Study on the Impact of Size and Position of the Shear Field in Determining the Shear Modulus of Glulam Beam Using Photogrammetry Approach
 BSI, BS EN 408:2010+A1:2012: Timber structures - Structural Timber
and Glued Laminated Timber - Determination of Some Physical and
Mechanical Properties. London, UK: The British Standards Institution,
 D. S. Riyanto and R. Gupta, “A Comparison of Test Methods for
Evaluating Shear Strength of Structural Lumber,” Forest Products
Journal, vol. 48, no. 2, pp. 83–90, 1998.
 R. Brandner, B. Freytag, and G. Schickhofer, “Determination of shear
modulus by means of standardized four-point bending tests,” in CIB W18,
no. August, St. Andrews, Canada, 2008, pp. 41–21–1.
 R. Brandner, E. Gehri, T. Bogensperger, and G. Schickhofer,
“Determination of modulus of shear and elasticity of glued laminated
timber and related examinations,” in CIB-W18, Bled, Slovenia, 2007, pp.
 BSI, BS EN 338:2016: BSI, Structural Timber Strength Classes. London,
UK: The British Standards Institution, 2016.
 C. Wohler, 3D computer vision: efficient methods and applications,
2nd ed. London, UK: Springer, 2013.
 A. Valsaraj, A. Barik, P. Vishak, and K. Midhun, “Stereo Vision System
Implemented on FPGA,” Procedia Technology, vol. 24, pp. 1105–1112,
 N. Gharavi, H. Zhang, Y. Xie, and T. He, “End effect on determining shear
modulus of timber beams in torsion tests,” Construction and Building
Materials, vol. 164, pp. 442–450, 2018.