HumoNet: A Framework for Realistic Modeling and Simulation of Human Mobility Network

Joon Seok Kim, Gautam Malviya Thakur, Licia Amichi, Annetta Burger, Chathika Gunaratne, Joseph Tuccillo, Taylor Hauser, Joseph Bentley, Kevin Sparks, Debraj De, Chance Brown, Elizabeth McBride, Jesse McGaha, James Gaboardi, Xiuling Nie, Steven Carter Christopher

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

1 Scopus citations

Abstract

Understanding, analyzing, and predicting human mobility and dynamics are valuable to solving pressing problems, developing effective plans, and prescribing timely remedies. As a computational approach, realistic human mobility simulations allow us to understand, analyze, and predict complex systems, including human societies. Accurate simulations rely on (1) the model that captures interactions and behaviors of myriad entities in our society and (2) the mapping of model instances to real-world entities. Taking this into account, this paper introduces the Human Mobility Network simulation framework (HumoNet), an integrated patterns of life (POL) simulation framework that leverages real-world data layers including transportation networks, points of interest, populations, popularity, and human trajectories. HumoNet is a data informed model in which agents are equipped with activities, locomotion, and planning capabilities. To simulate realistic kinematic maneuvers of individuals in transportation networks, HumoNet harnesses a microscopic traffic simulator that provides interaction among vehicles and traffic objects. In this paper, we describe the framework, outline our methodologies, and discuss the data processing and challenges of each data layer. Through experiments, we demonstrate that our simulations capture key features of human mobility by comparing them to the literature and real data using standard measures of human mobility (i.e., the radius of gyration, number of locations visited, level of exploration) and metrics scoring (i.e., Jensen-Shannon divergence). We envision that the synthetic data produced by HumoNet will serve as a benchmark for analyzing epidemics, deploying EV charging networks, and validating AI/ML tasks such as location prediction.

Original languageEnglish
Title of host publicationProceedings - 2024 25th IEEE International Conference on Mobile Data Management, MDM 2024
PublisherInstitute of Electrical and Electronics Engineers Inc.
Pages185-194
Number of pages10
ISBN (Electronic)9798350374551
DOIs
StatePublished - 2024
Event25th IEEE International Conference on Mobile Data Management, MDM 2024 - Brussels, Belgium
Duration: Jun 24 2024Jun 27 2024

Publication series

NameProceedings - IEEE International Conference on Mobile Data Management
ISSN (Print)1551-6245

Conference

Conference25th IEEE International Conference on Mobile Data Management, MDM 2024
Country/TerritoryBelgium
CityBrussels
Period06/24/2406/27/24

Keywords

  • data-driven
  • microscopic traffic simulation
  • patterns-of-life
  • point-of-interest
  • population
  • simulation

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