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引用次数: 1
摘要
考虑下面的非线性时滞微分方程与强迫项r (t): x (t) + (t) x (t) + b (t) f (x (t−τ(t))) = r (t) t 0,在∈C[[0,∞),[0,∞)],b,τ∈C[[0,∞),(0,∞)],C r∈([0,∞),r], f∈C [(L,∞)(L,∞)]与−∞L 0,和limt→∞(t−τ(t)) =∞。我们建立了方程的每一个解收敛于零的充分条件。将结果应用于一些特殊情况和应用中的微分方程模型,得到了解全局收敛的几个新判据。
On global convergence of forced nonlinear delay differential equations and applications
Consider the following nonlinear delay differential equation with a forcing term r(t) : x′(t)+a(t)x(t)+b(t) f (x(t − τ(t))) = r(t), t 0, where a ∈ C[[0,∞), [0,∞)] , b,τ ∈C[[0,∞),(0,∞)] , r ∈C[[0,∞),R] , f ∈ C[(L,∞),(L,∞)] with −∞ L 0 , and limt→∞(t − τ(t)) = ∞ . We establish a sufficient condition for every solution of the equation to converge to zero. By applying the result to some special cases and differential equation models from applications, we obtain several new criteria on the global convergence of solutions.
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