Institut f. Luft- u. Raumfahrt: Dr.-Ing. Zizung Yoon

Dr.-Ing. Zizung Yoon

Research fellow

Room: F 143
Phone: +49 30 314-24438
Email: query

Research

distributed satellite system, satellite communication, Internet of Things (IoT), Spacecraft dynamics and control

Tasks

Projects

Project management IoL-NET
Project management S NET: S-band network for distributed satellites
SLink: S-band transceiver for intersatellite communication of nano satellites
TET-1: Development, test and verification of attitude control system of small satellite DLR TET-1
WieMod: Reusable models for the virtual knowledgebased product development

Education

2012 M.Sc. in Science Marketing, TU Berlin

2011 Ph.D. (Dr. -Ing.) in Aeronautics and Astronautics, TU Berlin

2006 Diploma Degree in Aeronautics and Astronautics, TU Berlin

Career

Seit 2010 Research fellow in the chair of space technology, TU Berlin

2006-2010 Engineer within project TET-1 und project WieMod at Astro- und
Feinwerktechnik Adlershof GmbH

2006 Space System Research Lab. Korea Aerospace Univ. (internship)

Scientific publications

Mission Design of a S-Band Network of Cooperative Nanosatellites
Citation key	Yoon.2013.IWSCFF.SNET
Author	Yoon, Zizung; Frese, Walter; Bukmaier, Alexander; Briess, Klaus
Title of Book	International Workshop on Spacecraft Constellation and Formation Flight
Year	2013
Month	Mai
Abstract	This paper describes the mission design and analysis of an S-band network con-sisting of cooperative nanosatellites (S Net). The mission goal is to demonstrate the inter satellite communication capability of distributed nanosatellites in space. The state-of-the-art network will consist of four nanosatellites each equipped with a miniaturized S-band transceiver which was developed by the Berlin Institute of Technology. This configuration will allow multi-point routing with relatively high data rates compared to other nanosatellite communication experiments. Different inter satellite link protocols will be implemented, tested and verified within the satellite network while simulating various network topologies in orbit. It is expected to show that nanosatellites have the potential to carry out demanding communication applications.