Title :
An OFDM all digital in-band-on-channel (IBOC) AM and FM radio solution using the PAC encoder
Author :
Cupo, R.L. ; Sarraf, M. ; Shariat, M. ; Zarrabizadeh, M.
Author_Institution :
Bell Labs., Lucent Technol., Holmdel, NJ, USA
fDate :
3/1/1998 12:00:00 AM
Abstract :
The advances in digital communications and compression algorithms have made more efficient and more robust transmission schemes possible. Radio broadcast systems have not fully utilized these advances to their benefit. All digital robust radio broadcast systems for the AM and the FM band are proposed. The proposed systems are based on orthogonal frequency division multiplexing (OFDM) technology in conjunction with PAC for both the AM and the FM bands. The Perceptual Audio Coder (PAC) developed by Bell Laboratories compresses audio signals very efficiently with CD-like quality at 96 kbps and stereo FM-like quality at 48 kbps. These are rates achievable with 200 kHz and 30 kHz bandwidths available per FM and AM station respectively. No new spectrum is required since the digital signals are transmitted within the current allocated FCC masks. In an FM channel, a wide-band data subchannel can be provided in addition to the 96 kbps error protected PAC audio information
Keywords :
Hi-Fi equipment; amplitude modulation; audio coding; audio signals; data compression; digital audio broadcasting; digital signals; frequency division multiplexing; frequency modulation; telecommunication channels; 200 kHz; 30 kHz; 48 kbit/s; 96 kbit/s; AM band; AM radio; Bell Laboratories; CD-like quality; FCC masks; FM band; FM radio; OFDM; PAC encoder; Perceptual Audio Coder; all digital in-band-on-channel; audio signal compression; bandwidths; digital communications; digital compression algorithms; digital signals; error protected PAC audio information; orthogonal frequency division multiplexing; radio broadcast systems; stereo FM-like quality; wide-band data subchannel; Bandwidth; Compression algorithms; Digital audio broadcasting; Digital communication; FCC; OFDM; Protection; Radio broadcasting; Robustness; Wideband;
Journal_Title :
Broadcasting, IEEE Transactions on
