Your search keyword '"Schneckenburger, Nicolas"' showing total 2 results

1. LDACS Flight Trials: Demonstration and Performance Analysis of the Future Aeronautical Communications System.

Author

Bellido-Manganell, Miguel A., Graupl, Thomas, Heirich, Oliver, Maurer, Nils, Filip-Dhaubhadel, Alexandra, Mielke, Daniel M., Schalk, Lukas Marcel, Becker, Dennis, Schneckenburger, Nicolas, and Schnell, Michael

Subjects

AERONAUTICAL communications systems, LEGACY systems, AIR traffic, EARTH stations, DIGITAL communications, MOBILE communication systems

Abstract

The L-band digital aeronautical communications system (LDACS) is a key enabler of the new air traffic services and operational concepts necessary for the modernization of the air traffic management (ATM). After its initial design, compatibility tests with legacy L-band systems, and functional demonstrations in the laboratory, the system is currently undergoing the standardization process of the International Civil Aviation Organization (ICAO). However, LDACS has not been demonstrated in flight yet. In this article, we present the first in-flight demonstration of LDACS, which took place in March and April 2019 in southern Germany and included four LDACS ground stations and one LDACS airborne station. We detail the experimental setup of the implemented LDACS ground and airborne stations together with the flight routes, the conducted experiments, and the frequency planning to ensure compatibility with legacy systems. In addition, we describe the demonstrated ATM applications and the security measures used to protect them. Based on the obtained measurement results, we evaluate the LDACS in-flight communication performance for the first time, including the achieved communication range, the measured end-to-end message latency, and the LDACS capability to provide quality of service by effectively prioritizing safety-relevant data traffic. Furthermore, we use the in-flight received signal power to assess the applicability of a theoretical path loss model. These flight trials contribute to the final steps in the development of LDACS by providing its in-flight communication performance and by demonstrating: first, its correct functionality in a realistic environment; second, its capability of supporting ATM applications and the advanced security measures that can be used to protect them; and third, its spectrum compatibility with legacy systems. We conclude that LDACS is ready to support ATM operations and that LDACS frequency planning can safeguard legacy systems successfully. [ABSTRACT FROM AUTHOR]

Published

2022

2. Measurement of the l-band air-to-ground channel for positioning applications.

Author

Schneckenburger, Nicolas, Jost, Thomas, Shutin, Dmitriy, Walter, Michael, Thiasiriphet, Thanawat, Schnell, Michael, and Fiebig, Uwe-Carsten

Subjects

*GEOGRAPHIC information systems, *RADIO frequency, *MULTIPATH channels, *SIGNAL processing, *DOPPLER effect

Abstract

In the paper, we present results from flight trials conducted to investigate the characteristics of the L-band air-to-ground radio channel for positioning applications. We discuss the employed hardware setup, synchronization concept, calibration procedures, and investigated flight patterns. It is shown that the setup is suitable for investigating both multipath structure and absolute propagation time of the radio signals. The power delay and Doppler power profiles, as well as the time-of-arrival estimation accuracy, are presented. Manuscript [ABSTRACT FROM AUTHOR]

Published

2016