Litcius/Paper detail

The One-Man-Crowd: Single User Generation of Crowd Motions Using Virtual Reality

Tairan Yin, Ludovic Hoyet, Marc Christie, Marie-Paule Cani, Julien Pettre

2022IEEE Transactions on Visualization and Computer Graphics29 citationsDOIOpen Access PDF

Abstract

Crowd motion data is fundamental for understanding and simulating realistic crowd behaviours. Such data is usually collected through controlled experiments to ensure that both desired individual interactions and collective behaviours can be observed. It is however scarce, due to ethical concerns and logistical difficulties involved in its gathering, and only covers a few typical crowd scenarios. In this work, we propose and evaluate a novel Virtual Reality based approach lifting the limitations of real-world experiments for the acquisition of crowd motion data. Our approach immerses a single user in virtual scenarios where he/she successively acts each crowd member. By recording the past trajectories and body movements of the user, and displaying them on virtual characters, the user progressively builds the overall crowd behaviour by him/herself. We validate the feasibility of our approach by replicating three real experiments, and compare both the resulting emergent phenomena and the individual interactions to existing real datasets. Our results suggest that realistic collective behaviours can naturally emerge from virtual crowd data generated using our approach, even though the variety in behaviours is lower than in real situations. These results provide valuable insights to the building of virtual crowd experiences, and reveal key directions for further improvements.

Topics & Concepts

Crowd simulationComputer scienceVirtual realityHuman–computer interactionVariety (cybernetics)Motion (physics)Key (lock)Artificial intelligenceCrowdsourcingCrowd psychologyVisualizationMetaverseVirtual machineComputer visionMotion captureData visualizationVirtual worldHuman-centered computingCrowd sourcingTrajectoryData modelingCrowdsEvacuation and Crowd DynamicsSocial Robot Interaction and HRIAnomaly Detection Techniques and Applications