Abstract As a kind of analytical exact solutions to the nonlinear evolution equations, the interaction solutions are of great value in the study of the interacting mechanism in nonlinear science. In this paper, an optional decoupling condition approach is proposed for deriving the lump-stripe solutions and lump-soliton solutions to the KPI equation. We derive new and more general solutions to the KPI equation and discuss the link between the two kinds of interaction solutions, which has not been reported before. The interaction solutions to the KPI equation are analyzed and simulated numerically, which show that all the interaction phenomena are completely inelastic. Although we are concerned on the KPI equation in this paper, this approach can be applied to a wide class of nonlinear evolution equations and lays out the framework of deriving the lump-multi-stripe and/or lump-multi-soliton solutions.

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