ADAPTIVE MATCHING STRATEGY FOR MULTI-TARGET MULTI-CAMERA TRACKING

Multi-Target Multi-Camera Tracking has a wide range of applications and is the basis for many high-level inference and prediction tasks. How to make the system perform efficiently on a large number of cameras is a crucial research issue. Previous works have proposed many matching strategies to reduce the matching range and improve the matching accuracy. However, these works require human participation when formulating matching strategies, which becomes infeasible as the scale of the camera system increases. To tackle this problem, we propose an adaptive matching strategy to replace manual rules when guiding the matching between cameras. Specifically, we use the Markov decision process to model the tracklets matching problem between cameras. Reinforcement learning and imitation learning are combined to predict a set of cameras where the tracking target might be located. The predicted candidate camera set can be used for inter-camera matching and association between tracklets. Moreover, our method can be trained with or without ground truth inter-camera trajectories, making it more practical in real scenarios. We evaluate our method on the city-scale tracking dataset Cityflow, and the proposed method is sufficient to replace manual rules, and finally improve the performance of the overall MTMCT system.