Maximum and minimum solutions for a nonlocal p-Laplacian fractional differential system from eco-economical processes
|dc.identifier.citation||Ren, T. and Li, S. and Zhang, X. and Liu, L. 2017. Maximum and minimum solutions for a nonlocal p-Laplacian fractional differential system from eco-economical processes. Boundary Value Problems. 2017 (1): Article ID 118.|
This paper focuses on the maximum and minimum solutions for a fractional order differential system, involving a p-Laplacian operator and nonlocal boundary conditions, which arises from many complex processes such as ecological economy phenomena and diffusive interaction. By introducing new type growth conditions and using the monotone iterative technique, some new results about the existence of maximal and minimal solutions for a fractional order differential system is established, and the estimation of the lower and upper bounds of the maximum and minimum solutions is also derived. In addition, the iterative schemes starting from some explicit initial values and converging to the exact maximum and minimum solutions are also constructed.
|dc.title||Maximum and minimum solutions for a nonlocal p-Laplacian fractional differential system from eco-economical processes|
|dcterms.source.title||Boundary Value Problems|
|curtin.department||Department of Mathematics and Statistics|