Title :
Implementation of Digital Radio Mondiale receiver-part I
Author :
Willcox, Donald E. ; Kim, Joonwan ; Loewen, Chris ; Wineman, John
Author_Institution :
Electr. Eng. Dept., LeTourneau Univ., Longview, TX, USA
Abstract :
Radio communications possessing high signal quality and long-distance propagation have traditionally been difficult to achieve reliably over shortwave bands (up to 30 MHz). This is due to the analog modulation schemes in use and the vulnerability of shortwave radio to atmospheric disturbances. The development of the Digital Radio Mondiale (DRM) standard in 2001 provided digital coding methods, audio compression, and data protection features for shortwave transmissions. With DRM, nonprofit humanitarian broadcasters in underdeveloped nations have a reliable high-quality, long-distance transmission technology of lower cost than satellite radio services. The development of versatile DRM receivers is therefore necessary. This paper presents the design of a DRM receiver capable of demodulating a single DRM transmission, or ¿channel,¿ and compares the receiver´s performance to that of the commercial DRB-30 receiver. Plans for future improvement of the receiver´s overall signal-to-noise ratio and resilience to signal fading are discussed, including the addition of multi-channel reception capability and the Maximum Ratio Combining (MRC) diversity algorithm.
Keywords :
demodulation; digital radio; diversity reception; fading channels; radio receivers; radio reception; DRB-30 receiver; DRM standard; DRM transmission; analog modulation schemes; atmospheric disturbances; audio compression; data protection features; digital coding methods; digital radio mondiale receiver; digital radio mondiale standard; long-distance propagation; long-distance transmission technology; maximum ratio combining diversity algorithm; multichannel reception capability; nonprofit humanitarian broadcasters; radio communications; satellite radio services; shortwave bands; shortwave radio vulnerability; shortwave transmissions; signal fading; signal quality; signal-to-noise ratio; versatile DRM receivers; Audio compression; Digital Radio Mondiale; Digital audio broadcasting; Diversity reception; Protection; Radio broadcasting; Radio communication; Receivers; Satellite broadcasting; Standards development; Analog to Digital Converter; DRM; Digital Downconverter; Diversity; Preselector; Variable Gain Amplifier;
Conference_Titel :
System Theory (SSST), 2010 42nd Southeastern Symposium on
Conference_Location :
Tyler, TX
Print_ISBN :
978-1-4244-5690-1
DOI :
10.1109/SSST.2010.5442862
