Approximate equivalence of higher-order feedback and its application in chaotic systems
Gao, Y
Li, C
Moroz, I
Fu, H
Lei Tengfei
International Journal of Bifurcation and Chaos in Applied Sciences and Engineering
volume 34
issue 1
(31 Jan 2024)
Approximate Equivalence of Higher-Order Feedback and its Applications in Chaotic Systems
Moroz, I
Gao, Y
Li, C
Fu, H
Lei, T
International Journal of Bifurcation and Chaos in Applied Sciences and Engineering
(31 Jan 2024)
Turing instabilities are not enough to ensure pattern formation.
Krause, A
Gaffney, E
Jewell, T
Klika, V
Walker, B
Bulletin of Mathematical Biology
volume 86
issue 2
(22 Jan 2024)
Modeling lesion transition dynamics to clinically characterize mpox patients in the Democratic Republic of the Congo
Nishiyama, T
Miura, F
Jeong, Y
Nakamura, N
Park, H
Ishikane, M
Yamamoto, S
Iwamoto, N
Suzuki, M
Sakurai, A
Aihara, K
Watashi, K
Hart, W
Thompson, R
Yasutomi, Y
Ohmagari, N
Kingebeni, P
Huggins, J
Iwami, S
Pittman, P
We now have TikTok to add to our social media stable (armoury?). For those of you who think TikTok is just full of ten second videos of animals, latest research suggests that 50% of all TikTok users in the USA are over 30 and 30% of 18-29 year-olds in the USA get news from TikTok.
Thu, 15 Feb 2024
16:00
16:00
L3
A New Solution to Time Inconsistent Stopping Problem
Yanzhao Yang
(Mathematical Insittute)
Further Information
Please join us for refreshments from 15:30 outside L3.
Abstract
Time inconsistency is a situation that a plan of actions to be taken in the future that is optimal for an agent according to today's preference may not be optimal for the same agent in the future according to corresponding preference.
In this talk, we study a continuous dynamic time inconsistent stopping problem with a flow of preferences which can be in general form. We will define a solution to the problem by the rationality of the agent, and compare it with other solutions appeared in literature. Some examples with respect to specific preferences will be shown as a part of our analysis.
This is a joint work with Hanqing Jin.