Abstract
Here, we propose a new modulation method using chirp spread spectrum (CSS) modulation to indicate the result of long-range acoustic communication (LRAC). CSS modulation had outstanding matched filter characteristics even though the channel was complex. The performance of the matched filter depends on the time–bandwidth product. We studied the method of using the same modulation method while increasing the amount of the time–bandwidth product. When differential encoding is applied, the de-modulation is made using the difference between the current symbol and the previous symbol. If the matched filter is applied using both the current and the previous symbol, such as the use of two symbols, the amount of the time–bandwidth product can be doubled, and this method can make the output of the matched filter larger. The proposed method was verified in lake and sea experiments, in which the experimental environment was analyzed and compared with the result using the channel impulse response (CIR) of the lake and sea. The lake experiment was conducted over a distance of about 100–300 m between the transmitter and receiver and at a depth of ~40 m. As a result of the communication, the conventional method’s bit error rate (BER) was 1.22×10−1, but the proposed method’s BER was 1.98×10−2. The sea experiment was conducted over a distance of ~90 km and at a depth of ~1 km, and the conventional method BER in this experiment was 1.83×10−4, while the proposed method’s BER was 0.
Highlights
Research on long-range acoustic communication (LRAC) has been actively underway [1,2,3,4,5,6,7], largely in the military arena, such as for autonomous underwater vehicles (AUVs) [4,6]
The existing method had a bit error rate (BER) of 0.1071, and the proposed method had a BER of 0.0238 on the following channels. This shows that the proposed method leads to improved performance in terms of Doppler effects; it was possible to infer that performance was improved even by a low signal-to-noise ratio (SNR)
We explained how to improve performance when using the duplication method using the matched filter in the chirp spread spectrum (CSS) method
Summary
Research on long-range acoustic communication (LRAC) has been actively underway [1,2,3,4,5,6,7], largely in the military arena, such as for autonomous underwater vehicles (AUVs) [4,6]. It is difficult to determine whether a signal is the signal itself or the sound generated by acoustic animals, because there are many living things in range [11] These features make the use of SS in LRAC an outstanding method. SS communication can be divided into the direct sequence spread spectrum (DSSS) and frequency hopping (FH) technique [8,9] Research on these two methods has been active. In the case of the chirp spread spectrum (CSS), because of the high matched-filter process gain, which seems to be good in the general channel, it has the advantage of always having a constant performance rather than being advantageous or disadvantageous on a particular channel [22,23,24].
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