Your search keyword '"Saima Rashid"' showing total 16 results

1. Construction of an Approximate Analytical Solution for Multi-Dimensional Fractional Zakharov–Kuznetsov Equation via Aboodh Adomian Decomposition Method

Author

Saima Rashid, Khadija Tul Kubra, and Juan Luis García Guirao

Subjects

Aboodh transform, Caputo fractional derivative, Adomian decomposition method, Zakharov–Kuznetsov equation, Mathematics, QA1-939

Abstract

In this paper, the Aboodh transform is utilized to construct an approximate analytical solution for the time-fractional Zakharov–Kuznetsov equation (ZKE) via the Adomian decomposition method. In the context of a uniform magnetic flux, this framework illustrates the action of weakly nonlinear ion acoustic waves in plasma carrying cold ions and hot isothermal electrons. Two compressive and rarefactive potentials (density fraction and obliqueness) are illustrated. With the aid of the Caputo derivative, the essential concepts of fractional derivatives are mentioned. A powerful research method, known as the Aboodh Adomian decomposition method, is employed to construct the solution of ZKEs with success. The Aboodh transform is a refinement of the Laplace transform. This scheme also includes uniqueness and convergence analysis. The solution of the projected method is demonstrated in a series of Adomian components that converge to the actual solution of the assigned task. In addition, the findings of this procedure have established strong ties to the exact solutions to the problems under investigation. The reliability of the present procedure is demonstrated by illustrative examples. The present method is appealing, and the simplistic methodology indicates that it could be straightforwardly protracted to solve various nonlinear fractional-order partial differential equations.

Published

2021

2. A Novel Analytical View of Time-Fractional Korteweg-De Vries Equations via a New Integral Transform

Author

Saima Rashid, Aasma Khalid, Sobia Sultana, Zakia Hammouch, Rasool Shah, and Abdullah M. Alsharif

Subjects

Shehu transform, Caputo fractional derivative, Shehu decomposition method, new iterative transform method, fractional KdV equation, Mathematics, QA1-939

Abstract

We put into practice relatively new analytical techniques, the Shehu decomposition method and the Shehu iterative transform method, for solving the nonlinear fractional coupled Korteweg-de Vries (KdV) equation. The KdV equation has been developed to represent a broad spectrum of physics behaviors of the evolution and association of nonlinear waves. Approximate-analytical solutions are presented in the form of a series with simple and straightforward components, and some aspects show an appropriate dependence on the values of the fractional-order derivatives that are, in a certain sense, symmetric. The fractional derivative is proposed in the Caputo sense. The uniqueness and convergence analysis is carried out. To comprehend the analytical procedure of both methods, three test examples are provided for the analytical results of the time-fractional KdV equation. Additionally, the efficiency of the mentioned procedures and the reduction in calculations provide broader applicability. It is also illustrated that the findings of the current methodology are in close harmony with the exact solutions. It is worth mentioning that the proposed methods are powerful and are some of the best procedures to tackle nonlinear fractional PDEs.

Published

2021

3. Post Quantum Integral Inequalities of Hermite-Hadamard-Type Associated with Co-Ordinated Higher-Order Generalized Strongly Pre-Invex and Quasi-Pre-Invex Mappings

Author

Humaira Kalsoom, Saima Rashid, Muhammad Idrees, Farhat Safdar, Saima Akram, Dumitru Baleanu, and Yu-Ming Chu

Subjects

quantum calculus, post quantum calculus hermite-hadamard type inequality, strongly pre-invex mappings, co-ordinated generalized higher-order strongly pre-invex mappings, co-ordinated generalized higher-order strongly quasi-pre-invex mappings, Mathematics, QA1-939

Abstract

By using the contemporary theory of inequalities, this study is devoted to proposing a number of refinements inequalities for the Hermite-Hadamard’s type inequality and conclude explicit bounds for two new definitions of ( p 1 p 2 , q 1 q 2 ) -differentiable function and ( p 1 p 2 , q 1 q 2 ) -integral for two variables mappings over finite rectangles by using pre-invex set. We have derived a new auxiliary result for ( p 1 p 2 , q 1 q 2 ) -integral. Meanwhile, by using the symmetry of an auxiliary result, it is shown that novel variants of the the Hermite-Hadamard type for ( p 1 p 2 , q 1 q 2 ) -differentiable utilizing new definitions of generalized higher-order strongly pre-invex and quasi-pre-invex mappings. It is to be acknowledged that this research study would develop new possibilities in pre-invex theory, quantum mechanics and special relativity frameworks of varying nature for thorough investigation.

Published

2020

4. New Multi-Parametrized Estimates Having pth-Order Differentiability in Fractional Calculus for Predominating ℏ-Convex Functions in Hilbert Space

Author

Saima Rashid, Humaira Kalsoom, Zakia Hammouch, Rehana Ashraf, Dumitru Baleanu, and Yu-Ming Chu

Subjects

convex function, η-convex functions, predominating convex functions, hermite–hadamard inequality, predominating η-quasiconvex functions, Mathematics, QA1-939

Abstract

In Hilbert space, we develop a novel framework to study for two new classes of convex function depending on arbitrary non-negative function, which is called a predominating ℏ-convex function and predominating quasiconvex function, with respect to η , are presented. To ensure the symmetry of data segmentation and with the discussion of special cases, it is shown that these classes capture other classes of η -convex functions, η -quasiconvex functions, strongly ℏ-convex functions of higher-order and strongly quasiconvex functions of a higher order, etc. Meanwhile, an auxiliary result is proved in the sense of κ -fractional integral operator to generate novel variants related to the Hermite−Hadamard type for p t h -order differentiability. It is hoped that this research study will open new doors for in-depth investigation in convexity theory frameworks of a varying nature.

Published

2020

5. Quantum Analogs of Ostrowski-Type Inequalities for Raina’s Function correlated with Coordinated Generalized Φ-Convex Functions

Author

Hong-Hu Chu, Humaira Kalsoom, Saima Rashid, Muhammad Idrees, Farhat Safdar, Yu-Ming Chu, and Dumitru Baleanu

Subjects

quantum calculus, ostrowski-type inequalities, coordinated generalized φ-convex functions, raina’s function, Mathematics, QA1-939

Abstract

In this paper, the newly proposed concept of Raina’s function and quantum calculus are utilized to anticipate the quantum behavior of two variable Ostrowski-type inequalities. This new technique is the convolution of special functions with hypergeometric and Mittag−Leffler functions, respectively. This new concept will have the option to reduce self-similitudes in the quantum attractors under investigation. We discuss the implications and other consequences of the quantum Ostrowski-type inequalities by deriving an auxiliary result for a q 1 q 2 -differentiable function by inserting Raina’s functions. Meanwhile, we present a numerical scheme that can be used to derive variants for Ostrowski-type inequalities in the sense of coordinated generalized Φ -convex functions with the quantum approach. This new scheme of study for varying values of parameters with the involvement of Raina’s function yields extremely intriguing outcomes with an illustrative example. It is supposed that this investigation will provide new directions for the capricious nature of quantum theory.

Published

2020

6. Two-Variable Quantum Integral Inequalities of Simpson-Type Based on Higher-Order Generalized Strongly Preinvex and Quasi-Preinvex Functions

Author

Humaira Kalsoom, Saima Rashid, Muhammad Idrees, Yu-Ming Chu, and Dumitru Baleanu

Subjects

quantum calculus, simpson-type inequalities, strongly preinvex functions, co-ordinated higher-order generalized strongly preinvex functions, co-ordinated higher-order generalized strongly quasi-preinvex functions, Mathematics, QA1-939

Abstract

In this paper, we present a new definition of higher-order generalized strongly preinvex functions. Moreover, it is observed that the new class of higher-order generalized strongly preinvex functions characterize various new classes as special cases. We acquire a new q 1 q 2 -integral identity, then employing this identity, we establish several two-variable q 1 q 2 -integral inequalities of Simpson-type within a class of higher-order generalized strongly preinvex and quasi-preinvex functions. Finally, the utilities of our numerical approximations have concrete applications.

Published

2019

7. MADM Based on Generalized Interval Neutrosophic Schweizer-Sklar Prioritized Aggregation Operators

Author

Qaisar Khan, Lazim Abdullah, Tahir Mahmood, Muhammad Naeem, and Saima Rashid

Subjects

interval neutrosophic sets, Schweizer-Sklar operations, prioritized aggregation operator, decision making, Mathematics, QA1-939

Abstract

The interval neutrosophic set (INS) can make it easier to articulate incomplete, indeterminate, and inconsistent information, and the Schweizer-Sklar (Sh-Sk) t-norm (tm) and t-conorm (tcm) can make the information aggregation process more flexible due to a variable parameter. To take full advantage of INS and Sh-Sk operations, in this article, we expanded the Sh-Sk and to IN numbers (INNs) in which the variable parameter takes values from , develop the Sh-Sk operational laws for INNs and discussed its desirable properties. After that, based on these newly developed operational laws, two types of generalized prioritized aggregation operators are established, the generalized IN Sh-Sk prioritized weighted averaging (INSh-SkPWA) operator and the generalized IN Sh-Sk prioritized weighted geometric (INSh-SkPWG) operator. Additionally, we swot a number of valuable characteristics of these intended aggregation operators (AGOs) and created two novel decision-making models to match with multiple-attribute decision-making (MADM) problems under IN information established on INSh-SkPWA and INSh-SkPRWG operators. Finally, an expressive example regarding evaluating the technological innovation capability for the high-tech enterprises is specified to confirm the efficacy of the intended models.

Published

2019

8. Quantum Analogs of Ostrowski-Type Inequalities for Raina's Function correlated with Coordinated Generalized Φ-Convex Functions.

Author

Honghu Chu, Humaira Kalsoom, Saima Rashid, Muhammad Idrees, Farhat Safdar, Yu-Ming Chu 0001, and Dumitru Baleanu

Published

2020

9. Two-Variable Quantum Integral Inequalities of Simpson-Type Based on Higher-Order Generalized Strongly Preinvex and Quasi-Preinvex Functions.

Author

Humaira Kalsoom, Saima Rashid, Muhammad Idrees, Yu-Ming Chu 0001, and Dumitru Baleanu

Published

2020

10. Fractional Integral Inequalities for Strongly h -Preinvex Functions for a kth Order Differentiable Functions.

Author

Saima Rashid, Muhammad Amer Latif, Zakia Hammouch, and Yu-Ming Chu 0001

Published

2019

11. Construction of an Approximate Analytical Solution for Multi-Dimensional Fractional Zakharov–Kuznetsov Equation via Aboodh Adomian Decomposition Method

Author

Juan Luis García Guirao, Khadija Tul Kubra, and Saima Rashid

Subjects

Partial differential equation, Caputo fractional derivative, Physics and Astronomy (miscellaneous), Series (mathematics), Laplace transform, General Mathematics, Aboodh transform, Context (language use), Zakharov–Kuznetsov equation, Fractional calculus, Nonlinear system, Chemistry (miscellaneous), Computer Science (miscellaneous), QA1-939, Applied mathematics, Adomian decomposition method, Uniqueness, Mathematics

Abstract

In this paper, the Aboodh transform is utilized to construct an approximate analytical solution for the time-fractional Zakharov–Kuznetsov equation (ZKE) via the Adomian decomposition method. In the context of a uniform magnetic flux, this framework illustrates the action of weakly nonlinear ion acoustic waves in plasma carrying cold ions and hot isothermal electrons. Two compressive and rarefactive potentials (density fraction and obliqueness) are illustrated. With the aid of the Caputo derivative, the essential concepts of fractional derivatives are mentioned. A powerful research method, known as the Aboodh Adomian decomposition method, is employed to construct the solution of ZKEs with success. The Aboodh transform is a refinement of the Laplace transform. This scheme also includes uniqueness and convergence analysis. The solution of the projected method is demonstrated in a series of Adomian components that converge to the actual solution of the assigned task. In addition, the findings of this procedure have established strong ties to the exact solutions to the problems under investigation. The reliability of the present procedure is demonstrated by illustrative examples. The present method is appealing, and the simplistic methodology indicates that it could be straightforwardly protracted to solve various nonlinear fractional-order partial differential equations.

Published

2021

12. Post Quantum Integral Inequalities of Hermite-Hadamard-Type Associated with Co-Ordinated Higher-Order Generalized Strongly Pre-Invex and Quasi-Pre-Invex Mappings

Author

Saima Rashid, Muhammad Idrees, Saima Akram, Dumitru Baleanu, Yu-Ming Chu, Humaira Kalsoom, and Farhat Safdar

Subjects

co-ordinated generalized higher-order strongly pre-invex mappings, Pure mathematics, Physics and Astronomy (miscellaneous), General Mathematics, Mathematics::Classical Analysis and ODEs, 02 engineering and technology, Special relativity, Quantum calculus, Type (model theory), quantum calculus, 01 natural sciences, Hadamard transform, 0202 electrical engineering, electronic engineering, information engineering, Computer Science (miscellaneous), Order (group theory), Differentiable function, 0101 mathematics, post quantum calculus hermite-hadamard type inequality, Mathematics, Hermite polynomials, lcsh:Mathematics, 010102 general mathematics, lcsh:QA1-939, co-ordinated generalized higher-order strongly quasi-pre-invex mappings, strongly pre-invex mappings, Chemistry (miscellaneous), 020201 artificial intelligence & image processing, Symmetry (geometry)

Abstract

By using the contemporary theory of inequalities, this study is devoted to proposing a number of refinements inequalities for the Hermite-Hadamard&rsquo, s type inequality and conclude explicit bounds for two new definitions of ( p 1 p 2 , q 1 q 2 ) -differentiable function and ( p 1 p 2 , q 1 q 2 ) -integral for two variables mappings over finite rectangles by using pre-invex set. We have derived a new auxiliary result for ( p 1 p 2 , q 1 q 2 ) -integral. Meanwhile, by using the symmetry of an auxiliary result, it is shown that novel variants of the the Hermite-Hadamard type for ( p 1 p 2 , q 1 q 2 ) -differentiable utilizing new definitions of generalized higher-order strongly pre-invex and quasi-pre-invex mappings. It is to be acknowledged that this research study would develop new possibilities in pre-invex theory, quantum mechanics and special relativity frameworks of varying nature for thorough investigation.

Published

2020

13. New Multi-Parametrized Estimates Having pth-Order Differentiability in Fractional Calculus for Predominating ℏ-Convex Functions in Hilbert Space

Author

Rehana Ashraf, Humaira Kalsoom, Yu-Ming Chu, Dumitru Baleanu, Saima Rashid, and Zakia Hammouch

Subjects

Pure mathematics, predominating η-quasiconvex functions, Physics and Astronomy (miscellaneous), General Mathematics, MathematicsofComputing_GENERAL, 01 natural sciences, Convexity, Quasiconvex function, symbols.namesake, Hermite–Hadamard inequality, Computer Science (miscellaneous), Differentiable function, 0101 mathematics, η-convex functions, Mathematics, convex function, lcsh:Mathematics, 010102 general mathematics, Hilbert space, Function (mathematics), lcsh:QA1-939, hermite–hadamard inequality, Fractional calculus, 010101 applied mathematics, TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES, Chemistry (miscellaneous), symbols, predominating convex functions, Computer Science::Programming Languages, Convex function

Abstract

In Hilbert space, we develop a novel framework to study for two new classes of convex function depending on arbitrary non-negative function, which is called a predominating ℏ-convex function and predominating quasiconvex function, with respect to &eta, are presented. To ensure the symmetry of data segmentation and with the discussion of special cases, it is shown that these classes capture other classes of &eta, convex functions, &eta, quasiconvex functions, strongly ℏ-convex functions of higher-order and strongly quasiconvex functions of a higher order, etc. Meanwhile, an auxiliary result is proved in the sense of &kappa, fractional integral operator to generate novel variants related to the Hermite&ndash, Hadamard type for p t h -order differentiability. It is hoped that this research study will open new doors for in-depth investigation in convexity theory frameworks of a varying nature.

Published

2020

14. Two-Variable Quantum Integral Inequalities of Simpson-Type Based on Higher-Order Generalized Strongly Preinvex and Quasi-Preinvex Functions

Author

Saima Rashid, Muhammad Idrees, Humaira Kalsoom, Yu-Ming Chu, and Dumitru Baleanu

Subjects

strongly preinvex functions, Pure mathematics, Class (set theory), Physics and Astronomy (miscellaneous), General Mathematics, 02 engineering and technology, Quantum calculus, Type (model theory), quantum calculus, 01 natural sciences, Identity (mathematics), co-ordinated higher-order generalized strongly quasi-preinvex functions, 0202 electrical engineering, electronic engineering, information engineering, Computer Science (miscellaneous), Order (group theory), simpson-type inequalities, 0101 mathematics, Quantum, Variable (mathematics), Mathematics, lcsh:Mathematics, 010102 general mathematics, lcsh:QA1-939, co-ordinated higher-order generalized strongly preinvex functions, Chemistry (miscellaneous), 020201 artificial intelligence & image processing

Abstract

In this paper, we present a new definition of higher-order generalized strongly preinvex functions. Moreover, it is observed that the new class of higher-order generalized strongly preinvex functions characterize various new classes as special cases. We acquire a new q 1 q 2 -integral identity, then employing this identity, we establish several two-variable q 1 q 2 -integral inequalities of Simpson-type within a class of higher-order generalized strongly preinvex and quasi-preinvex functions. Finally, the utilities of our numerical approximations have concrete applications.

Published

2019

15. Fractional Integral Inequalities for Strongly h -Preinvex Functions for a kth Order Differentiable Functions

Author

Yu-Ming Chu, Muhammad Latif, Saima Rashid, and Zakia Hammouch

Subjects

Pure mathematics, Mathematical problem, Physics and Astronomy (miscellaneous), Riemann-Liouville integral operator, kth-order differentiablity, General Mathematics, 010102 general mathematics, Estimates of upper bound, Type (model theory), strongly ɧ-preinvex functions, 01 natural sciences, 010101 applied mathematics, Identity (mathematics), Operator (computer programming), Chemistry (miscellaneous), Computer Science (miscellaneous), Order (group theory), Differentiable function, 0101 mathematics, Mathematics

Abstract

The objective of this paper is to derive Hermite-Hadamard type inequalities for several higher order strongly h -preinvex functions via Riemann-Liouville fractional integrals. These results are the generalizations of the several known classes of preinvex functions. An identity associated with k-times differentiable function has been established involving Riemann-Liouville fractional integral operator. A number of new results can be deduced as consequences for the suitable choices of the parameters h and &sigma, Our outcomes with these new generalizations have the abilities to be implemented for the evaluation of many mathematical problems related to real world applications.

Published

2019

16. MADM Based on Generalized Interval Neutrosophic Schweizer-Sklar Prioritized Aggregation Operators

Author

Lazim Abdullah, Tahir Mahmood, Saima Rashid, Muhammad Naeem, and Qaisar Khan

Subjects

0209 industrial biotechnology, Mathematical optimization, Physics and Astronomy (miscellaneous), Computer science, Process (engineering), lcsh:Mathematics, General Mathematics, prioritized aggregation operator, 02 engineering and technology, Interval (mathematics), lcsh:QA1-939, decision making, Operational laws, interval neutrosophic sets, Variable (computer science), 020901 industrial engineering & automation, Operator (computer programming), Schweizer-Sklar operations, Chemistry (miscellaneous), Information aggregation, 0202 electrical engineering, electronic engineering, information engineering, Computer Science (miscellaneous), 020201 artificial intelligence & image processing, Indeterminate, SWOT analysis

Abstract

The interval neutrosophic set (INS) can make it easier to articulate incomplete, indeterminate, and inconsistent information, and the Schweizer-Sklar (Sh-Sk) t-norm (tm) and t-conorm (tcm) can make the information aggregation process more flexible due to a variable parameter. To take full advantage of INS and Sh-Sk operations, in this article, we expanded the Sh-Sk and to IN numbers (INNs) in which the variable parameter takes values from [ ∞ − , 0 ) , develop the Sh-Sk operational laws for INNs and discussed its desirable properties. After that, based on these newly developed operational laws, two types of generalized prioritized aggregation operators are established, the generalized IN Sh-Sk prioritized weighted averaging (INSh-SkPWA) operator and the generalized IN Sh-Sk prioritized weighted geometric (INSh-SkPWG) operator. Additionally, we swot a number of valuable characteristics of these intended aggregation operators (AGOs) and created two novel decision-making models to match with multiple-attribute decision-making (MADM) problems under IN information established on INSh-SkPWA and INSh-SkPRWG operators. Finally, an expressive example regarding evaluating the technological innovation capability for the high-tech enterprises is specified to confirm the efficacy of the intended models.

Published

2019