Differential Games for an Infinite 2-Systems of Differential Equations

Тухтасинов, М.; Ibragimov, Gafurjan; Kuchkarova, Sarvinoz; Hasim, Risman Mat

doi:10.3390/math9131467

Cited by 9 publications

(8 citation statements)

References 28 publications

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“…Khalifa and Kumar [21] investigated cooperative continuous static games in a crisp environment, defining and determining the first-kind stability set corresponding to the solution without differentiability. Under uncertainty environment, some recent researchers for cooperative games have been introduced (Mallozzi and Messalli [22], Bigdeli and Hassanpour [23], Elshafei [24], Zaichenko [25], Zidan et al [26], Donahue et al [27], Ganzfried [28], Zhou et al [29], Krishankumar et al [30,31], Tukhtasinov et al [32], Sivagami et al [33], Zhao et al [34], Megahed [35], Romanuke [36], and Khalifa et al [37]).…”

Section: Introductionmentioning

confidence: 99%

On Stackelberg Leader with Min-Max Followers to Solve Fuzzy Continuous Static Games

Khalifa

Pamučar

Alburaikan

et al. 2022

Journal of Function Spaces

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This study attempts to introduce continuous static games with fuzzy parameters. Piecewise quadratic fuzzy numbers (PQFNs) are used to represent the fuzzy parameters. The close interval approximation of the PQFNs, which is one of the most accurate approximations, is applied. To overcome the problem, Stackelberg leaders with min-max follower’s solutions are examined. The given solution is accompanied by a parametric analysis. An algorithm for identifying the first-kind stability set is presented. Finally, to demonstrate and clarify the method’s steps, a numerical example is given

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Section: Introductionmentioning

confidence: 99%

On Stackelberg Leader with Min-Max Followers to Solve Fuzzy Continuous Static Games

Khalifa

Pamučar

Alburaikan

et al. 2022

Journal of Function Spaces

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“…For an infinite system of binary differential equations in the space l 2 , we have studied an evasion differential game problem. In [42], it has been shown that if the pursuer control set contains the evader control set, i.e., if ρ > σ, then the pursuit can be completed for a finite time. Consequently, if in game (3) ρ k > σ for some k ∈ {1, 2, .…”

Section: Discussionmentioning

confidence: 99%

“…For an infinite system of binary differential equations in the Hilbert space l 2 , the pursuit differential game of one pursuer and one evader was studied in [42], when the pursuer's control set contains the evader's control set.…”

Section: Introductionmentioning

confidence: 99%

Evasion Differential Game of Multiple Pursuers and One Evader for an Infinite System of Binary Differential Equations

Ibragimov¹,

Kazimirova

Pansera

2022

Mathematics

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We study a differential evasion game of multiple pursuers and an evader governed by several infinite systems of two-block differential equations in the Hilbert space l2. Geometric constraints are imposed on the players’ control functions. If the state of a controlled system falls into the origin of the space l2 at some finite time, then pursuit is said to be completed in a differential game. The aim of the pursuers is to transfer the state of at least one of the systems into the origin of the space l2, while the purpose of the evader is to prevent it. A sufficient evasion condition is obtained from any of the players’ initial states and an evasion strategy is constructed for the evader.

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“…It remains to show that u 0 is admissible, i.e., there exists τ > 0 such that ∥u 0 ∥ ≤ ρ. For any x 0 ∈ ℓ 2 with ∥x 0 ∥ 2 2 ≤ κ 2 ρ 2 , then (17) implies that x(τ) = 0 for the solution started from x 0 . The definition of W(τ) (12) and (15)…”

Section: Proof Of Theorem 2 Definementioning

confidence: 99%

“…Differential games in this setting have also been studied, with works such as [15][16][17][18][19][20] considering pursuit-evasion games for systems in infinite-dimensional phase spaces. In certain cases, optimal strategies for players were constructed within appropriate strategy classes.…”

Section: Introductionmentioning

confidence: 99%

On a Linear Differential Game of Pursuit with Integral Constraints in ℓ2

Zaynabiddinov,

Ruziboev,

Ibragimov

et al. 2024

Mathematics

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In this paper, we study the stability, controllability, and differential game of pursuit for an infinite system of linear ODEs in ℓ2. The system we consider has a special right-hand side, which is not diagonal and serves as a toy model for controllable system of infinitely many interacting points. We impose integral constraints on the control parameters. We obtain criteria for stability and null controllability of the system. Further, we construct a strategy for the pursuer that guarantees completion of the pursuit problem for the differential game. To prove controllability we use the so called Gramian operators.

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Differential Games for an Infinite 2-Systems of Differential Equations

Cited by 9 publications

References 28 publications

On Stackelberg Leader with Min-Max Followers to Solve Fuzzy Continuous Static Games

On Stackelberg Leader with Min-Max Followers to Solve Fuzzy Continuous Static Games

Evasion Differential Game of Multiple Pursuers and One Evader for an Infinite System of Binary Differential Equations

On a Linear Differential Game of Pursuit with Integral Constraints in ℓ2

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