An improved linear fractional model for robustness analysis of a winding system

“…The polytopic LPV filter performances are tested on a real winding process. This process is well-known in the industry where identification model for control or FDI is still an open research field as in (Knittel et al, 2003;Laroche and Knittel, 2005;Ponsart et al, 2010).…”

Sensor fault detection and isolation filter for polytopic LPV systems: A winding machine application

“…The polytopic LPV filter performances are tested on a real winding process. This process is well-known in the industry where identification model for control or FDI is still an open research field as in (Knittel et al, 2003;Laroche and Knittel, 2005;Ponsart et al, 2010).…”

Sensor fault detection and isolation filter for polytopic LPV systems: A winding machine application

“…Because of its fabulous opportunity and uses in numerous fields, an extensive consideration has been given to exact and numerical solutions of fractional differential equations. An abundant deal of researchers has exposed the beneficial use of the fractional calculus in the forming and mechanism of numerous dynamical structures [3][4][5][6][7][8][9][10][11][12][13][14]. In addition to forming of different modeling features of these fractional ordered differential equations, the solution procedures and their consistency are rather more vital characteristics.…”

Numerical method for fractional dispersive partial differential equations

“…Fractional calculus has become the focus of interest for many researchers in different disciplines of science and technology [1][2][3][4][5]. A great deal of research has shown the advantageous use of the fractional calculus in the modeling and control of many dynamical systems [1][2][3][4][5][6][7][8].…”

Numerical solution of fractional differential equations using the generalized block pulse operational matrix