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Infrared and Laser Engineering, Volume. 51, Issue 8, 20210786(2022)

A design and implementation of full waveform hyperspectral LiDAR for ancient architecture modelling

Hui Shao1, Beining Sa1、*, Wei Li2, Yuwei Chen3,4, Lu Liu1,5, Jie Chen1,5, Long Sun1,5, and Yuxia Hu1,5
Author Affiliations
  • 1School of Electronic and Information Engineering, Anhui Jianzhu University, Hefei 230601, China
  • 2Institute of Unmanned System, Beihang University, Beijing 100191, China
  • 3Finnish Geospatial Research Institute, Masala 02430, Finland
  • 4Ji Hua Laboratory, Foshan 528200, China
  • 5Anhui International Joint Research Center for Ancient Architecture Intellisencing and Multi-Dimensional Modeling, Hefei 230601, China
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    [1] Q Chun, B K Van, J W Pan, et al. Structural performance and repair methodology of the Wenxing lounge bridge in China. International Journal of Architectural Heritage, 9, 730-743(2015).

    [2] H Q Li, Y Yu, X Yu. On fire protection problems and its countermeasures about Chinese ancient architecture. Applied Mechanics and Materials, 204-208, 3365-3368(2012).

    [3] M Murphy, E McGovern, S Pavia. Historic building information modelling-Adding intelligence to laser and image based surveys of European classical architecture. ISPRS Journal of Photogrammetry and Remote Sensing, 76, 89-102(2013).

    [4] M Wang. Research on the application of three-dimensional laser scanning technology in the surveying and mapping of ancient buildings in the Forbidden City. Palace Museum Journal, 6, 143-156(2011).

    [5] L Song, X Li, Y G Yang, et al. Structured-light based 3D reconstruction system for cultural relic packaging. Sensors, 18, 2981(2018).

    [6] H Shao, Y W Chen, C H Jiang, et al. Feasibility study on hyperspectral LiDAR for ancient Huizhou-style architecture preservation. Remote Sensing, 12, 88(2020).

    [7] Y Yang, X T Jiang, Y H Kuang. Arithmetic of 3-D house reconstruction based on graphics understanding. Information and Electronic Engineering, 9, 105-108(2011).

    [8] Z Sun, Y K Cao, Y Y Zhang. Applications of image-based modeling in architectural heritage surveying. Research on Heritage and Preservation, 30-36(2018).

    [9] A M Ivan, B Luigi, S Marco, et al. Mapping infrared data on terrestrial laser scanning 3D models of buildings. Remote Sensing, 3, 1847-1870(2011).

    [10] A Costanzo, M Minasi, G Casula, et al. Combined use of terrestrial laser scanning and IR thermography applied to a historical building. Sensors, 15, 194-213(2015).

    [11] A Murtiyoso, P Grussenmeyer, D Suwardhi, et al. Multi-scale and multi-sensor 3D documentation of heritage complexes in urban areas. ISPRS International Journal of Geo-Information, 7, 483(2018).

    [12] Q W Hu, S H Wang, C W Fu, et al. Fine surveying and 3D modeling approach for wooden ancient architecture via multiple laser scanner integration. Remote Sensing, 8, 270(2016).

    [13] S Kaasalainen, T Lindroos, J Hyyppä. Toward hyperspectral lidar: Measurement of spectral backscatter intensity with a supercontinuum laser source. IEEE Geoscience and Remote Sensing Letters, 4, 211-215(2007).

    [14] Y W Chen, E Räikkönen, S Kaasalainen, et al. Two-channel hyperspectral LiDAR with a supercontinuum laser source. Sensors, 10, 7057-7066(2010).

    [15] Y W Chen, C H Jiang, J Hyyppä, et al. Feasibility study of ore classification using active hyperspectral LiDAR. IEEE Geoscience & Remote Sensing Letters, 15, 1785-1789(2018).

    [16] H Shao, Y W Chen, C H Jiang, et al. A 91-channel hyperspectral LiDAR for coal/rock classification. IEEE Geosci Remote Sensing Lett, 76, 1052-1056(2020).

    [17] C H Jiang, Y W Chen, W X Tian, et al. A practical method utilizing multi-spectral LiDAR to aid points cloud matching in SLAM. Satellite Navigation, 1, 29(2020).

    [18] Z X He, H Shao, H Guo, et al. Classification of coal/rock based on hyperspectral LiDAR calibration-free signals. Infrared and Laser Engineering, 50, 20200518(2021).

    [19] [19] Gebhart S C, Stokes D L, Vodinh T, et al. Instrumentation considerations in spectral imaging f tissue demarcation: comparing three methods of spectral resolution[C]Proceedings of SPIE, 2005, 5694: 4152.

    [20] F Pedregosa, G Varoquaux, A Gramfort, et al. Scikit-learn: Machine learning in python. Journal of Machine Learning Research, 12, 2825-2830(2011).

    CLP Journals

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    [2] Kai Yu, Qi Guo, Na Li, Chi Cheng, Huijie Zhao. Spectral calibration method for mid-infrared AOTF imagers[J]. Infrared and Laser Engineering, 2023, 52(12): 20230291

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    Hui Shao, Beining Sa, Wei Li, Yuwei Chen, Lu Liu, Jie Chen, Long Sun, Yuxia Hu. A design and implementation of full waveform hyperspectral LiDAR for ancient architecture modelling[J]. Infrared and Laser Engineering, 2022, 51(8): 20210786

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    Paper Information

    Category: Lasers & Laser optics

    Received: Oct. 26, 2021

    Accepted: Jan. 7, 2022

    Published Online: Jan. 9, 2023

    The Author Email: Sa Beining (shadow4u@foxmail.com)

    DOI:10.3788/IRLA20210786

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology