机构地区: 湖北师范学院数学与统计学院数学系
出 处: 《应用数学学报》 2004年第3期489-499,共11页
摘 要: 本文考虑了一类具两个时滞项的微分方程的稳定性,其中一个时滞项的系数非负,另一个时滞项的系数非正.当非负系数恒为零时,本文所得结论改进了Yorke等提出的3/2稳定性定理的相应结论,当非负系数项的时滞为零,本文不同于已有文献用Liapunov函数或泛函法将时滞项作为干扰处理,而是反过来利用时滞项让方程稳定. The stability of differential equations with two delays is considered in this paper. The coefficient of one delay term is nonnegative, that of the other is nonpositive. When nonnegative coefficient identically vanishing, the 3/2 stability theorem, which Yorke and the other researchers presented, was improved and generalized. When delay of nonnegative coefficient term identically vanishing, our results have shown that the delay term can make the unstable equations stable. This is different from the Lyapunov function or Lyapunov functional way which regard the delay term as disturber.