinand, Jan-Peter; Gabriel, Peter; Katrin Gaßner; Hartmann, Ernst Andreas; Kappel, Marcel; Kirste, Moritz; Krumm, Stephan; Krune, Edgar; Lutze, Maxie; Mah, Dana-Kristin; Otto, Stephan; Paulicke, Prisca; Priesack, Kai; Rohde, Marieke; Schmalz, Antonia; Schürholz, Markus; Spitzner, Eike-Christian; Stubbe, Julian; Thielicke, Robert; Waldburger, Martin; Wangler, Leo; Wessels, Jan; Wilsch, Benjamin; Wischmann, Steffen; Zinke, Guido; Mangelsdorf, Axel; Büching, Corinne (2018): Künstliche Intelligenz. Technologie – Anwendung – Gesellschaft
^
Konrad, Konstantin; Krune, Edgar; Michelmann, Jakob; Müller, Beate; Müller, Matthias; Wangler, Leo; Zinke, Guido (2018): Competitiveness of the European automotive manufacturing industry
^
Krueger, Benjamin; Makon, Robert E.; Landolt, O.; Hidri, O.; Schweiger, Thomas; Krune, Edgar; Knoll, Dieter; Lischke, Stefan; Schulze, Jörg (2017): A monolithically integrated, optically clocked 10 GS/s sampler with a bandwidth of> 30 GHz and a jitter ofxtagstartz 30 fs in photonic SiGe BiCMOS Technology. 2017 IEEE Custom Integrated Circuits Conference (CICC).
^
^
Knoll, Dieter; Lischke, Stefan; Awny, Ahmed; Kroh, Marcel; Krune, Edgar; Mai, Christian; Peczek, Anna; Petousi, Despoina; Simon, Stefan; Voigt, Karsten; Winzer, Georg; Zimmermann, Lars (2016): BiCMOS silicon photonics platform for fabrication of high-bandwidth electronic-photonic integrated circuits. 2016 IEEE 16th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF). S. 46-49.