Breakthrough in Underwater Wireless Tech: New Codes and IRS Boost UUV Communication Performance

September 4, 2024
Breakthrough in Underwater Wireless Tech: New Codes and IRS Boost UUV Communication Performance
  • A new ACDM-based visible light positioning (VLPC) scheme integrates visible light communication (VLC) capabilities and employs a successive interference cancellation decoding (SICD) technique to enhance overall performance.

  • The paper concludes by addressing key challenges and potential future directions for the integration of IRS technology with optical wireless communication systems.

  • The OPRC-based VLPC scheme has demonstrated impressive performance, achieving sub-centimeter positioning accuracy in simulations and experiments without requiring synchronization among transmitters.

  • The rapid evolution of Internet of Things (IoT) technologies and the rise of intelligent devices are driving the development of sixth-generation (6G) wireless communication networks.

  • Recent advancements in underwater optical wireless communication (UOWC) are particularly relevant for unmanned underwater vehicle (UUV) technologies, which are gaining traction in various applications.

  • Research findings indicate that new two-dimensional optical orthogonal codes (2D OOCs) can accommodate more users in optical code-division multiple access (OCDMA) systems while delivering superior performance compared to existing codes.

  • Underwater wireless sensor networks (UWSNs) are grappling with significant challenges related to acoustic communication, which include high energy consumption and prolonged delays.

  • As the deployment of underwater equipment increases, multi-user communication systems in underwater optical wireless communication (UWOC) have become crucial, although interference from multiple optical links can negatively impact system performance.

  • A proposed solution features a two-step algorithm that optimizes the received constellation before determining the transmit constellation and intelligent reflecting surface (IRS) reflectances.

  • The computational complexity of this proposed method increases linearly with the length of pilot symbols, making it efficient for practical applications.

  • Simulation results show that tunable IRS units significantly improve bit error rate (BER) performance by alleviating dimming constraints and enhancing channel gains compared to traditional mirror-based IRS systems.

  • Intelligent Reflecting Surfaces (IRSs) are emerging as a promising solution to enhance the performance of optical wireless communication systems by providing reconfigurable communication channels.

Summary based on 11 sources


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