超短基线多信标约束的深海动态定位方法探讨

Discussion of Deep-sea Dynamic Positioning Methods with Ultra-short Baseline Multi-beacon Constraint

  • 摘要: 深海长航时高精度定位是水下测量载体开展海洋测量的前提,超短基线系统是将声学基阵集成到一个换能器中,通过对声学信标的测距测向实现定位,体现出极大的灵活性与便利性。为进一步提升超短基线系统的定位精度和可靠性,在超短基线多信标同步定位技术得到长足发展的背景下,提出了超短基线多信标约束定位方法的概念,并根据多信标约束模式(测距约束、测距测向约束)、信标基阵构建模式(固定基线、动态基线)等不同情况进行了探讨。超短基线多信标约束的深海动态定位实验表明,在超短基线单信标定位精度为深度的2‰的情况下,多信标固定基线测距测向约束定位精度可提升至深度的1‰,入射角度、基线长度以及动态基线测距精度等是影响多信标约束定位的重要因素。超短基线多信标约束的多种定位模式体现出切实的可行性和良好的适应性,在深海定位技术发展中拥有广阔的应用前景。

     

    Abstract:
    Objectives High-precision positioning of long-term voyage in the deep sea is the premise of underwater survey carriers to carry out marine surveys. The ultra-short baseline system integrates the acoustic array into a transducer, and realizes positioning by measuring the distance and direction of the acoustic beacon, which reflects great flexibility and convenience.
    Methods In order to further improve the positioning accuracy and reliability of the ultra-short baseline system, the concept of ultra-short baseline multi-beacon constraint positioning method is proposed under the background of the great development of ultra-short baseline multi-beacon synchronous positioning technology. Different situations are discussed including multi-beacon constraint modes (distance constraint, distance and direction constraint) and beacon base array construction modes (fixed baseline, kinematic baseline).
    Results The deep-sea dynamic positioning experiment with ultra-short baseline and multi-beacon constraint shows that the positioning accuracy of multi-beacon fixed-baseline distance and direction constraint can be increased to 1‰ of depth when the positioning accuracy of ultra-short baseline single beacon is 2‰ of depth, and the incidence angle, baseline length and kinematic baseline ranging accuracy are all important factors affecting the positioning of multi-beacon constraint.
    Conclusions The multi-beacon constraint positioning modes of ultra-short baseline system reflect practical feasibility and good adaptability, and have broad application prospects in the development of deep-sea positioning technology.

     

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