Open AccessSimple motion pursuit differential game problem of many players with integral and geometric constraints on controls function.
Author(s) -
Jamilu Adamu,
Bala Ma’aji Abdulhamid,
D. T. Gbande,
Aminu Sulaiman Halliru
Publication year - 2021
Publication title -
journal of the nigerian society of physical sciences
Language(s) - English
Resource type - Journals
ISSN - 2714-4704
DOI - 10.46481/jnsps.2021.148
Subject(s) - differential game , simple (philosophy) , mathematics , motion (physics) , differential (mechanical device) , hilbert space , function (biology) , space (punctuation) , mathematical analysis , mathematical optimization , computer science , artificial intelligence , physics , philosophy , epistemology , evolutionary biology , biology , thermodynamics , operating system
We study a simple motion pursuit differential game of many pursuers and one evader in a Hilbert space $l_{2}$. The control functions of the pursuers and evader are subject to integral and geometric constraints respectively. Duration of the game is denoted by positive number $\theta $. Pursuit is said to be completed if there exist strategies $u_{j}$ of the pursuers $P_{j}$ such that for any admissible control $v(\cdot)$ of the evader $E$ the inequality $\|y(\tau)-x_{j}(\tau)\|\leq l_{j}$ is satisfied for some $ j\in \{1,2, \dots\}$ and some time $\tau$. In this paper, sufficient conditions for completion of pursuit were obtained. Consequently strategies of the pursuers that ensure completion of pursuit are constructed.