Computer simulation methods of redundant measurements with the nonlinear transformation function

“…However, a given installation cannot be used to determine the impact of the design parameters of guides of complex shape, and the range of change in the angles at which a thread wraps the guide is very limited. When determining the thread tension experimentally, there is a reason to argue about the promising development of redundant measurement methods in different types of transformation function (linear and non-linear) in the field of improving accuracy by processing results from intermediate measurements [14]. The independence of the results of experimental thread tension measurements on the parameters of the transformation function of tensometric devices is confirmed in works [15,16].…”

“…Determining the tension of a thread when interacting with the various guides in the loom feed systems was addressed in works [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. Paper [4] does not take into consideration the actual physical and mechanical properties of a thread, namely its bending rigidity, the non-linear dependence of friction forces on the magnitude of normal pressure, the actual angle at which a thread wraps the guide, and the angle of the radial wrap of the thread by the surface of the guide.…”

“…By solving (7), (10), (14) together, we obtain a system of two transcendental equations regarding the tension of the leading branch of the monothread P 1 :…”

Computer implementation of a recursion algorithm for determining the tension of a thread on technological equipment based on the derived mathematical dependences

“…However, a given installation cannot be used to determine the impact of the design parameters of guides of complex shape, and the range of change in the angles at which a thread wraps the guide is very limited. When determining the thread tension experimentally, there is a reason to argue about the promising development of redundant measurement methods in different types of transformation function (linear and non-linear) in the field of improving accuracy by processing results from intermediate measurements [14]. The independence of the results of experimental thread tension measurements on the parameters of the transformation function of tensometric devices is confirmed in works [15,16].…”

“…Determining the tension of a thread when interacting with the various guides in the loom feed systems was addressed in works [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16]. Paper [4] does not take into consideration the actual physical and mechanical properties of a thread, namely its bending rigidity, the non-linear dependence of friction forces on the magnitude of normal pressure, the actual angle at which a thread wraps the guide, and the angle of the radial wrap of the thread by the surface of the guide.…”

“…By solving (7), (10), (14) together, we obtain a system of two transcendental equations regarding the tension of the leading branch of the monothread P 1 :…”

Computer implementation of a recursion algorithm for determining the tension of a thread on technological equipment based on the derived mathematical dependences

“…Improving the measurement accuracy with nonlinear and unstable transformation functions using redundancy was considered in [17][18][19]. However, approaches to processing the results of multiple measurements with the nonlinear (logarithmic) transformation function have not been studied.…”

Computer simulation of multiple measurements of logarithmic transformation function by two approaches

“…Therefore, to comprehensively solve the problem of increasing the measurement accuracy with a nonlinear and unstable transformation function, it was proposed to use the method of redundant measurements [13][14][15][16]. A distinctive feature of the use of MRM is to obtain Copyright © 2020 MECS I.J.…”

Computer Implementation of Algorithmic Components of Redundant Measurement Methods