| Abstract: |
| It is well-known that chemotaxis is a common natural phenomenon describing a biochemical process through which the movement of an organism or entity is not only regulated by random diffusion, but also controlled by the concentration gradient of a chemical stimulus in the local environment. In this talk, I first mention some previous mathematical advances of chemotaxis systems. Then I introduce our recent results about Keller-Segel chemotaxis systems with indirect signal mechanisms. |
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