A Constellation Diagram Learning-based Adaptive Sparse Non-orthogonal Wavelet Division Multiplexing for Sonar Image Underwater Acoustic Transmission

• Published in: IEEE internet of things journal p. 1
• Main Authors: Han, Guangyao, Cao, Yu, Su, Yishan, Fu, Xiaomei
• Format: Journal Article
• Language: English
• Published: IEEE 05.05.2023
• Subjects: adaptive modulation; Constellation diagram; Dictionaries; dictionary learning; Internet of Things; Machine learning; Modulation; non-orthogonal subcarrier design; Sonar; Time-frequency analysis; Underwater acoustic communication
• ISSN: 2327-4662
• DOI: 10.1109/JIOT.2023.3273725

In underwater Internet of Things (IoT) applications, efficient and reliable transmission is demanding. Recently, the non-orthogonal multicarrier (MC) modulation is utilized as a promising spectrum-efficient solution in the UWA channel, where generally, the constellation mapping (CM) methods (such as 8-PSK and 16-QAM) are utilized to further increase the transmission rate. In this paper, we focus on the transmission of sonar images among IoT nodes and a constellation diagram learning-based adaptive sparse non-orthogonal wavelet division multiplexing (CDLA-SNOWDM) system is proposed to combat complex channel states between IoT nodes. We found that different CM methods contribute to unique time-frequency characteristics in constellation diagrams. We first utilize the time-frequency characteristics in designing the non-orthogonal subcarriers. The complex-valued CM signals are regarded as a new type of image. We introduce dictionary learning (DL) to non-orthogonal subcarrier designing, with the idea that designing CM signal adaptive non-orthogonal subcarriers can be regarded as designing an adaptive subcarrier dictionary. The CDLA-SNOWDM modulation is performed as a projection of the CM image to the subcarriers with an adaptive dictionary. The learned adaptive subcarriers can represent constellation diagrams more efficiently and improve transmission reliability. Both simulations and experiments show that the proposed scheme improved the reliability in transmitting sonar images over other orthogonal and non-orthogonal modulation schemes in UWA scenarios.