Adaptive Threshold and Weighted Frequency Domain Histogram of Local Binary Patterns
Downloads
Wire ropes are crucial load-bearing components in mining conveyance equipment, and machine vision is one of the methods used to assess the surface damage condition of wire ropes. In response to the light-sensitive nature of local binary patterns, which leads to issues such as differing feature values for similar textures and susceptibility to the influence of excessively large or small pixels within local windows, hindering the accurate reflection of window structure information and exacerbating the introduction of considerable feature noise, an investigation is conducted. To enhance the gradient structural information among pixels within local pixel window, an adaptive threshold binary pattern feature operator is proposed. This operator utilizes the mean and variance within the local window to balance the central pixel value, thereby enhancing the interconnection among neighboring pixels. To perform feature selection on block histograms, a block-weighted approach is employed. This approach utilizes the concept of block weighting and employs correlation coefficients to preprocess feature vectors, thereby enhancing classification accuracy. The algorithm experiments were conducted on a dataset of mine wire ropes. The results indicate that the improved local binary pattern significantly enhances the classification accuracy of the wire rope dataset, achieving an accuracy of 97.3%.
Liu Q, Song Y, Tang Q, et al. Wire rope defect identification based on ISCM-LBP and GLCM features[J]. The Visual Computer, 2023: 1-13.
Zhang Y, Cao G, Wang G. Vision-based measurement for the transverse-longitudinal-rotational displacement of hoisting rope by modified Lucas-Kanade algorithm[J]. IEEE Transactions on Instrumentation and Measurement, 2023.
Zhang Y, Cao G, Zhu Z, et al. Dynamic displacement measurement of hoisting rope in lateral and longitudinal direction by improving Lucas-Kanade algorithm[J]. Measurement, 2023: 113184.
Zhang N, Cao G, Zhu Z, et al. Nonlinear dynamics of time-varying curvature balance rope coupled with time-varying length hoisting rope in friction hoisting system[J]. Journal of Sound and Vibration, 2023, 567: 117910.
Chang X, Peng Y, Zhu Z, et al. Tribological behavior and mechanical properties of transmission wire rope bending over sheaves under different sliding conditions[J]. Wear, 2023, 514: 204582.
Tian J, Zhao C, Wang W, et al. Detection technology of mine wire rope based on radial magnetic vector with flexible printed circuit[J]. IEEE Transactions on Instrumentation and Measurement, 2021, 70: 1-10.
Li C, Wang D, Sun Y, et al. Bending fatigue damage behavior of wire rope in hoisting system of drilling rig[J]. Tribology International, 2023, 187: 108745.
Peng Y, Huang K, Ma C, et al. Friction and wear of multiple steel wires in a wire rope[J]. Friction, 2023, 11(5): 763-784.
Tytko A, Olszyna G, Kocór G, et al. Some Stochastic Aspects of Safety Work of Steel Wire Ropes Used in Mining-Shaft Hoists[J]. Sustainability, 2023, 15(9): 7590.
Siostrzonek T. The Mine Shaft Energy Storage System—Implementation Threats and Opportunities[J]. Energies, 2023, 16(15): 5615.
Ojala T, Pietikäinen M, Harwood D. A comparative study of texture measures with classification based on featured distributions[J]. Pattern recognition, 1996, 29(1): 51-59.
Nguyen D T, Zong Z, Ogunbona P, et al. Object detection using non-redundant local binary patterns[C]//2010 IEEE international conference on image processing. IEEE, 2010: 4609-4612.
Ahonen T, Hadid A, Pietikainen M. Face Recognition with Local Binary Patterns[M]. IEEE Computer Society, 2006.
Ojala T, Pietikainen M, Maenpaa T. Multiresolution gray-scale and rotation invariant texture classification with local binary patterns[J]. IEEE Transactions on pattern analysis and machine intelligence, 2002, 24(7): 971-987.
Pietikainen, M., T. Ojala and Z. Xu, Rotation-invariant texture classification using feature distributions[J]. Pattern Recognition, 2000.33(1): p.43-52.
Tan X, Triggs B. Enhanced Local Texture Feature Sets for Face Recognition Under Difficult Lighting Conditions[J]. IEEE Trans Image Process, 2010(6).
Jabid T, Kabir M H, Chae O. Gender Classification Using Local Directional Pattern (LDP)[J]. IEEE Computer Society, 2010.
T., C., et al., LOOP Descriptor: Local Optimal-Oriented Pattern[J]. IEEE Signal Processing Letters,2018.25(5): p.635-639.
Liao S, Zhu X, Lei Z, et al. Learning multi-scale block local binary patterns for face recognition[C]//Advances in Biometrics: International Conference, ICB 2007, Seoul, Korea, August 27-29, 2007. Proceedings. Springer Berlin Heidelberg, 2007: 828-837.
