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Forecasting Crimes Using Autoregressive Models

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Eugenio Cesario; Charlie Catlett; Domenico Talia
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Abstract:

As a result of steadily increasing urbanization, by 2030 more than sixty percent of the global population will live in cities. This phenomenon is stimulating significant ...Show More

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Abstract:

As a result of steadily increasing urbanization, by 2030 more than sixty percent of the global population will live in cities. This phenomenon is stimulating significant economic and social transformations, both positive (such as, increased opportunities offered in urban areas) and negative (such as, increased crime and pressures on city budgets). Nevertheless, new technologies are enabling police departments to access growing volumes of crime-related data that can be analyzed to understand patterns and trends. Such knowledge is useful to anticipate criminal activity and thus to optimize public safety resource allocation (officers, patrol routes, etc.) through mathematical techniques to predict crimes. This paper presents an approach, based on auto-regressive models, for reliably forecasting crime trends in urban areas. In particular, the main goal of the work is to design a predictive model to forecast the number of crimes that will happen in rolling time horizons. As a case study, we present the analysis performed on an area of Chicago, using a variety of open data sources available for exploration and examination through the University of Chicagos Plenario platform. Experimental evaluation shows that the proposed methodology predicts the number of crimes with an accuracy of 84% on one-year-ahead forecasts and of 80% on two-year-ahead forecasts.
Published in: 2016 IEEE 14th Intl Conf on Dependable, Autonomic and Secure Computing, 14th Intl Conf on Pervasive Intelligence and Computing, 2nd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress(DASC/PiCom/DataCom/CyberSciTech)
Date of Conference: 08-12 August 2016
Date Added to IEEE Xplore: 13 October 2016
ISBN Information:
DOI: 10.1109/DASC-PICom-DataCom-CyberSciTec.2016.138
Conference Location: Auckland, New Zealand
References is not available for this document.
Contents

I. Introduction

The world is rapidly urbanizing and undergoing the largest wave of urban growth in history. According to a United Nations report urban population is expected to grow from 2.86 billion in 2000 to 4.98 billion in 2030 [1]. This translates to roughly 60% of the global population living in cities by 2030. Much of this urbanization is already bringing huge social, economic and environmental transformations and at the same time presenting challenges in city management issues, like resource planning (water, electricity), traffic, air and water quality, public policy and public safety services.

Select All
1.
the state of the world's cities 2004/2005: Globalization and urban culture, Earthscan, 2004.
Google Scholar
2.
D. E. Brown and S. Hagen, "Data association methods with applications to law enforcement", Decision Support Systems, vol. 34, no. 4, pp. 369-378, 2003.
CrossRef Google Scholar
3.
W. Gorr, A. Olligschlaeger and Y. Thompson, "Short-term forecasting of crime", International Journal of Forecasting, vol. 19, no. 4, pp. 579-594, 2003.
CrossRef Google Scholar
4.
M. Tayebi, M. Ester, U. Glasser and P. Brantingham, "Crimetracer: Activity space based crime location prediction", Advances in Social Networks Analysis and Mining (ASONAM) 2014 IEEE/ACM International Conference, pp. 472-480, 2014.
View Article
Google Scholar
5.
B. Chandra, M. Gupta and M. Gupta, "A multivariate time series clustering approach for crime trends prediction", Systems Man and Cybernetics 2008. SMC 2008. IEEE International Conference, pp. 892-896, 2008.
CrossRef Google Scholar
6.
E. Cesario, C. Comito and D. Talia, "Towards a cloud-based framework for urban computing the trajectory analysis case", Third International Conference on Cloud and Green Computing (CGC'2013), pp. 16-23, 2013.
CrossRef Google Scholar
7.
C. Catlett, T. Malik, B. Goldstein, J. Giuffrida, Y. Shao, A. Panella, et al., "Plenario: An open data discovery and exploration platform for urban science", IEEE Data Eng. Bull., vol. 37, no. 4, 2014.
Google Scholar
8.
T. Wang, C. Rudin, D. Wagner and R. Sevieri, "Learning to detect patterns of crime", Machine Learning and Knowledge Discovery in Databases - European Conference ECML PKDD 2013, pp. 515-530, 2013.
CrossRef Google Scholar
9.
J. S. d. Bruin, T. K. Cocx, W. A. Kosters, J. F. J. Laros and J. N. Kok, "Data mining approaches to criminal career analysis", Proceedings of the Sixth International Conference on Data Mining, pp. 171-177, 2006.
CrossRef Google Scholar
10.
G. Wang, H. Chen and H. Atabakhsh, "Automatically detecting deceptive criminal identities", Commun. ACM, vol. 47, no. 3, pp. 70-76, 2004.
CrossRef Google Scholar
11.
S. V. Nath, "Crime pattern detection using data mining", Web Intelligence and Intelligent Agent Technology Workshops 2006. WI-IAT 2006 Workshops. 2006 IEEE/WIC/ACM International Conference, pp. 41-44, 2006.
CrossRef Google Scholar
12.
H. Chen, W. Chung, J. Xu, G. Wang, Y. Qin and M. Chau, "Crime data mining: a general framework and some examples", Computer, vol. 37, no. 4, pp. 50-56, 2004.
View Article
Google Scholar
13.
C.-H. Yu, M. Ward, M. Morabito and W. Ding, "Crime forecasting using data mining techniques", Data Mining Workshops (ICDMW) 2011 IEEE 11th International Conference, pp. 779-786, 2011.
CrossRef Google Scholar
14.
P. Chen, H. Yuan and X. Shu, "Forecasting crime using the arima model", Fuzzy Systems and Knowledge Discovery 2008. FSKD '08. Fifth International Conference, vol. 5, pp. 627-630, 2008.
View Article
Google Scholar
15.
R. J. Hyndman and G. Athanasopoulos, Forecasting: principles and practice, 2014.
Google Scholar
16.
R. H. Shumway and D. S. Stoffer, "Springer Texts in Statistics" in Time Series Analysis and Its Applications: With R Examples, New York:Springer, 2011.
Google Scholar
17.
P. S. P. Cowpertwait and A. V. Metcalfe, Introductory Time Series with R, Springer Publishing Company, 2009.
Google Scholar
18.
J. Cryer and K. Chan, Time Series Analysis: With Applications in R, New York:Springer Texts in Statistics Springer, 2008.
Google Scholar
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