Learning Motion Patterns in Surveillance Video using HMM Clustering

Abstract

We present a novel approach to learning motion behavior in video, and detecting abnormal behavior, using hierarchical clustering of hidden Markov models (HMMs). A continuous stream of track data is used for online and on-demand creation and training of HMMs, where tracks may be of highly variable length and scenes may be very complex with an unknown number of motion patterns. We show how these HMMs can be used for on-line clustering of tracks that represent normal behavior and for detection of deviant tracks. The track clustering algorithm uses a hierarchical agglomerative HMM clustering technique that jointly determines all the HMM parameters (including the number of states) via an expectation maximization (EM) algorithm and the Akaike information criteria. Results are demonstrated on a highly complex scene containing dozens of routes, significant occlusions and hundreds of moving objects.