Robust spatial-temporal incident prediction

Ayan Mukhopadhyay; Mykel Kochenderfer; Kai Wang; Milind Tambe; Andrew Perrault; Yevgeniy Vorobeychik

Robust spatial-temporal incident prediction

Ayan Mukhopadhyay
, Mykel Kochenderfer
, Kai Wang
, Milind Tambe
, Andrew Perrault
, Yevgeniy Vorobeychik

Department of Computer Science & Engineering

Research output: Contribution to conference › Paper › peer-review

Abstract

Spatio-temporal incident prediction is a central issue in law enforcement, with applications in fighting crimes like poaching, human trafficking, illegal fishing, burglaries and smuggling. However, state of the art approaches fail to account for evasion in response to predictive models, a common form of which is spatial shift in incident occurrence. We present a general approach for incident forecasting that is robust to spatial shifts. We propose two techniques for solving the resulting robust optimization problem: first, a constraint generation method guaranteed to yield an optimal solution, and second, a more scalable gradient-based approach. We then apply these techniques to both discrete-time and continuous-time robust incident forecasting. We evaluate our algorithms on two different real-world datasets, demonstrating that our approach is significantly more robust than conventional methods.

Original language	English
Pages	360-369
Number of pages	10
State	Published - 2020
Event	36th Conference on Uncertainty in Artificial Intelligence, UAI 2020 - Virtual, Online Duration: Aug 3 2020 → Aug 6 2020

Conference

Conference	36th Conference on Uncertainty in Artificial Intelligence, UAI 2020
City	Virtual, Online
Period	08/3/20 → 08/6/20

Cite this

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title = "Robust spatial-temporal incident prediction",

abstract = "Spatio-temporal incident prediction is a central issue in law enforcement, with applications in fighting crimes like poaching, human trafficking, illegal fishing, burglaries and smuggling. However, state of the art approaches fail to account for evasion in response to predictive models, a common form of which is spatial shift in incident occurrence. We present a general approach for incident forecasting that is robust to spatial shifts. We propose two techniques for solving the resulting robust optimization problem: first, a constraint generation method guaranteed to yield an optimal solution, and second, a more scalable gradient-based approach. We then apply these techniques to both discrete-time and continuous-time robust incident forecasting. We evaluate our algorithms on two different real-world datasets, demonstrating that our approach is significantly more robust than conventional methods.",

author = "Ayan Mukhopadhyay and Mykel Kochenderfer and Kai Wang and Milind Tambe and Andrew Perrault and Yevgeniy Vorobeychik",

note = "Publisher Copyright: {\textcopyright} Proceedings of the 36th Conference on Uncertainty in Artificial Intelligence, UAI 2020. All rights reserved.; 36th Conference on Uncertainty in Artificial Intelligence, UAI 2020 ; Conference date: 03-08-2020 Through 06-08-2020",

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pages = "360--369",

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TY - CONF

T1 - Robust spatial-temporal incident prediction

AU - Mukhopadhyay, Ayan

AU - Kochenderfer, Mykel

AU - Wang, Kai

AU - Tambe, Milind

AU - Perrault, Andrew

AU - Vorobeychik, Yevgeniy

PY - 2020

Y1 - 2020

N2 - Spatio-temporal incident prediction is a central issue in law enforcement, with applications in fighting crimes like poaching, human trafficking, illegal fishing, burglaries and smuggling. However, state of the art approaches fail to account for evasion in response to predictive models, a common form of which is spatial shift in incident occurrence. We present a general approach for incident forecasting that is robust to spatial shifts. We propose two techniques for solving the resulting robust optimization problem: first, a constraint generation method guaranteed to yield an optimal solution, and second, a more scalable gradient-based approach. We then apply these techniques to both discrete-time and continuous-time robust incident forecasting. We evaluate our algorithms on two different real-world datasets, demonstrating that our approach is significantly more robust than conventional methods.

AB - Spatio-temporal incident prediction is a central issue in law enforcement, with applications in fighting crimes like poaching, human trafficking, illegal fishing, burglaries and smuggling. However, state of the art approaches fail to account for evasion in response to predictive models, a common form of which is spatial shift in incident occurrence. We present a general approach for incident forecasting that is robust to spatial shifts. We propose two techniques for solving the resulting robust optimization problem: first, a constraint generation method guaranteed to yield an optimal solution, and second, a more scalable gradient-based approach. We then apply these techniques to both discrete-time and continuous-time robust incident forecasting. We evaluate our algorithms on two different real-world datasets, demonstrating that our approach is significantly more robust than conventional methods.

UR - https://www.scopus.com/pages/publications/85101644624

M3 - Paper

AN - SCOPUS:85101644624

SP - 360

EP - 369

T2 - 36th Conference on Uncertainty in Artificial Intelligence, UAI 2020

Y2 - 3 August 2020 through 6 August 2020

ER -

Robust spatial-temporal incident prediction

Abstract

Conference

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