Using game theory to optimize the allocation of defensive resources on a city scale to protect chemical facilities against multiple types of attackers.
Qilin FengHao CaiZhilong ChenPublished in: Reliab. Eng. Syst. Saf. (2019)
Keyphrases
- game theory
- multiple types
- resource allocation
- game theoretic
- nash equilibrium
- heterogeneous networks
- co occurrence
- contextual information
- fictitious play
- statistical physics
- cooperative
- multi agent systems
- mechanism design
- real world
- social welfare
- cooperative game theory
- multiple features
- user interests
- heterogeneous information networks
- learning algorithm
- combinatorial auctions
- nash equilibria
- class labels
- multi agent learning
- pairwise
- data sets