Causality, probability, and time / Samantha Kleinberg.
Material type:
TextPublication details: Cambridge : CUP, 2013.Description: vii, 259 p. : illustrations ; 25 cmISBN: - 9781107026483 (Hardback)
- 511.352 23 K64
| Item type | Current library | Call number | Status | Date due | Barcode | Item holds | |
|---|---|---|---|---|---|---|---|
| Books | ISI Library, Kolkata | 511.352 K64 (Browse shelf(Opens below)) | Available | 135428 |
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| 511.35 W757 Compution with recurrence relations | 511.352 Ar769 Computational complexity a modern approach | 511.352 J93 Boolean function complexity : | 511.352 K64 Causality, probability, and time / | 511.352 N676 Computability and randomness | 511.36 B611 Proof theory : | 511.36 C974 Nuts and bolts of proofs |
Includes bibliographical references (pages 241-250) and index.
1. Introduction --
2. A brief history of causality --
3. Probability, logic and probabilistic temporal logic --
4. Defining causality --
5. Inferring causality --
6. Token causality --
7. Case studies --
8. Conclusion --
Appendix A.A little bit of statistics --
Appendix B. Proofs--
Glossary--
Bibliography--
Index.
"This book presents a new approach to causal inference and explanation, addressing both the timing and complexity of relationships. The method's feasibility and success is demonstrated through theoretical and experimental case studies"--
"Whether we want to know the cause of a stock's price movements (in order to trade on this information), the key phrases that can alter public opinion of a candidate (in order to optimize a politician's speeches) or which genes work together to regulate a disease causing process (in order to intervene and disrupt it), many goals center on finding and using causes. Causes tell us not only that two phenomena are related, but how they are related. They allow us to make robust predictions about the future, explain the relationship between and occurrence of events, and develop effective policies for intervention. While predictions are often made successfully on the basis of associations alone, these relationships can be unstable. If we do not know why the resulting models work, we cannot predict when they will stop working. Lung cancer rates in an area may be correlated with match sales if many smokers use matches to light their cigarettes, but match sales may also be influenced by blackouts and seasonal trends (with many purchases around holidays or in winter). A spike in match sales due to a blackout will not result in the predicted spike in lung cancer rates, but without knowledge of the underlying causes we would not be able to anticipate that failure. Models based on associations can also lead to redundancies, since multiple effects of the true cause may be included as they are correlated with its occurrence. In applications to the biomedical domain, this can result in unnecessary diagnostic tests that may be invasive and expensive"--
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