Using Temporal Information from Human Mobility Data to Detect Anchor Points

• Published in: Proceedings / IEEE International Conference on Mobile Data Management pp. 1 - 6
• Main Authors: McBride, Elizabeth C., Gaboardi, James D., Brown, Chance, Sparks, Kevin, De, Debraj, Burger, Annetta, McGaha, Jesse, Nie, Xiuling, Thomas, Todd, Thakur, Gautam Malviya, Christopher, Carter
• Format: Conference Proceeding
• Language: English
• Published: IEEE 02.06.2025
• Subjects: Accuracy; anchor points; Employment; Global Positioning System; household travel survey data; place detection; Socioeconomics; Space exploration; Spatiotemporal phenomena; Surveys; temporal data; Trajectory
• ISSN: 2375-0324
• DOI: 10.1109/MDM65600.2025.00055

Spatiotemporal mobility data are available in massive quantities, but large quantities of data typically include fewer variables or data fields. Often, the only available fields are User ID, Longitude, Latitude, Timestamp ( U L L T ). This raises an important question: how much can we infer about human mobility patterns using only these four fields? With U L L T data, we do not know individuals' socioeconomic status information or when they are visiting their anchor points (AP) or locations (such as homes, places of employment, or schools), and it is a modern challenge to use this data to infer these characteristics. When detecting anchor locations with limited input information, verification and validation ( \mathrm{V} \quad \mathrm{V} ) are significant challenges. This paper addresses the problem of identifying individuals' anchor locations using only temporal information from spatiotemporal datasets with limited attributes. Our approach does not explicitly use latitude and longitude during analysis. Locationbased information is only employed in the preprocessing stage to identify periods of movement (trips) and stops (dwelling). Beyond this step, all analysis is based on temporal patterns. In theory, if stops and dwell times could be detected through alternative means, our method could function entirely without location-based input. We demonstrate this methodology on the 2017 National Household Travel Survey (NHTS) data, because it includes a carefully designed and collected time use survey with representative sampling and labeled ground truth. The high-quality survey data allows us to test the accuracy of our methods because NHTS contains intended place labels and agent/user characteristics. We have also applied our validated AP identification algorithm on very large-scale GPS based trajectory data for Patterns-of-Life (PoL) assessment and other applications, but due to space limit that could not be presented here.