Real-time underwater object detection based on an electrically scanned high-resolution sonar

Proceedings of IEEE Symposium on Autonomous Underwater Vehicle Technology (AUV'94) Pub Date : 1994-07-19 DOI:10.1109/AUV.1994.518613

Lars Henrikseii

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引用次数: 42

Abstract

The paper describes an approach to real time detection and tracking of underwater objects, using image sequences from an electrically scanned high-resolution sonar. The use of a high resolution sonar provides a good estimate of the location of the objects, but strains the computers on board, because of the high rate of raw data. The amount of data can be cut down by decreasing the scanned area, but this reduces the possibility of planning an optimal path. In the paper methods are described, that maintains the wide area of detection, without significant loss of precision or speed. This is done by using different scanning patterns for each sample. The detection is based on a two level threshold, making processing fast. Once detected the objects are followed through consecutive sonar images, and by use of an observer the estimation errors on position and velocities are reduced. Intensive use of different on-board sensors also makes it possible to scan a map of a larger area of the seabed in world coordinates. The work is in collaboration with partners under MAST-C-T90-0059.

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基于电扫描高分辨率声纳的实时水下目标探测

本文描述了一种利用电扫描高分辨率声纳图像序列实时探测和跟踪水下物体的方法。高分辨率声纳的使用提供了对目标位置的良好估计，但由于原始数据的高速率，使船上的计算机紧张。通过减少扫描区域可以减少数据量，但这降低了规划最佳路径的可能性。本文描述的方法，既保持了广泛的检测范围，又没有明显的精度和速度损失。这是通过对每个样品使用不同的扫描模式来完成的。检测基于两级阈值，处理速度快。一旦检测到目标，通过连续声纳图像跟踪，并使用观测器来减少对位置和速度的估计误差。大量使用不同的机载传感器也使得能够以世界坐标扫描更大面积的海底地图。这项工作是在MAST-C-T90-0059下与合作伙伴合作进行的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of IEEE Symposium on Autonomous Underwater Vehicle Technology (AUV'94)

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