Title :
Digital audio broadcasting in the FM band by means of contiguous band insertion and precanceling techniques
Author :
Chen, Brian ; Sundberg, Carl-Erik W.
fDate :
10/1/2000 12:00:00 AM
Abstract :
A low-complexity method of linearly combining an analog frequency-modulation (FM) signal with a low-level multitone signal for simultaneous broadcasting of digital data and analog FM is proposed and evaluated. The analog FM signal can be recovered with a standard FM receiver. The digital multitone signal is added symmetrically at the band edges of the 200-kHz FM signal in contiguous bands with variable width. To maximize the data rate, the digital bandwidth is maximized subject to a maximum allowed distortion of the demodulated analog FM signal. The impact of the analog FM signal on, digital reception is cancelled by means of transmitter precanceling techniques. Conditions for precanceling techniques for multipath channels are formulated. The main advantage of the contiguous band insertion method is that the rate of the control channel is considerably lower compared to previously proposed methods of carrier insertion without significant reduction in data rate. We present a number of numerical results for acoustical signals.
Keywords :
acoustic signal processing; data communication; demodulation; digital audio broadcasting; frequency modulation; interference suppression; multipath channels; 200 kHz; FM band; acoustical signals; analog FM signal; analog frequency-modulation; contiguous band insertion; control channel rate; data rate maximization; demodulated analog FM signal; digital audio broadcasting; digital bandwidth; digital data broadcasting; digital multitone signal; digital reception; low-complexity method; low-level multitone signal; maximum allowed distortion; multipath channels; precanceling techniques; standard FM receiver; transmitter precanceling techniques; Acoustic distortion; Bandwidth; Digital audio broadcasting; Digital modulation; Fading; Frequency modulation; Modems; Multipath channels; Signal generators; Transmitters;
Journal_Title :
Communications, IEEE Transactions on
