【作者】 徐飞龙；

【导师】 徐向舟；

【作者基本信息】 大连理工大学 ， 水文学及水资源， 2011， 硕士

【摘要】 地形参数测量是实体模型试验研究中的重要内容,高性能的观测技术对提高模拟结果的准确性有重要意义。本文首先回顾了前人在地形测量技术方面的研究成果,结合光学技术、激光技术及计算机图像技术,提出了基于线结构光法的实验地貌观测技术,并设计了基于该测量技术原理的测量系统。然后,通过率定实验分析了测量系统的误差,讨论了图像数据处理、地形等值线和地形三维数据的建立方法及其过程。最后,将本测量技术应用于实体河工模型地形的测量中,通过与传统测量方法的观测结果对比,综合分析了基于线结构光法的地形测量技术性能。研究的主要成果如下：(1)设计并优化了基于线结构光法的应用于实验地貌观测的W型和G型地貌仪。W型地貌仪适合于实体河工模型的表面精确测量和精细建模,适用于静态目标地形参数的测量。G型地貌仪适合于沟坡地形的实时观测,特别适用于沟坡重力侵蚀的定量观测。这两种地貌仪都可快速地采集模型地形参数,形成地形等值线数据或等高线数据,建立地形三维模型,实现三维分析计算。(2)多线结构光法是一种观测精度和效率较高、非接触式的测量方法,在三维地形测量中具有一定的实用性,同时在地形精细测量、精确建模方面有更大应用潜力。在三维实体河工模型地形应用测量中,从断面测点的平面及高程测量值、地形等高线数据、三维建模以及图像数据处理效率几个方面,与传统的测针法进行对比分析发现,多线结构光法在实验地貌的测量中具有较好的测量效果。(3)多线结构光测量系统能满足实验地貌的高差测量精度要求,地形图像畸变经合理布置密度的网格校准点矫正后,畸变误差得到有效控制。以W型地貌仪为例,对激光源在平面测量量程范围内的高差测量误差进行分析发现,激光平面间距的满量程相对误差小于5‰,绝对误差小于1mm。对比经网格校准点矫正前后的图像畸变误差,结果表明,图像畸变矫正效果显著,矫正后的图像测点误差明显下降,有效地提高了地形的测量精度。更多还原

【Abstract】 The measurement of the topography parameters is important in the physical model experiments. The high-performance techniques can improve the accuracy of the simulation results a lot. Firstly, this paper reviewed the results of previous researchers at topographic survey technical, proposed a method of line-structure light in experimental landform survey and designed the landform survey instrument based on the technology principle. Secondly, the article analyzed the measurement system error and discussed the process of the image dates. Finally, the landform survey technology based on line-structure light was used to measure the physical river model, and then analyzed the performance of the landform survey instrument by compared with traditional methods. The main research results are as fallows:(1) Work has been done to design the W and G Landform survey instrument based on the linear structured light vision measuring technology. The former is suitable for physical river model measurements with high precision and fine surface modeling. And the precision of the new technology is remarkable in static target terrain measurement and high observation efficiency. The G topographic meter is particularly suitable for observing the slope-gully erosion topography in real time, and can be easily calculate the erosion volume. Both of them can acquire the data quickly and accurately, and then be used to form the terrain isoline value maps, establish 3D surface model, and terrain 3D calculation.(2) The method of multi-line structured light is a non-contact survey method with high precision and efficiency, and has a good practicability on the survey in the 3D physical river model. Compared to the method of survey probe, the method of multi-line structured light would perform better on surveying and simulating the landform. From the analysis of linear regression and statistics, the measurement error of W topography meter was evaluated based on the section point value of the elevation and plane on the 3D physical river model, which were surveyed by W topography meter and the method of traditional survey probe. The studies have uncovered that the measurement accuracy of the W topographic meter is better than the method of traditional survey probe.(3) The accuracy of the multi-line structured light can be satisfied the requirements of general measurement in the small scope terrain. The topography survey is affected by the topography image distortion. However, the distortion error of the topography image can be effectively controlled if the calibration point density was reasonably arranged and adjusted. Taking the W topographic meter for example, it can be uncovered that the full scale of the of the multi-light structured planes is less than 5‰, and the absolute error is less than 1 mm. The error can be reduced evidently after the distortion adjusting.更多还原