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5 results on '"Peron, Martin Brice"'

1. Two approximate dynamic programming algorithms for managing complete SIS networks

Author

Zegura, E, Anderson, R, Subramanian, L, Peron, Martin Brice, Bartlett, Peter, Becker, Kai, Helmstedt, Kate, Chades, Iadine, Zegura, E, Anderson, R, Subramanian, L, Peron, Martin Brice, Bartlett, Peter, Becker, Kai, Helmstedt, Kate, and Chades, Iadine

Abstract

Inspired by the problem of best managing the invasive mosquito Aedes albopictus across the 17 Torres Straits islands of Australia, we aim at solving a Markov decision process on large Susceptible-Infected-Susceptible (SIS) networks that are highly connected. While dynamic programming approaches can solve sequential decision-making problems on sparsely connected networks, these approaches are intractable for highly connected networks. Inspired by our case study, we focus on problems where the probability of nodes changing state is low and propose two approximate dynamic programming approaches. The first approach is a modified version of value iteration where only those future states that are similar to the current state are accounted for. The second approach models the state space as continuous instead of binary, with an on-line algorithm that takes advantage of Bellman's adapted equation. We evaluate the resulting policies through simulations and provide a priority order to manage the 17 infested Torres Strait islands. Both algorithms show promise, with the continuous state approach being able to scale up to high dimensionality (50 nodes). This work provides a successful example of how AI algorithms can be designed to tackle challenging computational sustainability problems.

Published
2018

2. Fast-tracking stationary MOMDPs for adaptive management problems

Author

Singh, S, Markovitch, S, Peron, Martin Brice, Becker, Kai, Bartlett, Peter, Chades, Iadine, Singh, S, Markovitch, S, Peron, Martin Brice, Becker, Kai, Bartlett, Peter, and Chades, Iadine

Abstract

Adaptive management is applied in conservation and natural resource management, and consists of making sequential decisions when the transition matrix is uncertain. Informally described as ’learning by doing’, this approach aims to trade off between decisions that help achieve the objective and decisions that will yield a better knowledge of the true transition matrix. When the true transition matrix is assumed to be an element of a finite set of possible matrices, solving a mixed observability Markov decision process (MOMDP) leads to an optimal trade-off but is very computationally demanding. Under the assumption (common in adaptive management) that the true transition matrix is stationary, we propose a polynomial-time algorithm to find a lower bound of the value function. In the corners of the domain of the value function (belief space), this lower bound is provably equal to the optimal value function. We also show that under further assumptions, it is a linear approximation of the optimal value function in a neighborhood around the corners. We evaluate the benefits of our approach by using it to initialize the solvers MO-SARSOP and Perseus on a novel computational sustainability problem and a recent adaptive management data challenge. Our approach leads to an improved initial value function and translates into significant computational gains for both solvers.

Published
2017

3. Optimization methods to solve adaptive management problems

Author

Chades, Iadine, Nicol, Sam, Rout, Tracy, Peron, Martin Brice, Dujardin, Yann, Pichancourt, Jean-Baptiste, Hastings, Alan, Hauser, Cindy, Chades, Iadine, Nicol, Sam, Rout, Tracy, Peron, Martin Brice, Dujardin, Yann, Pichancourt, Jean-Baptiste, Hastings, Alan, and Hauser, Cindy

Published
2017

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