Improving performance of an omnidirectional range sensor for 3D modeling of environments

2016 10th International Conference on Sensing Technology (ICST) Pub Date : 2016-11-01 DOI:10.1109/ICSENST.2016.7796230

R. Marani, N. Mosca, V. Renó, M. Nitti, G. Cicirelli, E. Stella, T. D’orazio

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Abstract

High resolution in distance (range) measurements can be achieved by means of accurate instrumentations and precise analytical models. This paper reports an improvement in the estimation of distance measurements performed by an omnidirectional range sensor already presented in literature. This sensor exploits the principle of laser triangulation, together with the advantages brought by catadioptric systems, which allow the reduction of the sensor size without decreasing the resolution. Starting from a known analytical model in two dimensions (2D), the paper shows the development of a fully 3D formulation where all initial constrains are removed to gain in measurement accuracy. Specifically, the ray projection problem is solved by considering that both the emitter and the receiver have general poses in a global system of coordinates. Calibration is thus made to estimate their poses and compensate for any misalignment with respect to the 2D approximation. Results prove an increase in the measurement accuracy due to the more general formulation of the problem, with a remarkable decrease of the uncertainty.

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改进全向距离传感器的三维环境建模性能

通过精确的仪器和精确的分析模型，可以实现距离(范围)测量的高分辨率。本文报道了文献中已经提出的全向距离传感器对距离测量估计的改进。该传感器利用激光三角测量原理，结合反射系统带来的优势，可以在不降低分辨率的情况下减小传感器尺寸。从二维(2D)的已知分析模型开始，本文展示了一个完全3D公式的发展，其中所有初始约束都被删除以获得测量精度。具体地说，考虑到发射器和接收器在全局坐标系中具有一般位姿，从而解决了射线投影问题。因此，进行校准以估计它们的姿势并补偿相对于二维近似的任何不校准。结果表明，由于问题的更一般的表述，测量精度得到了提高，不确定度显著降低。

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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2016 10th International Conference on Sensing Technology (ICST)

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