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Towards efficient prospective detection of multiple spatio -temporal clusters

XIV Brazilian Symposium on GeoInformatics. Towards efficient prospective detection of multiple spatio -temporal clusters. Bráulio Veloso , Andréa Iabrudi and Thais Correa. Universidade Federal de Ouro Preto – UFOP November, 2013, Campos do Jordão , SP – Brazil. Content. Introduction

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Towards efficient prospective detection of multiple spatio -temporal clusters

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  1. XIV Brazilian Symposium on GeoInformatics Towards efficient prospective detection of multiple spatio-temporal clusters BráulioVeloso, Andréa Iabrudi and Thais Correa. Universidade Federal de OuroPreto – UFOP November, 2013, Campos do Jordão, SP – Brazil

  2. Content • Introduction • Method • STCD • Problem • STCD-Sim • Metrics • Simulated Datasets • Results • Final Considerations

  3. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process

  4. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Surveillance Systems; • On-line; • Prospective;

  5. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Surveillance Systems; • Applications:

  6. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Surveillance Systems; • Applications: • Epidemic surveillance;

  7. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Surveillance Systems; • Applications: • Epidemic surveillance; • Criminology behavior;

  8. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Surveillance Systems; • Applications: • Epidemic surveillance; • Criminology behavior; • Traffic control;

  9. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Surveillance Systems; • Applications: • Epidemic surveillance; • Criminology behavior; • Traffic control; • Social networks behavior;

  10. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Spatio-temporal data are more available;

  11. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Spatio-temporal data are more available; • Process with more then one cluster;

  12. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • Technique to efficiently detect multiple emergent clusters in a space-time point process • Spatio-temporal data are more available; • Process with more then one cluster; • Need of computationally efficient approaches.

  13. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • STCD • Point Process;

  14. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • STCD • Point Process; • Earlier identification;

  15. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • STCD • Point Process; • Earlier identification; • Fast Execution;

  16. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • STCD • Point Process; • Earlier identification; • Fast Execution; • Efficient detection;

  17. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | Introduction • STCD • Point Process; • Earlier identification; • Fast Execution; • Efficient detection; • But identifies only one cluster.

  18. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | The Space-Time Cluster Detection

  19. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Renato Assunção and Thais Correa. Surveillance to detect emerging space-time clusters. Computational Statistics and Data Analysis, 53(8):2817-2830, 2009.

  20. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems

  21. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems • Process: Under Control vs. Out of Control; • System: try to detected earlier a change in the process

  22. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems; • Spatio-Temporal Events • Tuple: (id, x, y, t); • Order by time.

  23. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems; • Spatio-Temporal Events; • Alarm • Evidence that the process changed from in control to out of control.

  24. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems; • Spatio-Temporal Events; • Alarm; • Space-Time Cluster • Cylindrical shape • Circular base in space • Temporal Height Space Time

  25. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems; • Spatio-Temporal Events; • Alarm; • Space-Time Cluster ; • Prospective Detection • Live Cluster Space Time

  26. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems; • Spatio-Temporal Events; • Alarm; • Space-Time Cluster ; • Prospective Detection • Live Cluster Space Time

  27. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Surveillance Systems; • Spatio-Temporal Events; • Alarm; • Space-Time Cluster ; • Prospective Detection • Live Cluster Space Time

  28. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Ck,n: candidate cylinder to be a cluster, beginning (centered) in event k and ending in the last event

  29. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Ck,n: candidate cylinder to be a cluster, beginning (centered) in event k and ending in the last event; • Lk : likelihood of the space-time Poisson process when there is a cluster Ck,n; • L ∞: likelihood of the space-time Poisson process when there is no cluster. • a

  30. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Cumulative Sum Statistic

  31. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Cumulative Sum Statistic

  32. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Each parcel k is related to a candidate cluster.

  33. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Each parcel k is related to a candidate cluster. • ε: increase in the intensity inside the cluster Ck,n;

  34. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Each parcel k is related to a candidate cluster. • ε: increase in the intensity inside the cluster Ck,n; • N(Ck,n): number of events inside Ck,n;

  35. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Each parcel k is related to a candidate cluster. • ε: increase in the intensity inside the cluster Ck,n; • N(Ck,n): number of events inside Ck,n; • μ(Ck,n): expectednumber of events inside Ck,n. • non parametric estimate forμ(Ck,n).

  36. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Each parcel k is related to a candidate cluster. • ε: increase in the intensity inside the cluster Ck,n; • N(Ck,n): number of events inside Ck,n; • μ(Ck,n): expectednumber of events inside Ck,n. • non parametric estimate forμ(Ck,n).

  37. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection • Alarm or not? • A and ‘

  38. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  39. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  40. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  41. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  42. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  43. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  44. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  45. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  46. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  47. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  48. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  49. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

  50. | Introduction| STCD | Problem | STCD-Sim | Metrics | Datasets | Results | Final Considerations | STCD – Space Time Cluster Detection Space Time tactual

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