Title :
Using multi-frequency modulation in a modem for the transmission of near-realtime video in an underwater environment
Author :
Bradbeer, Robin ; Law, Eric ; Yeung, Lam F.
Author_Institution :
Dept. of Electron. Eng., City Univ. of Hong Kong, China
Abstract :
The system described in this paper uses multicarrier modulation, and has been successfully tested at a data rate up to 10 kbps over 1 km. The system algorithm generates 48 frequencies for transmitting 48 parallel bits of data in each packet. A long transmitted signal sequence is combined with synchronisation, zero gap and information packets. The long multi-frequency signal packets have been implemented to minimise the effect of multipath fading, which is a particular problem in shallow, open water environments. To acquire the starting point of the transmitting sequence, a linear frequency modulation (LFM) signal is used for synchronisation. In order to reduce noise, adaptive threshold packets are used to set up a suitable signal. Experimental results from sea-trials have shown that the system can cope with multipath fading environments.
Keywords :
fading channels; frequency modulation; modems; multipath channels; packet switching; real-time systems; synchronisation; underwater acoustic communication; visual communication; 1 km; 10 kbit/s; LFM; adaptive threshold packets; data rate; linear frequency modulation; long transmitted signal sequence; modem; multi-frequency modulation; multi-frequency signal packets; multicarrier modulation; multipath fading; near-realtime video transmission; noise reduction; packet transmission; sea-trials; shallow open water environments; synchronisation; system algorithm; underwater environment; Data engineering; Demodulation; Electronic equipment testing; Fading; Frequency synchronization; Modems; Ocean temperature; Reflection; Signal processing; Transmitters;
Conference_Titel :
Consumer Electronics, 2003. ICCE. 2003 IEEE International Conference on
Print_ISBN :
0-7803-7721-4
DOI :
10.1109/ICCE.2003.1218974
