Autonomous underwater vehicles (AUVs) are becoming standard tools for underwater exploration and seabed mapping in both scientific and industrial applications \cite{graham2022rapid, stenius2022system}. Their capacity to dive untethered allows them to reach areas inaccessible to surface vessels and to collect data more closely to the seafloor, regardless of the water depth. However, their navigation autonomy remains bounded by the accuracy of their dead reckoning (DR) estimate of their global position, severely limited in the absence of a priori maps of the area and GPS signal. Global localization systems equivalent to the later exists for the underwater domain, such as LBL or USBL. However they involve expensive external infrastructure and their reliability decreases with the distance to the AUV, making them unsuitable for deep sea surveys.
翻译:自主潜水器(AUVs)正在成为在科学和工业应用中进行水下勘探和海底测绘的标准工具,这些潜水器不接地潜水,能够到达水面船只无法进入的地区,收集更接近海底的数据,而不论其水深如何,然而,它们的航行自主性仍然受到其全球位置估计的误算(DR)准确度的制约,在没有事先绘制的区域地图和全球定位系统信号的情况下受到严重限制。 水下领域全球定位系统,如LBL或USBL等,与后来的系统相当。 然而,这些系统涉及昂贵的外部基础设施,其可靠性随着与AVV的距离而下降,因此不适合进行深海勘测。
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