CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

PDF papers
id caadria2011_053
authors Jalalian, Arash; Stephan K. Chalup and Michael J. Ostwald
year 2011
title Agent-agent interaction as a component of agent-environment interaction in the modelling and analysis of pedestrian visual behaviour
source Proceedings of the 16th International Conference on Computer Aided Architectural Design Research in Asia / The University of Newcastle, Australia 27-29 April 2011, pp. 555-564
summary This multidisciplinary project involves concepts from architectural design, statistical learning, machine vision, and human ecology. The focus is on analysing how pedestrians’ dynamic behaviour in space is influenced by the environmental design of different architectural scenarios. This paper presents a multi-agent pedestrian simulation and analysis system that supports agent-to-agent interactions, different spatial desires, and interpersonal distance. The system simulates and analyses pedestrian spatial behaviour with combined focus on movement trajectories, walking speed, and the visual gaze vector. The analysis component relies on learning a statistical model characterising normal/abnormal behaviour, based on sample observations of regular pedestrian movements without/with the impacts of significant visual attractions in the environment. Using the example of Wheeler Place in Newcastle (Australia) our pilot experiments demonstrate how pedestrian behaviour characteristics can depend on selected features in the visual environment. The presented system will allow architects and urban designers to obtain better assessment of planned urban spaces and streetscape characteristics and their impacts on pedestrian behaviour.
keywords Agent interaction; pedestrian behaviour; analysis
series CAADRIA
full text file.pdf (829,322 bytes)
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Details Citation Select
100%; open Antonini, G., Bierlaire, M. and Weber, M. (2006) Find in CUMINCAD Discrete choice models of pedestrian walking behavior , Transportation Research Part B: Methodological, 40: 667–687

100%; open Argyle, M. and Dean, J. (1965) Find in CUMINCAD Eye–contact distance and affiliation , Sociometry, 28, 289–304

100%; open Baldassare, M. (1978) Find in CUMINCAD Human spatial behavior , Annual Review of Sociology, 4: 29–56

100%; open Ballerini, M., Cabibbo, N., Candelier, R., Cavagna, A., Cisbani, E., Giardina, I. and Lecomte, V. (2008) Find in CUMINCAD Interaction ruling animal collective behaviour depends on topologocal rather than metric distance , Proceeding of National Academy of Sciences, 1232–1237

100%; open Becker, W. (1991) Find in CUMINCAD Saccades , R.H.S.Carpenter (ed), Vision and visual dysfunction,.CRC Press, Florida, 97–137

100%; open Bonabeau, E. (2002) Find in CUMINCAD Agent–based modeling: Methods and techniques for simulating human systems , Proceedings of the National Academy of Sciences of the United States of America, 99: 7280–7287

100%; open Camillen, F., Capre, S., Garofalo, C., Ignaccolo, M., Inturri, G., Pluchino, A., Rapisarda, A. and Tudisco, S. (2009) Find in CUMINCAD Multi agent simulation of pedestrian behaviour in closed spatial environments , Science and Technology for Humanity (TIC–STH), IEEE Toronto

100%; open Cartwright, D., & Zander, A. (1968) Find in CUMINCAD Group dynamics: Research and theory , Harper & Row, New York

100%; open Doshi, A. and Trivedi, M. M. (2009) Find in CUMINCAD Head and gaze dynamics in visual attention and context learning , IEEE Computer Society Conference on Computer Vision and Pattern Recognition Workshops, IEEE, USA

100%; open Helmholtz, H. (1962) Find in CUMINCAD Treatise on physiological optics , 3rd edn, New York

100%; open Hoffman, J. E. (1998) Find in CUMINCAD Visual attention and eye movements , H. Pashler (ed) Attention, San Diego, Psychology Press

100%; open Hogg, M. A. (1985) Find in CUMINCAD Interpersonal attraction, social identification and psychological group formation , European Journal of Social Psychology, 15: 51–56

100%; open Itti, L. and Koch, C. (2000) Find in CUMINCAD A saliency–based search mechanism for overt and covert shifts of visual attention , Vision Research, 40: 1489–1506

100%; open Jalalian, A., Chalup, S. K. and Ostwald, M. J. (2010) Find in CUMINCAD Intelligent Evaluation of Urban Streetscape Designs by Analysing Pedestrian Body Dynamics , The Third International Workshop on Advanced Computational Intelligence, China, IEEE

100%; open Jalalian, A., Chalup, S. K. and Ostwald, M. J. (2011) Find in CUMINCAD Architectural evaluation of simulated pedestrian spatial behaviour , Journal of Architectural Science Review, 53

100%; open K. Ball and Owsley, C. (1991) Find in CUMINCAD The useful field of view test: a new technique for evaluating age–related declines in visual function , Journal of American Optometric Association, 64: 71–79

100%; open Kendon, A. (1967) Find in CUMINCAD Some function of gaze direction in social interaction , Acta Psychol, 26: 22–63

100%; open Keogh, E. J. and Pazzani, M. J. (2001) Find in CUMINCAD Derivative dynamic time warping , First SIAM International Conference on Data Mining.

100%; open Klein, R. M. and Pontefract, A. (1994) Find in CUMINCAD Does oculomotor readiness mediate cognitive control of visual attention? revisited! , Umilta, C. (ed.) Attention and Performance XV, MIT Press

100%; open Navalpakkam, V. and Itti, L. (2005) Find in CUMINCAD Modeling the influence of task on attention , Vision Research, 45: 205–231

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