Abstract
ABSTRACTMany physical and sociological processes are represented as discrete events in time and space. These spatio-temporal point processes are often sparse, meaning that they cannot be aggregated and treated with conventional regression models. Models based on the point process framework may be employed instead for prediction purposes. Evaluating the predictive performance of these models poses a unique challenge, as the same sparseness prevents the use of popular measures such as the root mean squared error. Statistical likelihood is a valid alternative, but this does not measure absolute performance and is therefore difficult for practitioners and researchers to interpret. Motivated by this limitation, we develop a practical toolkit of evaluation metrics for spatio-temporal point process predictions. The metrics are based around the concept of hotspots, which represent areas of high point density. In addition to measuring predictive accuracy, our evaluation toolkit considers broader aspects of predictive performance, including a characterisation of the spatial and temporal distributions of predicted hotspots and a comparison of the complementarity of different prediction methods. We demonstrate the application of our evaluation metrics using a case study of crime prediction, comparing four varied prediction methods using crime data from two different locations and multiple crime types. The results highlight a previously unseen interplay between predictive accuracy and spatio-temporal dispersion of predicted hotspots. The new evaluation framework may be applied to compare multiple prediction methods in a variety of scenarios, yielding valuable new insight into the predictive performance of point process-based prediction.
Highlights
We tackled this problem by developing a toolkit of assessment metrics that can be applied routinely to any predictive method that generates forecasts based upon sparse STPP observations
We used crime prediction as our case study, the methods developed here are applicable to any similar STPP prediction problem
To demonstrate our evaluation toolkit thoroughly, we tested it on four different prediction methods, self-exciting point process (SEPP), PHotspot, prospective kernel density estimate (PKDE) and Prospective space-time scan statistic (PSTSS)
Summary
Many physical and sociological processes of interest take the form of events that occur at discrete points in space and time, including crime (Mohler et al 2011), earthquakes (Zhuang et al 2002) and infrastructure failures (Ertekin et al 2015). These are referred to as spatio-temporal point processes ( denoted STPPs). Predictions are generated by evaluating the intensity function of STPP-based models at future times. Key examples include anticipating the occurrence of earthquakes (Marzocchi et al 2012) and the focus of this study, namely the risk of crime (Mohler et al 2011, Perry et al 2013)
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