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  1. ; ; ; ; ; ; ; ; (, Proceedings of the 10th ACM International Conference on Systems for Energy-Efficient Buildings, Cities, and Transportation)
  2. (, IEEE BigData)
  3. ; ; ; ; ; ; ; ; ; (, Annual Reviews in Control)
    Full Text Available 
  4. ; ; ; ; ; ; (, Information Sciences)
    Full Text Available 
  5. ; ; (, Information Systems)
    Full Text Available 
  6. ; ; ; ; ; ; ; ; (, 8th ACM International Conference on Systems for Energy-Efficient Buildings, Cities, and Transportation)
  7. ; (, MIPR)
  8. ; ; ; ; (, Data Mining and Knowledge Discovery)
    null (Ed.)
    Full Text Available 
  9. (, PAKDD)
  10. ; ; ; ; ; (, Proceedings of the Twenty-Ninth International Joint Conference on Artificial Intelligence)
    Networked observational data presents new opportunities for learning individual causal effects, which plays an indispensable role in decision making. Such data poses the challenge of confounding bias. Previous work presents two desiderata to handle confounding bias. On the treatment group level, we aim to balance the distributions of confounder representations. On the individual level, it is desirable to capture patterns of hidden confounders that predict treatment assignments. Existing methods show the potential of utilizing network information to handle confounding bias, but they only try to satisfy one of the two desiderata. This is because the two desiderata seem to contradict each other. When the two distributions of confounder representations are highly overlapped, then we confront the undiscriminating problem between the treated and the controlled. In this work, we formulate the two desiderata as a minimax game. We propose IGNITE that learns representations of confounders from networked observational data, which is trained by a minimax game to achieve the two desiderata. Experiments verify the efficacy of IGNITE on two datasets under various settings. 
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