TY - JOUR AU - Gödel, Marion AU - Köster, Gerta AU - Lehmberg, Daniel AU - Gruber, Manfred AU - Kneidl, Angelika AU - Sesser, Florian PY - 2020/03/27 Y2 - 2024/03/28 TI - Can we learn where people go? JF - Collective Dynamics JA - Coll Dyn VL - 5 IS - 0 SE - Proceedings of Pedestrian and Evacuation Dynamics 2018 DO - 10.17815/CD.2020.43 UR - https://collective-dynamics.eu/index.php/cod/article/view/A43 SP - 134-141 AB - In most agent-based simulators, pedestrians navigate from origins to destinations. Consequently, destinations are essential input parameters to the simulation. While many other relevant parameters as positions, speeds and densities can be obtained from sensors, like cameras, destinations cannot be observed directly. Our research question is: Can we obtain this information from video data using machine learning methods? We use density heatmaps, which indicate the pedestrian density within a given camera cutout, as input to predict the destination distributions. For our proof of concept, we train a Random Forest predictor on an exemplary data set generated with the Vadere microscopic simulator. The scenario is a crossroad where pedestrians can head left, straight or right. In addition, we gain first insights on suitable placement of the camera. The results motivate an in-depth analysis of the methodology. ER -