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GISALI / GISALI-ACcESS / ELiPSe

GISALI / GISALI-ACcESS / ELiPSe
Funding:

German Federal Ministry for Economic Affairs and Energy (BMWi)

Project partner:

Institute of Robust Power Semiconductor Systems (ILH), University Stuttgart
Fraunhofer Institute for Applied Solid State Physics (IAF)
Radiometer Physics GmbH (RPG)

Associated partner: Lufthansa Systems

Start:

May 2011

End:

April 2018

Contact:

Jörg Eisenbeis

Gigabit Satellite Links in the Millimeter Wave Frequency Range (GISALI)
Advanced E-Band Satellite Link Studies (GISALI-ACcESS)
E-Band Link Platform and Test for Satellite Communication (ELIPSe)

airplane_during_flight_mission
E-band transmitter setup
E-Band transmitter setup for the Long-Range-Demonstration over 37 km (Photo: Jörg Eisenbeis, KIT)
Ground station setup for the airplane communication tests (Photo: Jörg Eisenbeis, KIT)
Ground station setup for the airplane communication tests (Photo: Jörg Eisenbeis, KIT)

In the frame of the 3 consecutive projects GISALI, GISALI-ACcESS and ELiPSe the Karlsruhe Institute of Technology, the Fraunhofer Institute of Applied Solid State Physics (IAF), the University of Stuttgart and the Radiometer Physics GmbH (RPG) developes a technology platform for broadband satellite communication in the 71 to 86 GHz frequency band, based on millimeter wave monolithic integrated circuits (MMICs) with power efficient GaAs- and GaN-based transistor technology and performes an extensive feasibility study. It includes transmit and receive modules, carrier frequency generation and demonstrator with integrated antennas. This high data rate communication system can furthermore be used to deliver internet service to rural areas using baloons or drones.

The performance of the technology was demonstrated during several terrestrial wireless data transmission experiments [1]. The experiments show at distances of 15.7 km and 37 km a maximum data rate of 15 Gbit/s and 6 Gbit/s respectively. Moreover, a communications link between a ground station and an airplane with data rates up to 8 Gbit/s was achieved. For the test fligths an airplane at an altitude of 3200 ft was flying semicicles with radii ranging from 5 km to 12 km around the ground station [2]. In the laboratory data rates of even 80 Gbit/s could be demonstrated at a center frequency of 77 GHz [3].

Further project goals are the development and demonstration of critical functionalities and subsystems, to upgrade the current technology platform for the use of future satellite communication scenarios.

 

References:

[1] World record in terrestrial radio transmission
Press release in May 2016 by Karlsruher Institute of Technology (KIT)
http://www.kit.edu/kit/english/pi_2016_076_world-record-in-terrestrial-radio-transmission.php

[2] Schnelles Internet im Flieger rückt näher
Press release in May 2018 by Karlsruher Institute of Technology (KIT)
http://www.kit.edu/kit/pi_2018_060_schnelles-internet-im-flieger-ruckt-naher.php

[3] F. Boes et al., "Multi-Gigabit E-band Wireless Data Transmission," in 2015 IEEE MTT-S International Microwave Symposium 2015, pp. 1-4. doi: 10.1109/MWSYM.2015.7166930