Objective evaluation of textile fabric appearance part 1: Basic principles, protrusion detection, and parameterization A Cherkassky, A Weinberg Textile Research Journal 80 (3), 226-235, 2010 | 42 | 2010 |
Electro-optical method and apparatus for evaluating protrusions of fibers from a fabric surface A Cherkassky, A Weinberg US Patent 7,826,642, 2010 | 39 | 2010 |
In situ calibration of hot-film probes using a collocated sonic anemometer: implementation of a neural network E Kit, A Cherkassky, T Sant, HJS Fernando Journal of Atmospheric and Oceanic Technology 27 (1), 23-41, 2010 | 36 | 2010 |
Analysis and simulation of nonwoven irregularity and nonhomogeneity A Cherkassky Textile research journal 68 (4), 242-253, 1998 | 24 | 1998 |
A two-dimensional mathematical model of the carding process A Cherkassky Textile research journal 64 (3), 169-175, 1994 | 23 | 1994 |
Neural network meta‐model of fibrous materials based on discrete‐event simulation. Part 1: discrete‐event simulation model of one‐dimensional fibrous material A Cherkassky The Journal of the Textile Institute 102 (5), 442-454, 2011 | 20 | 2011 |
Discrete‐event simulation model of roll‐drafting process A Cherkassky Journal of the Textile Institute 102 (12), 1044-1058, 2011 | 17 | 2011 |
3-D electronic imaging of fabric qualities by on-line yarn data MW Suh, W Jasper, A Cherkassky, M Gunay, D Han Ann. Rep. Text. Ctr, 2003 | 15 | 2003 |
Objective evaluation of textile fabric appearance. Part 2: Set opti-grade tester, grading algorithms, and testing A Cherkassky, A Weinberg Textile research journal 80 (2), 135-144, 2010 | 14 | 2010 |
A neural network meta-model of roll-drafting process A Cherkassky Journal of the Textile Institute 103 (2), 166-178, 2012 | 10 | 2012 |
Analysis of the smoothing effect of the card cylinder using simulation A Cherkassky Textile research journal 65 (12), 723-730, 1995 | 10 | 1995 |
Neural network meta‐model of fibrous materials based on discrete‐event simulation. Part 2: neural network meta‐model A Cherkassky Journal of the Textile Institute 102 (6), 475-482, 2011 | 9 | 2011 |
Evaluating nonwoven fabric irregularity on the basis of Linnik functionals A Cherkassky Textile research journal 69 (10), 701-708, 1999 | 9 | 1999 |
A computer simulation of yarn breakage in the ring-spinning process. Part I: Model structure, investigation strategy, and experimental design AE Cherkassky, BJ Kit Journal of the Textile Institute 88 (1), 29-46, 1997 | 9 | 1997 |
Surface Uniformity of Nonwovens A Cherkassky Text. Res. J 68, 242, 1998 | 5 | 1998 |
Computer simulation of yarn breakage in the ring-spinning process. Part II: Description and analysis of the simulation results AE Cherkassky, BJ Kit Journal of the Textile Institute 88 (1), 47-70, 1997 | 4 | 1997 |
Two-dimensional analysis of card web irregularity A Cherkassky, B Kit, I Porat Textile research journal 70 (10), 901-909, 2000 | 3 | 2000 |
Improving the Organization of Waste Management Sites: Simulation-Based Analysis E Harison, A Cherkassky, O Barkai International Journal of Environmental Sustainability and Green Technologies …, 2021 | 2 | 2021 |
A combined discrete event—agent based approach to modeling tensile strength of one-dimensional fibrous materials. Face validation and effect of the basic model parameters A Cherkassky, E Bumagin Journal of Textile Science and Technology 1 (02), 45, 2015 | 2 | 2015 |
A Combined Discrete Event, Agent-Based Approach to Modeling the Tensile Strength of One-Dimensional Fibrous Materials: Part 1: Simulations based on fiber slippage A Cherkassky, E Bumagin Journal of Engineered Fibers and Fabrics 9 (4), 155892501400900401, 2014 | 2 | 2014 |