Development of a validation technique for road surface profile applicable to point cloud data

Kazuya Tomiyama , Yuki Yamaguchi , Kazushi Moriishi , Yuki Kotani
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Abstract

In recent years, various information and communication technology (ICT) devices measuring three-dimensional (3D) point cloud data have been developed and widely used for the application of pavement surface investigation. However, ICT devices have generally been developed not only for measuring road surface profiles but for various geo-reference point clouds. In this background, the validation of surface profiles acquired with ICT devices fulfils an important role in proving the reliability of measurement result composed by point clouds. This study proposes a wavelet transform agreement (WTA) which involves a normalization factor of profile amplitude for further improvement in the wavelet-based coherence technique. The WTA analysis allows evaluating similarity/dissimilarity of two profiles considering both the location and wavelength simultaneously. For this purpose, a terrestrial laser scanner (TLS), a mobile mapping system (MMS), and an unmanned aerial vehicle (UAV) are employed to prove the advantage of WTA in practical applications. As a result, the advantages of WTA analysis are clearly recognized in the optimization for the measurement interval of TLS, the multi-line measurement of MMS for ride quality improvement of a pavement, and the efficient operation of UAV in terms of the flight altitude. This paper also shows the identification of aging development for surface roughness over time in terms of locations and wavelengths. These findings help not only to guarantee the accuracy of profile measurements but to realize the sophisticated way of using 3D point clouds acquired with ICT devices. The outcomes of this study contribute to the increase of productivity for pavement works with improving the quality of surface profile measurement.

一种适用于点云数据的路面轮廓验证技术的开发
近年来,各种测量三维点云数据的信息通信技术(ICT)设备被开发出来,并广泛应用于路面调查。然而,信息和通信技术设备的开发一般不仅用于测量路面轮廓,而且用于各种地理参考点云。在此背景下,对信息通信技术(ICT)设备获取的地表轮廓进行验证,对于验证由点云组成的测量结果的可靠性具有重要意义。为了进一步改进基于小波的相干技术,本文提出了一种包含剖面幅值归一化因子的小波变换协议。WTA分析允许同时考虑位置和波长来评估两个剖面的相似性/差异性。为此,采用地面激光扫描仪(TLS)、移动测绘系统(MMS)和无人机(UAV)在实际应用中证明了WTA的优势。因此,在TLS测量间隔优化、MMS多线测量改善路面平顺性、无人机飞行高度高效运行等方面,WTA分析的优势得到了清晰的认识。本文还展示了在位置和波长方面对表面粗糙度随时间的老化发展的识别。这些发现不仅有助于保证剖面测量的准确性,而且有助于实现利用ICT设备获得的三维点云的复杂方法。本研究的结果有助于提高路面工程的生产力,改善路面轮廓测量的质量。
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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