Information & Communication Technology ICT Partner

Lehre, Forschung

Konzeption, Beratung

Planung, Optimierung

Machbarkeitsstudie

Gutachten

Schulung

Standardisierung

3GPP

NGMN

ITU

5G PPP

IETF

Prof. Dr.-Ing. Shun-Ping Chen

Informations- und Kommunikationstechnik



Seit April 2008

Lehre und Forschung

  • Professor der Kommunikationstechnologie und -netze
  • Leiter des Instituts für Nachrichtentechnik
  • Fachbereich Elektrotechnik und Informationstechnik
  • Hochschule Darmstadt
  • Vorsitzender der Professor-Döhrer-Stiftung

Juni 1992 - März 2008

Industrie-Erfahrungen

  • Technik-Leiter, Mitglied der Geschäftsleitung, IT-Leiter, verantwortlich für ICT (Nachrichtenagentur/Medien, Transport-Logistik)
  • Technik-Leiter, Prokurist, Entwicklung und Produktion für Kommunikations- und Sicherheitstechnik (Elektronik-Industrie)
  • Head of Department, Team Manager, Mobilfunk Transportnetzplanung und -systeme (Mobilfunk-Netzbetreiber)
  • Projektmanager, Forschung und Entwicklung von Kommunikationssystemen (Hersteller der Kommunikationssysteme)

Oktober 1981 - Mai 1992

Studium, Universitätsforschung und Lehre an der TU Braunschweig

  • Hochfrequenztechnik
  • Nachrichtentechnik und -systeme
  • Optische Nachrichtentechnik
  • Optoelektronische Integration
  • Wellenleiterstrukturen

Forschungsinteressen

  • Performance Analyse und Optimierung von Mobilfunk 4G (LTE), 5G
  • Antennenarray Systeme, Beam Forming
  • 5G Multiple RAT (Radio Access Technologies)
  • 5G MU-MIMO (Multi-User Multiple Input Multiple Output)
  • Optische Nachrichtentechnik (LWL-basiert und Freiraum)
  • Wellenausbreitung, Streuung, Beugung
  • Netzsicherheit

Forschungssemester, Gastwissenschaftler

  • WS 2012: T-Labs (Forschungszentrum der Deutschen Telekom), Darmstadt (Projekt "DA2GC" LTE-Advanced)
  • WS 2012: Technische Universität Hamburg,(Projekt "Near Field Beam Forming and Focusing")
  • WS 2016: Nokia Bell Labs, Stuttgart (Projekte "5G Multi RATs" and "5G Massive MIMO")
  • WS 2020-SS2021: ESA/ESOC, Darmstadt (Projekte im Bereich Raumfahrt-Kommunikationstechnologie)

Lehre

  • Kommunikationsnetze
  • Mobilfunk
  • Optische Nachrichtentechnik
  • Netzsicherheit
  • Digitaltechnik
  • Grundlagen der Elektrotechnik

Sprachkenntnisse

  • fließend: Deutsch, Englisch, Chinesisch (Muttersprache)
  • einfache Lektüre und Gespräche: Französisch (B2), Spanisch (B2)
  • Grundkenntnisse: Italienisch (A2), Japanisch

Aktuelle Veröfffentlichungen

  • Maximilian Schüngel, Steven Dietrich, David Ginthör, Shun-Ping Chen, Michael Kuhn: Optimized Propagation Delay Compensation for an Improved 5G RAN Synchronization. Accepted for IECON 2021, 47th Annual Conference of the IEEE Industrial Electronics Society, October 13-16, 2021.
  • Maximilian Schüngel, Steven Dietrich, Shun-Ping Chen, Michael Kuhn: Synchronization Requirements of Converged Wired and Wireless Time-Sensitive Networks for Industrial Use Cases. Accepted for KommA 2021 - 12. Jahreskolloquium Kommunikation in der Automation, Noevember 18,2021.
  • Shun-Ping Chen: Characteristics of Near-Earth, Lunar and Interplanetary Laser Optical Communications by Considering Different Telescope Apertures and Distances. Submitted to CEAS Space Journal, Springer Nature, on October 25, 2021.
  • Shun-Ping Chen, Jose Villalvilla: Comparison of Modified Woo's Solar Phase Scintillation Model with ESA's BepiColombo Superior Solar Conjunction Measurement Data for X-Band and Ka-Band. Submitted to CEAS Space Journal, Springer Nature, on October 7, 2021.
  • Emmanuel Domfeh Aboagye, Shun-Ping Chen: Deep Space Optical Communications (DSOC) Downlink Simulation with Varying PPM Order. Optical and Quantum Electronics, Springer Nature. September 21, 2021. DOI: 10.1007/s11082-021-03232-z
  • Shun-Ping Chen: Investigations of free space and deep space optical communication scenarios. CEAS Space Journal, Springer Nature. September 13, 2021. DOI: 10.1007/s12567-021-00388-y
  • Maximilian Schüngel, Steven Dietrich, David Ginthör, Shun-Ping Chen, Michael Kuhn: Heterogeneous Synchronization in Converged Wired and Wireless Time-Sensitive Networks. WFCS 2021, IEEE International Conference on Factory Communication Systems. June 9-11, 2021.
  • Shun-Ping Chen, Heinz Schmiedel: Simulation and Measurement Results of Near Field and Far Field Characteristics of an Array of Microstrip Patch Antennas. Submitted to Wireless Personal Communications, Springer Nature. May 11, 2021.
  • Maximilian Schüngel, Steven Dietrich, Ludwig Leurs, David Ginthör, Shun-Ping Chen, Michael Kuhn: Advanced Grandmaster Selection Method for Converged Wired and Wireless Networks. ICIT 2021, IEEE International Conference on Industrial Technology. March 10-12, 2021.
  • Shun-Ping Chen: Fundamentals of Information and Communication Technologies. Cambridge Scholars Publishing, UK. ISBN (10): 1-5275-5585-2 / ISBN (13): 978-1-5275-5585-3. Official release on October 1, 2020.

    Publisher's Announcement of the Official Release.

  • Maximilian Schüngel, Steven Dietrich, David Ginthör, Shun-Ping Chen, Michael Kuhn: Single Message Distribution of Timing Information for Time Synchronization in Converged Wired and Wireless Networks. IEEE International Conference on Emerging Technologies & Factory Automation ETFA 2020. September 8 – 11, 2020. Vienna, Austria.
  • Maximilian Schüngel, Steven Dietrich, David Ginthör, Shun-Ping Chen, Michael Kuhn: Analysis of Time Synchronization for Converged Wired and Wireless Networks. IEEE International Conference on Emerging Technologies & Factory Automation ETFA 2020. September 8 – 11, 2020. Vienna, Austria.
  • Tobias Siegel, Shun-Ping Chen: Investigations of Free Space Optical Communications unter Real-World Atmospheric Conditions. Wireless Personal Communications, Springer Nature. https://doi.org/10.1007/s11277-020-07724-1, August 12, 2020.
  • Shun-Ping Chen: Near Field Beam Forming Characteristics of Conformal Antenna Arrays. International Conference on Cyber-Enabled Distributed Computing and Knowledge Discovery CyberC 2019, Guilin, China (October 2019). IEEE Computer Society CPS
  • Shun-Ping Chen, Jens Gebert: Investigations of 5G Multiple Radio Access Technology Performance and Resource Selection Behavior. International Conference on Cyber-Enabled Distributed Computing and Knowledge Discovery CyberC 2017, Nanjing, China (October 2017). IEEE Computer Society CPS, Order Number E6314, ISBN-13: 978-1-5386-2209-4
  • Shun-Ping Chen: An Efficient Method for Investigating Near Field Characteristics of Planar Antenna Arrays. Wireless Personal Communications, 95(2), 223-232, Springer Nature, 2017
  • Shun-Ping Chen: An Analytical Method for Investigating Near Field Characteristics of Planar Antenna Arrays. Global Conference of Wireless and Optical Communications, Malaga, Spain (September 2016)
  • Shun-Ping Chen: Improved Near Field Focusing of Antenna Arrays with Novel Weighting Coefficients. IEEE WIVEC 2014, International Symposium on Wireless Vehicular Communications / IEEE Vehicular Technology Conference, Vancouver, Canada (September 2014). IEEE Xplore Digital Library
  • Shun-Ping Chen: Performance Analysis and Optimization of DA2GC (Direct Air to Ground Communications) using LTE Advanced Technology. Global Wireless Summit 2014, Aalborg, Denmark (May 2014). IEEE Xplore Digital Library

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