Navigational Pedestrian Movement Model with Vision-driven Agents
Authored by Seung-Jae Lee
Date Published: 2015
Sponsors:
Korean National Research Foundation (NRF)
Platforms:
NetLogo
Model Documentation:
Other Narrative
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Model Code URLs:
Model code not found
Abstract
This paper proposes a navigational pedestrian movement model based on
vision-driven agents. In the paper, two different patterns of movement
are discussed: natural movement and navigational movement. The natural
movement model, which is based on Gibson's ecological theory of
perception and Hillier's research, facilitates understanding of the
relation between visual perception and movement; unfortunately, it has
no origin-destination (OD) pairs. In contrast, the navigational movement
model does not take the process of visual perception into account. The
proposed navigational pedestrian movement model integrates these two
movement models by replacing an attractive factor in the conventional
natural movement model with a potential field of walls for navigational
movement. Consequently, the results of simulations performed show that
the proposed model generates a smoother and more plausible movement
pattern that is affected by the visual field angle of agents. The
problem and its solution according to visual field angle are also
demonstrated through model tests. The proposed model demonstrates that
an integrated approach can enrich pedestrian studies and enable
understanding of the relation between visual perception and movement. It
may also be developed as a simulation model for emergencies or
wayfinding.
Tags
natural movement
visual dynamics