Currently, air traffc management is undergoing an extensive modernization process within SESAR [1] and Next-Gen [2] in Europe and the United States, respectively. This also includes the development of the future communication infrastructure (FCI) [3], which is jointly carried out by EUROCONTROL and the Federal Aviation Administration. Within the FCI, the L-band has been allocated for air-to-ground communications. Currently, two candidate systems for superseding the analogue voice communication system in the VHF band are taken into consideration. The frst candidate L-band digital aeronautical communications system type 1 (LDACS1) is a broadband system employing orthogonal frequency-division multiplexing (OFDM) and frequency-division duplex (FDD). LDACS1 has been designed as a combination of P34 (TIA 902 standard) and the broadband aeronautical multicarrier communications system [4]. The second candidate LDACS2 is a narrowband single-carrier system using time-division duplex as duplex scheme. This system is a derivative of the L-band digital link and the all-purpose multichannel aviation communication system.
[1]
M. Schnell,et al.
B-AMC — broadband aeronautical multi-carrier communications
,
2008,
2008 Integrated Communications, Navigation and Surveillance Conference.
[2]
M. Schnell,et al.
L-band compatibility of LDACS1
,
2011,
2011 IEEE/AIAA 30th Digital Avionics Systems Conference.
[3]
Ulrich Epple,et al.
Compensation of the Impact of Interference Mitigation by Pulse Blanking in OFDM Systems
,
2009,
GLOBECOM 2009 - 2009 IEEE Global Telecommunications Conference.
[4]
Michael Schnell,et al.
Overview of interference situation and mitigation techniques for LDACS1
,
2011,
2011 IEEE/AIAA 30th Digital Avionics Systems Conference.