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    Journals >Acta Photonica Sinica >Volume 51 >Issue 11 >Page 1112002 > Article
    • Acta Photonica Sinica
    • Vol. 51, Issue 11, 1112002 (2022)
    Research on Flow Field Detection System with High Precision Based on Background Oriented Schlieren
    Shiwei LIU1、2, Haiping MEI2、*, Yichong REN2, Zhiwei TAO1、2, Azezigul Abdukirim2, Junxin ZHANG2, Yanling LI2, and Ruizhong RAO2
    Author Affiliations
  • 1School of Environmental Science and Optoelectronic Technology,University of Science and Technology of China,Hefei 230026,China
  • 2Key Laboratory of Atmospheric Optics,Anhui Institute of Optics and Fine Mechanics,Hefei Institutes of Physical Science,Chinese Academy of Sciences,Hefei 230031,China
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    DOI: 10.3788/gzxb20225111.1112002 Cite this Article
    Shiwei LIU, Haiping MEI, Yichong REN, Zhiwei TAO, Azezigul Abdukirim, Junxin ZHANG, Yanling LI, Ruizhong RAO. Research on Flow Field Detection System with High Precision Based on Background Oriented Schlieren[J]. Acta Photonica Sinica, 2022, 51(11): 1112002 Copy Citation Text show less
    References

    [1] Jiechuan FAN. Modern flow visualization(2002).

    [2] G E A MEIER. New optical tools for fluid mechanics. Sadhana, 23, 557-567(1998).

    [3] H RICHARD, M RAFFEL. Principle and applications of the background oriented schlieren (BOS) method. Measurement Science & Technology, 12, 1576-1585(2001).

    [4] D RAMANAH, S RAGHUNATH, D J MEE et al. Background oriented schlieren for flow visualisation in hypersonic impulse facilities. Shock Waves, 17, 65-70(2007).

    [5] L VENKATAKRISHNAN, G E A MEIER. Density measurements using the background oriented schlieren. Experiments in Fluids, 37, 237-247(2004).

    [6] M J HARGATHER, G S SETTLES. Natural-background-oriented schlieren imaging. Experiments in Fluids, 48, 59-68(2010).

    [7] E GOLDHAHN, J SEUME. The background oriented schlieren technique: sensitivity, accuracy, resolution and application to a three-dimensional density field. Experiments in Fluids, 43, 241-249(2007).

    [8] A B GOJANI, S OBAYASHI. Assessment of some experimental and image analysis factors for background-oriented schlieren measurements. Applied Optics, 51, 7554-7559(2012).

    [9] O A YEVTIKHIYEVA, N M SKORNYAKOVA, A V UDALOY. An investigation of the error of the background schlieren method. Measurement Techniques, 52, 1300-1305(2009).

    [10] Lifeng TIAN, Shihe YI, Yuxin ZHAO et al. Aero-optical wavefront measurement technique based on BOS and its applications. Chinese Science Bulletin, 56, 1515-1521(2011).

    [11] Yue ZHANG, Xu WANG, Yun SU et al. High-precision atmospheric disturbance detection method for moving objects. Acta Optica Sinica, 41, 0228002(2021).

    [12] B ATCHESON, W HEIDRICH, I IHRKE. An evaluation of optical flow algorithms for background oriented schlieren imaging. Experiments in Fluids, 46, 467-476(2009).

    [13] B K HORN, B SCHUNCK. Determining optical flow. Aritficial Intelligence Laboratory, 7, 185-203(1981).

    [14] B D LUCAS, T KANADA. An iterative image registration technique with an application to stereo vision, 674-679(1981).

    [15] J W GOODMAN. Speckle phenomena in optics: theory and applications. CAO Qizhi, CHEN Jiabi, transl, 310-312(2009).

    [16] G FARNEBACK. Polynomial expansion for orientation and motion estimation. Linköping University Sweden(2002).

    [17] P WEINZAEPFEL, J REVAUD, Z HARCHAOUI et al. Deepflow: large displacement optical flow with deep matching, 1385-1392(2013).

    [18] J WULFF, M J BLACK. Efficient sparse-to-dense optical flow estimation using a learned basis and layers, 120-130(2015).

    [19] C ZACH, T POCK, H BISCHOF. A duality based approach for realtime TV-L1 optical flow, 214-223(2007).

    [20] Lin SUN, Ling WU, Niannian CHEN. Comparison of Hartmann wavefront reconstruction algorithm based on Fourier transform. Laser Journal, 40, 52-57(2019).

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    Shiwei LIU, Haiping MEI, Yichong REN, Zhiwei TAO, Azezigul Abdukirim, Junxin ZHANG, Yanling LI, Ruizhong RAO. Research on Flow Field Detection System with High Precision Based on Background Oriented Schlieren[J]. Acta Photonica Sinica, 2022, 51(11): 1112002
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