基于智能手机的智能传感器系统和浅水场景三维建模方法

IF 3.8 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Applied System Innovation Pub Date : 2023-02-10 DOI:10.3390/asi6010028

Gabriele Vozza, D. Costantino, M. Pepe, V. Alfio

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引用次数: 1

摘要

该论文的目的是实现低成本的智能传感器，用于收集浅水中的水深数据，并开发用于重建自然和人工水生场景的3D建模方法。为了实现这一目标，一种名为GNSS > Sonar >电话系统(G > S > P Sys)的系统通过智能手机实现了声纳传感器(deep Smart Sonars CHIRP+和Pro+ 2)与外部GNSS接收器(SimpleRTK2B)的同步。通过具体试验，研究了g> S > P Sys和深层智能声纳的测深数据采集性能。最后，开发了一种基于机器学习方法的数据驱动方法，用于对G > S > P Sys生成的测深数据进行三维建模。所开发的三维建模方法被证明是灵活的，易于实现，能够产生具有厘米精度和精度的自然表面和水下人工结构的模型。

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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Smart Sensors System Based on Smartphones and Methodology for 3D Modelling in Shallow Water Scenarios

The aim of the paper was the implementation of low-cost smart sensors for the collection of bathymetric data in shallow water and the development of a 3D modelling methodology for the reconstruction of natural and artificial aquatic scenarios. To achieve the aim, a system called GNSS > Sonar > Phone System (G > S > P Sys) was implemented to synchronise sonar sensors (Deeper Smart Sonars CHIRP+ and Pro+ 2) with an external GNSS receiver (SimpleRTK2B) via smartphone. The bathymetric data collection performances of the G > S > P Sys and the Deeper Smart Sonars were studied through specific tests. Finally, a data-driven method based on a machine learning approach to mapping was developed for the 3D modelling of the bathymetric data produced by the G > S > P Sys. The developed 3D modelling method proved to be flexible, easily implementable and capable of producing models of natural surfaces and submerged artificial structures with centimetre accuracy and precision.

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来源期刊

Applied System Innovation Mathematics-Applied Mathematics

CiteScore

7.90

自引率

5.30%

发文量

102

审稿时长

11 weeks