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  • Online publication date: July 2015

Part IV - Perception in Context

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The Cambridge Handbook of Applied Perception Research
  • Online ISBN: 9780511973017
  • Book DOI: https://doi.org/10.1017/CBO9780511973017
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References

Aaen-Stockdale, C., Thompson, B., Hess, R. F. and Troje, N. F. (2008). Biological motion perception is cue-invariant. J. Vis., 8(6), 1–11.
Ahlström, V., Blake, R. and Ahlström, U. (1997). Perception of biological motion. Perception, 26, 1539–1548.
Atkinson, A. P., Tunstall, M. L. and Dittrich, W. H. (2007). Evidence for distinct contributions of form and motion information to the recognition of emotions from body gestures. Cognition, 104, 59–72.
Balk, S. A., Tyrrell, R. A., Brooks, J. O. and Carpenter, T. L. (2008). Highlighting human form and motion information enhances the conspicuity of pedestrians at night. Perception, 37, 1276–1284.
Beintema, J. A. and Lappe, M. (2002). Perception of biological motion without local image motion. Proc Natl Acad Sci U S A, 99, 5661–5663.
Blake, R. and Shiffrar, M. (2007). Perception of human motion. Annu Rev Psychol, 58, 47–73.
Brown, W. M., Cronk, L., Grochow, K., Jacobson, A., Liu, C. K., Popović, Z. and Trivers, R. (2005). Dancer reveals symmetry especially in young men. Nature, 438, 1148–1150.
Casile, A. and Giese, M. A. (2005). Critical features for the recognition of biological motion. J Vis, 5, 348–360.
Casile, A. and Giese, M. A. (2006). Nonvisual motor training influences biological motion perception. Curr Biol, 16, 69–74.
Cavanagh, P., Labianca, A.T. and Thornton, I.M. (2001). Attention-based visual routines: Sprites. Cognition, 80, 47–60.
Cutting, J. E. and Kozlowski, L. T. (1976). Recognizing friends by their walk: Gait perception without familiarity cues. Bulletin of the Psychonomic Society, 9, 353–356.
Dittrich, W. H., Troscianko, T., Lea, S. E. and Morgan, D. (1996). Perception of emotion from dynamic point-light displays represented in dance. Perception, 25, 727–738.
Eriksen, B. A. and Eriksen, C. W. (1974). Effects of noise letters upon the identification of a target letter in a non-search task. Percept. Psychophys., 16, 143–149.
Gunns, R. E., Johnston, L. and Hudson, S. M. (2002). Victim selection and kinematics: A point-light investigation of vulnerability to attack. Journal of Nonverbal Behavior, 26, 129–158.
Hirai, M., Chang, D. H., Saunders, D. R. and Troje, N. F. (2011). Body configuration modulates the usage of local cues to direction in biological-motion perception. Psychol Sci, 22, 1543–1549.
Johansson, G. (1973). Visual perception of biological motion and a model for its analysis. Percept. Psychophys, 14, 195–204.
Johnson, K. L. and Tassinary, L. G. (2005). Perceiving sex directly and indirectly: Meaning in motion and morphology. Psychol Sci. 16, 890–897.
Johnson, K. L. and Tassinary, L. G. (2007). Compatibility of basic social perceptions determines perceived attractiveness. Proc Natl Acad Sci U S A, 104, 5246–5251.
Kerrigan, D. C., Todd, M. K. and Della Croce, U. (1998). Gender differences in joint biomechanics during walking: normative study in young adults. Am J Phys Med Rehabil, 77, 2–7.
Loula, F., Prasad, S., Harber, K. and Shiffrar, M. (2005). Recognizing people from their movement. J Exp Psychol Hum Percept Perform, 31, 210–220.
Marey, E. J. (1884). Analyse cinématique de la marche [chronophotographe]. C.R. Séances Acad. Sci., p. 2.
Mather, G., Radford, K. and West, S. (1992). Low-level visual processing of biological motion. Proc Biol Sci, 249, 149–155.
McLeod, P., Dittrich, W., Driver, J., Perrett, D. and Zihl, J. (1996). Preserved and impaired detection of structure from motion by a ‘motion-blind’ patient. Vis. Cognition, 3, 363–391.
Montepare, J. M. and Zebrowitz-McArthur, L. (1988). Impressions of people created by age-related qualities of their gaits. J Pers Soc Psychol, 55, 547–556.
NHTSA (2012). Traffic Safety Facts 2010. Washington, DC: US Department of Transportation. Downloaded from http://www-nrd.nhtsa.dot.gov/Pubs/811625.pdf.
Parasuraman, R., de Visser, E., Clarke, E., McGarry, W. R., Hussey, E., Shaw, T. and Thompson, J. C. (2009). Detecting threat-related intentional actions of others: Effects of image quality, response mode, and target cuing on vigilance. J. Exp. Psychol. Appl., 15, 275–290.
Pollick F. E., Lestou V., Ryu, J. and Cho, S. B. (2002). Estimating the efficiency of recognizing gender and affect from biological motion. Vision Res. 42, 2345–2355.
Prasad, S. and Shiffrar, M. (2009). Viewpoint and the recognition of people from their movements. J Exp Psychol Hum Percept Perform, 35, 39–49.
Reid, R., Brooks, A., Blair, D. and van der Zwan, R. (2009). Snap! Recognising implicit actions in static point-light displays. Perception, 38, 613–616.
Schenk, T. and Zihl, J. (1997). Visual motion perception after brain damage, II: Deficits in form-from-motion perception. Neuropsychologia, 35, 1299–1310.
Shiffrar, M., Lichtey, L. and Heptulla Chatterjee, S. (1997). The perception of biological motion across apertures. Percept Psychophys, 59, 51–59.
Simion, F., Regolin, L. and Bulf, H. (2008). A predisposition for biological motion in the newborn baby. Proc Natl Acad Sci U S A, 105, 809–813.
Tadin, D., Lappin, J. S., Blake, R. and Grossman, E. D. (2002). What constitutes an efficient reference frame for vision? Nat Neurosci, 5, 1010–1015.
Thirkettle, M., Benton, C. P. and Scott-Samuel, N. E. (2009). Contributions of form, motion and task to biological motion perception. J Vis, 9, 1–11.
Thompson, J. C. and Baccus, W. (2012). Form and motion make independent contributions to the response to biological motion in occipitotemporal cortex. Neuroimage, 59, 625–634.
Thoresen, J. C., Vuong, Q. C. and Atkinson, A. P. (2012). First impressions: Gait cues drive reliable trait judgements. Cognition, 124, 261–271.
Thornton, I. M., Rensink, R. A. and Shiffrar, M. (2002). Active versus passive processing of biological motion. Perception, 31, 837–853.
Thornton, I. M. and Vuong, Q. C. (2004). Incidental processing of biological motion. Curr Biol, 14, 1084–1089.
Thurman, S. M., Giese, M. A. and Grossman, E. D. (2010). Perceptual and computational analysis of critical features for biological motion. J Vis, 10, 15–18.
Thurman, S. M. and Grossman, E. D. (2008). Temporal “bubbles” reveal key features for point-light biological motion perception. J Vis, 8, 1–11.
Troje, N. F. and Westhoff, C. (2006). The inversion effect in biological motion perception: evidence for a “life detector”? Curr Biol, 16, 821–824.
Tuttle, S. J., Sayer, J. R. and Buonarosa, M. L. (2009). The conspicuity of first-responder safety garments. J Safety Res, 40, 191–196.
Vaina, L. M., Lemay, M., Bienfang, D. C., ChoI, A. Y. and Nakayama, K. (1990). Intact “biological motion” and “structure from motion” perception in a patient with impaired motion mechanisms: a case study. Vis Neurosci, 5, 353–569.
Vallortigara, G., Regolin, L. and Marconato, F. (2005). Visually inexperienced chicks exhibit spontaneous preference for biological motion patterns. PLoS Biol, 3, e208.
van Boxtel, J. J. and Lu, H. (2012). Signature movements lead to efficient search for threatening actions. PLoS One, 7, e37085.
Wallach, H. (1976). On perceived identity, I: The direction of motion of straight lines. In H. Wallach (Ed.), On perception (pp. 201216). New York: New York Times Book, Quadrangle.
Westhoff, C. and Troje, N. F. (2007). Kinematic cues for person identification from biological motion. Percept Psychophys, 69, 241–253.
Wood, J. M., Tyrrell, R. A., Marszalek, R., Lacherez, P., Carberry, T. and Chu, B. S. (2012). Using reflective clothing to enhance the conspicuity of bicyclists at night. Accid Anal Prev. 45, 726–730.

References

Anderson, J. R. (1974). Retrieval of propositional information from long-term memory. Cognitive Psychology, 6, 451–474.
Baddeley, A. (2000). The episodic buffer: A new component of working memory? Trends in Cognitive Sciences, 4, 417–423.
Bailey, H. R., Zacks, J. M., Hambrick, D. Z., Zacks, R. T., Head, D., Kurby, C. A. and Sargent, J. Q. (2013). Medial temporal lobe volume predicts elders’ everyday memory. Psychological Science, 24(7), 1113–1122.
Berry, D. S. and Misovich, S. J. (1994). Methodological approaches to the study of social event perception. Personality and Social Psychology Bulletin, 20, 139–152.
Boltz, M. (1992). Temporal accent structure and the remembering of filmed narratives. Journal of Experimental Psychology: Human Perception and Performance, 18, 90–105.
Bordwell, D. (1985). Narration in the fiction film. Madison: University of Wisconsin Press.
Burns, C. M. and Hajdukiewicz, J. R. (2004). Ecological interface design. Boca Raton, FL: CRC Press.
Ciaramelli, E., Grady, C. L. and Moscovitch, M. (2008). Top-down and bottom-up attention to memory: A hypothesis (AtoM) on the role of the posterior parietal cortex in memory retrieval. Neuropsychologia, 46, 1828–1851.
Cutting, J. E., DeLong, J. E. and Nothelfer, C. E. (2010). Attention and the evolution of hollywood film. Psychological Science, 21, 432–439.
Danto, A. (1963). What we can do. Journal of Philosophy, 60, 435–445.
Dewey, J. (1934). Art as experience. New York: Berkeley Publishing Group.
Dickman, H. R. (1963). The perception of behavioral units. In R. G. Barker (Ed.), The stream of behavior. New York: Appleton-Century-Crofts.
Ezzyat, Y. and Davachi, L. (2011). What constitutes an episode in episodic memory? Psychological Science, 22, 243–252.
Glenberg, A. M., Meyer, M. and Lindem, K. (1987). Mental models contribute to foregrounding during text comprehension. Journal of Memory and Language, 26, 69–83.
Grafman, J. (1999). Experimental assessment of adult frontal lobe function. In B. L. Miller and J. Cummings (Eds.), The human frontal lobes: Function and disorder (pp. 131–140). Berlin: Springer.
Grose-Fifer, J. and Deacon, D. (2004). Priming by natural category membership in the left and right cerebral hemispheres. Neuropsychologia, 42, 1948–1960.
Hanson, C. and Hirst, W. (1989). On the representation of events: A study of orientation, recall and recognition. Journal of Experimental Psychology: General, 118, 136–147.
Hard, B. M., Recchia, G. and Tversky, B. (2011). The shape of action. Journal of Experimental Psychology: General, 140(4), 586–604.
Hard, B. M., Tversky, B. and Lang, D. (2006). Making sense of abstract events: Building event schemas. Memory and Cognition, 34(6), 1221–1235.
Huff, M., Schwan, S. and Garsoffky, B. (2011). When movement patterns turn into events: Implications for the recognition of spatial configurations from different viewpoints. Journal of Cognitive Psychology, 23, 476–484.
Kurby, C. A. and Zacks, J. M. (2008). Segmentation in the perception and memory of events. Trends in Cognitive Sciences, 12, 72–79.
Kurby, C. A. and Zacks, J. M. (2011). Age differences in the perception of hierarchical structure in events. Memory and Cognition, 39, 75–91.
Kutas, M. and Hillyard, S. A. (1989). An electrophysiological probe of incidental semantic association. Journal of Cognitive Neuroscience, 1, 38–49.
Lassiter, G. D., Stone, J. I. and Rogers, S. L. (1988). Memorial consequences of variation in behavior perception. Journal of Experimental Social Psychology, 24, 222–239.
Levine, W. H. and Klin, C. M. (2001). Tracking of spatial information in narratives. Memory and Cognition, 29, 327–335.
Lichtenstein, E. H. and Brewer, W. F (1980). Memory for goal directed events. Cognitive Psychology, 12, 412–445.
Love, B. C., Jones, M., Tomlinson, M. T. and Howe, M. (2009). Learning to predict information needs: Context-aware display as a cognitive aid and an assessment tool. Proceedings of the ACM SIGCHI Conference on Human Factors in Computing Systems (CHI 2009), pp. 1351–1360.
Lyons, J. (1956). The perception of human actions. Journal of General Psychology, 54, 45–55.
Magliano, J. P., Miller, J. and Zwaan, R. A. (2001). Indexing space and time in film understanding. Applied Cognitive Psychology, 15, 533–545.
Magliano, J. P. and Zacks, J. M. (2011). The impact of continuity editing in narrative film on event segmentation. Cognitive Science, 35, 75–91.
Mayer, N. H., Keating, D. and Rapp, D. (1986) Skills, routines, and activity patterns of daily living: a functional nested approach. In B. P Uzzell and Y. Gross (Eds.), Clinical Neuropsychology of Intervention. Boston: Martinus Nijhoff.
Moreno, R. and Mayer, R. E. (2000). A learner centered approach to multimedia explanations: Deriving instructional design principles from cognitive theory. Interactive Multimedia Electronic Journal of Computer-Enhanced Learning, 2(2).
Murch, W. (2001). In the blink of an eye: A perspective on film editing. Los Angeles: Silman-James Press.
Newtson, D. (1973). Attribution and the unit of perception of ongoing behavior. Journal of Personality and Social Psychology, 28, 28–38.
Newtson, D. (1976). Foundations of attribution: The perception of ongoing behavior. In J. H. Harvey, W. J. Ickes and R. F. Kidd (Eds.), New directions in attribution research (pp. 223–248). Hillsdale, NJ: Erlbaum.
Newtson, D. and Engquist, G. (1976). The perceptual organization of ongoing behavior. Journal of Experimental Social Psychology, 12, 436–450.
Nobre, A. C. (2001). Orienting attention to instants in time. Neuropsychologia, 39, 1317–1328.
Olson, I. R. and Chun, M. M. (2001). Temporal contextual cuing of visual attention. Journal of Experimental Psychology: Learning, Memory, and Cognition, 27, 1299–1313.
Pittenger, J. B. and Jenkins, J. J. (1979). Apprehension of pictorial events: The case of a moving observer in a static environment. Bulletin of the Psychonomic Society, 13(3), 117–120.
Polyn, S. M., Norman, K. A. and Kahana, M. J. (2008). A context maintenance and retrieval model of organizational processes in free recall. Psychological Review, 116, 129–156.
Radvansky, G. A. (2005). Situation models, propositions, and the fan effect. Psychonomic Bulletin and Review, 12, 478–483.
Radvansky, G. A. and Copeland, D. E. (2006). Walking through doorways causes forgetting. Memory and Cognition, 34, 1150–1156.
Radvansky, G. A., Krawietz, S. A. and Tamplin, A. K. (2011). Walking through doorways causes forgetting: Further explorations. Quarterly Journal of Experimental Psychology, 64, 1632–1645.
Radvansky, G. A., Tamplin, A. K. and Krawietz, S. A. (2010). Walking through doorways causes forgetting: Environmental integration. Psychonomic Bulletin and Review, 17, 900–904.
Reed, E. S., Montgomery, M., Schwartz, M., Palmer, C. and Pittenger, J. B. (1992). Visually based descriptions of an everyday action. Ecological Psychology, 4, 129–152.
Reynolds, J. R., Zacks, J. M. and Braver, T. S. (2007). A computational model of event segmentation from perceptual prediction. Cognitive Science, 31, 613–643.
Sargent, J. Q., Zacks, J. M., Hambrick, D. Z., Zacks, R. T., Kurby, C. A., Bailey, H. R., Eisenberg, M. L. and Beck, T. M. (2013). Event segmentation uniquely predicts event memory. Cognition, 129, 241–255.
Schank, R. and Abelson, R. (1977). Scripts, plans, goals, and understanding. Hillsdale, NJ: Erlbaum.
Schwan, S. and Garsoffky, B. (2004). The cognitive representation of filmic event summaries. Applied Cognitive Psychology, 18, 37–55.
Schwan, S., Garsoffky, B. and Hesse, F. W. (2000). Do film cuts facilitate the perceptual and cognitive organization of activity sequences? Memory and Cognition, 28, 214–223.
Sitnikova, T., Holcomb, P. J., Kiyonaga, K. A. and Kuperberg, G. R. (2008). Two neurocognitive mechanisms of semantic integration during the comprehension of visual real-world events. Journal of Cognitive Neuroscience, 20, 2037–2057
Sitnikova, T., Kuperberg, G. and Holcomb, P. J. (2003). Semantic integration in videos of real-world events: An electrophysiological investigation. Psychophysiology, 40, 160–164.
Smith, T. J. and Henderson, J. M. (2008). Edit blindness: The relationship between attention and global change in dynamic scenes. Journal of Eye Movement Research, 2, 1–17.
Speer, N. K., Swallow, K. M. and Zacks, J. M. (2003). Activation of human motion processing areas during event perception. Cognitive, Affective, and Behavioral Neuroscience, 3, 335–345.
Stranger, J. and Hommel, B. (1996). The perception of action and movement. In W. Prinz and B. Bridgeman (Eds.), Handbook of perception and action, Vol. 1 (pp. 397–451). San Diego, CA: Academic Press.
Strayer, D. L., Watson, J. M. and Drews, F. A. (2011). Cognitive distraction while multitasking in the automobile. Psychology of Learning and Motivation, 54, 29–58.
Swallow, K. M., Barch, D. M., Head, D., Maley, C. J., Holder, D. and Zacks, J. M. (2011). Changes in events alter how people remember recent information. Journal of Cognitive Neuroscience, 23, 1052–1064.
Swallow, K. M. and Zacks, J. M. (2008). Sequences learned without awareness can orient attention during the perception of human activity. Psychonomic Bulletin and Review, 15, 116–122.
Swallow, K. M., Zacks, J. M. and Abrams, R. A. (2009). Event boundaries in perception affect memory encoding and updating. Journal of Experimental Psychology: General, 138, 236–257.
van Herten, M., Chwilla, D. J. and Kolk, H. H. (2006). When heuristics clash with parsing routines: ERP evidence for conflict monitoring in sentence perception. Journal of Cognitive Neuroscience, 18, 1181–1197.
Vicente, K. J. (1999). Cognitive work analysis: Toward safe, productive, and healthy computer-based work. Mahwah, NJ: Erlbaum.
Zacks, J. M., Braver, T. S., Sheridan, M. A., Donaldson, D. I., Snyder, A. Z., Ollinger, J. M., Buckner, R. L. and Raichle, M. E. (2001). Human brain activity time-locked to perceptual event boundaries. Nature Neuroscience, 4, 651–655.
Zacks, J. M., Kumar, S. and Abrams, R. A., Mehta, R. (2009). Using movement and intentions to understand human activity. Cognition, 112, 201–216.
Zacks, J. M. and Sargent, J. Q. (2010). Event Perception: A Theory and Its Application to Clinical Neuroscience. Psychology of Learning and Motivation. 53, 253–299.
Zacks, J., Speer, N., Reynolds, J. R. (2009). Segmentation in reading and film comprehension. Journal of Experimental Psychology: General, 138, 307–327.
Zacks, J. M., Speer, N. K., Swallow, K. M., Braver, T. S. and Reynolds, J. R. (2007). Event perception: A mind/brain perspective. Psychological Bulletin, 133, 273–293.
Zacks, J. M., Speer, N. K., Swallow, K. M. and Maley, C. J. (2010). The brain’s cutting-room floor: segmentation of narrative cinema. Frontiers in Human Neuroscience, 4, ArtID 168.
Zacks, J. M., Speer, N. K., Vettel, J. M. and Jacoby, L. L. (2006). Event understanding and memory in healthy aging and dementia of the Alzheimer type. Psychology and Aging, 21, 466–482.
Zacks, J. M. and Tversky, B. (2001). Event structure in perception and conception. Psychological Bulletin, 127, 3–21.
Zacks, J. M. and Tversky, B. (2003). Structuring information interfaces for procedural learning. Journal of Experimental Psychology: Applied, 9, 88–100.
Zacks, J. M., Tversky, B. and Iyer, G. (2001). Perceiving, remembering, and communicating structure in events. Journal of Experimental Psychology: General, 130, 29–58.
Zalla, T., Pradat–Diehl, P. and Sirigu, A. (2003). Perception of action boundaries in patients with frontal lobe damage. Neuropsychologia, 41, 1619–1627.
Zalla, T., Sirigu, A., Pillon, B., Dubois, B., Agid, Y. and Grafman, J. (2000). How patients with Parkinson’s disease retrieve and manage cognitive event knowledge. Cortex, 36, 163–179.
Zalla, T., Verlut, I., Franck, N., Puzenat, D. and Sirigu, A. (2004). Perception of dynamic action in patients with schizophrenia. Psychiatry Research, 128, 39–51.
Zanini, S. (2008). Generalised script sequencing deficits following frontal lobe lesions. Cortex, 44, 140–149.
Zwaan, R. A., Magliano, J. P. and Graesser, A. C. (1995). Dimensions of situation model construction in narrative comprehension. Journal of Experimental Psychology: Learning, Memory and Cognition, 21, 386–397.
Zwaan, R. A. and Radvansky, G. A. (1998). Situation models in language comprehension and memory. Psychological Bulletin, 123, 162–185.

References

Anderson, N., Risko, E. F. and Kingstone, A. (2011). Exploiting human sensitivity to gaze for tracking the eyes. Behavior Research Methods, 43, 843–852.
Babcock, J. S. and Pelz, J. (2004). Building a lightweight eyetracking headgear. ETRA 2004: Eye Tracking Research and Applications Symposium, pp. 109–113.
Baron-Cohen, S. (1995). Mind blindness. Cambridge, MA: MIT Press.
Baumeister, R. F. (1982). A self-presentational view of social phenomena. Psychological Bulletin, 91, 3–26. DOI:10.1037/0033–2909.91.1.3.
Birmingham, E., Bischof, W. F. and Kingstone, A. (2008). Gaze selection in complex social scenes. Visual Cognition, 16, 341–355.
Birmingham, E., Bischof, W. F. and Kingstone, A. (2009). Saliency does not account for fixations to eyes within social scenes. Vision Research, 49, 2992–3000. DOI:10.1016/j.visres.2009.09.014.
Bond, C. F. and Titus, L. J. (1983). Social facilitation: A meta-analysis of 241 studies. Psychological Bulletin, 94, 265–292. DOI:10.1037/0033–2909.94.2.265.
Bungum, T. J., Day, C. and Henry, L. J. (2005). The association of distraction and caution displayed by pedestrians at a lighted crosswalk. Journal of Community Health, 30, 269–279.
Brennan, A. A., Watson, M. R., Kingstone, A. and Enns, J. T. (2011). Person perception informs understanding of cognition during visual search. Attention, Perception, & Psychophysics, 73, 1672–1693.
California Department of Motor Vehicles. (2011). California Vehicle Code 23123.
Crundall, D., Bains, M., Chapman, P. and Underwood, G. (2005). Regulating conversation during driving: A problem for mobile telephones? Transportation Research, 8, 197–211. DOI:10:1016/j.trf.2005.01.003.
Crundall, D. and Underwood, G. (2008). Some practical constraints on cognitive ethology: Striking the balance between a theoretical approach and a practical methodology. British Journal of Psychology, 99, 341–345.
Dorr, M., Martinetz, T., Gegenfurtner, K. R. and Barth, E. (2010). Variability of eye movements when viewing dynamic natural scenes. Journal of Vision, 10, 1–17.
Drews, F. A., Pasupathi, M. and Strayer, D. L. (2008). Passenger and cell phone conversations in simulated driving. Journal of Experimental Psychology: Applied, 14, 392–400. DOI:10.1037/a0013119.
Foulsham, T., Chapman, C., Nasiopoulos, E. and Kingstone, A. (in press). Top-down and bottom-up aspects of active search in a real world environment. Canadian Journal of Experimental Psychology.
Foulsham, T. and Underwood, G. (2008). What can saliency models predict about eye movements? Spatial and sequential aspects of fixations during encoding and recognition. Journal of Vision, 8, 1–17. DOI:10.1167/8.2.6.
Foulsham, T., Walker, E. and Kingstone, A. (2011). The where, what and when of gaze allocation in the lab and the natural environment. Vision Research, 51, 1920–1931. DOI:10.1016/j.visres.2011.07.002.
Friesen, C. and Kingstone, A. (1998). The eyes have it! Reflexive orienting is triggered by nonpredictive gaze. Psychonomic Bulletin and Review, 5, 490–495.
Gallup, A. C., Chong, A. and Couzin, I. D. (2012a). The directional flow of visual information transfer between pedestrians. Biology Letters 8, 520–522.
Gallup, A. C., Hale, J. J., Sumpter, D. J T., Garnier, S., Kacelnik, A., Krebs, J. R. and Couzin, I. D. (2012b). Visual attention and the acquisition of information in human crowds. Proceedings of the National Academy of Sciences of the United States of America, 109, 7245–7250. DOI:10.1073/pnas.1116141109.
Gullberg, M. and Holmqvist, K. (2006). What speakers do and what addressees look at: Visual attention to gestures in human interaction live and on video. Pragmatics and Cognition, 14, 53–82. DOI:10.1075/pc.14.1.05gul.
Hatfield, J. and Murphy, S. (2007). The effects of mobile phone use on pedestrian crossing behavior at signalized and unsignalized intersections. Accident Analysis and Prevention, 39, 197–205. DOI:10.1016/ j.aap.2006.07.001.
Hayhoe, M. M., Shrivastava, A., Mruczek, R. and Pelz, J. B. (2003). Visual memory and motor planning in a natural task. Journal of Vision, 3, 49–63.
Hietanen, J. K. and Leppanen, J. M. (2003). Does facial expression affect attention orienting by gaze direction cues? Journal of Experimental Psychology: Human Perception and Performance, 29, 1228–1243. DOI:10.1037/0096–1523.29.6.1228.
Hoffman, R. R. and Militello, L. G. (2008). Perspectives on cognitive task analysis: Historical origins and modern communities of practice. Boca Raton, FL: CRC Press/Taylor & Francis.
Horrey, W. J. and Wickens, C. D. (2006). Examining the impact of cell phone conversations on driving using meta-analytic techniques. Human Factors, 48, 196–205. DOI:10.1518/001872006776412135.
Hutchins, E. (1995). Cognition in the wild. Cambridge, MA: The MIT Press.
Hutt, C. and Hutt, S. J. (1970). Direct observation and measurement of behavior. Springfield, IL: Thomas.
Hyman, I. E., Boss, S. M., Wise, B. M., McKenzie, K. E. and Caggiano, J. M. (2010). Did you see that unicycling clown? In attentional blindness while walking and talking on a cell phone. Applied Cognitive Psychology, 24, 597–607. DOI:10.1002/acp.1638.
Itti, L. and Koch, C. (2000). A saliency-based search mechanism for overt and covert shifts of visual attention. Vision Research, 40, 1489–1506. DOI:10.1016/s0042–6989(99)00163–7.
Kingstone, A. (2009). Taking a real look at social attention. Current Opinions in Neurobiology, 19, 52–56. DOI:10.1016/j.conb.2009.05.004.
Kingstone, A., Smilek, D. and Eastwood, J. D. (2008). Cognitive ethology: A new approach for studying human cognition. British Journal of Psychology, 99, 317–345.
Klin, A., Jones, W., Schultz, R., Volkmar, F. and Cohen, D. (2002). Defining and quantifying the social phenotype in autism. Journal of Psychiatry, 159, 909–916. DOI:10.1176/appi.ajp.159.6.895.
Kuhn, G., Tatler, B. W., Findlay, J. M. and Cole, G. G. (2008). Misdirection in magic: Implications for the relationship between eye gaze and attention. Visual Cognition, 16(2–3), 391–405. DOI:10.1080/13506280701479750.
Laidlaw, K. E. W., Foulsham, T., Kuhn, G. and Kingstone, A. (2011). Potential social interactions are important to social attention. Proceedings of the National Academy of Sciences, 108, 5548–5553. DOI:10.1073/pnas.1017022108.
Laidlaw, K. E. W., Risko, E. F. and Kingstone, A. (2012). A new look at social attention: Orienting to the eyes is not (entirely) under volitional control. Journal of Experimental Psychology: Human Perception and Performance. Advanced online publication. DOI:10.1037/a0027075.
Land, M. F. and Lee, D. N. (1994). Where we look when we steer. Nature, 369, 742–744.
Land, M. F. and McLeod, P. (2000). From eye movements to actions: How batsman hit the ball. Nature Neuroscience, 3, 1340–1345.
Land, M., Mennie, N. and Rusted, J. (1999). The roles of vision and eye movements in the control of activities of daily living. Perception, 28, 1311–1328.
Land, M. and Tatler, B. W. (2009). Looking and acting: Vision and eye movements in natural behavior. New York: Oxford University Press.
Latane, B. (1981). The psychology of social impact. American Psychologist, 36, 343–356. DOI:10.1037/0003–066x.36.4.343.
McCarley, J. S., Kramer, A. F., Wickens, C. D., Vidoni, E. D. and Boot, W. R. (2004). Visual skills in airport security screening. Psychological Science, 15, 302–306.
Nasar, J., Hecht, P. and Wener, R. (2008). Mobile telephones, distracted attention, and pedestrian safety. Accident Analysis and Prevention, 40, 69–75. DOI:10.1016/j.aap.2007.04.005.
Neider, M. B., McCarley, J. S., Crowell, J. A., Kaczmarski, H. and Kramer, A. F. (2010). Pedestrians, vehicles, and cell phones. Accident Analysis and Prevention, 42, 589–594. DOI:10.1016/j.aap.2009.10.004.
Orne, M. T. (1962). On the social psychology of the psychology experiment: With particular reference to demand characteristics and their implication. American Psychologist, 17, 776–783. DOI:10.1037/h0043424.
Parkhurst, D., Law, K. and Niebur, E. (2002). Modeling the role of salience in the allocation of overt visual attention. Vision Research, 42, 107–123.
Patla, A. E. and Vickers, J. (2003). How far ahead do we look when required to step on specific locations in the travel path during locomotion? Experimental Brain Research, 148, 133–138.
Posner, M. I. (1980). Orienting of Attention. Quarterly Journal of Experimental Psychology, 32, 3–25.
Posner, M. I., Snyder, C. R. and Davidson, B. J. (1980). Attention and the detection of signals. Journal of Experimental Psychology: General, 109, 160–174. DOI:10.1037/0096–3445.109.2.160.
Putman, P., Hermans, E. and van Honk, J. (2006). Anxiety meets fear in perception of dynamic expressive gaze. Emotion, 6, 94–102.
Rayner, K. (1998). Eye movements in reading and information processing: 20 years of research. Psychological Bulletin, 124, 372–422. DOI:10.1037/0033–2909.124.3.372.
Risko, E. F., Anderson, N., Lanthier, S. N. and Kingstone, A. (2012). Curious eyes: Individual differences in personality predict eye movement behavior. Cognition, 122, 86–90.
Risko, E. F. and Kingstone, A. (2011). Eyes wide shut: Implied social presence, eye tracking and attention. Attention, Perception, and Psychophysics, 73, 291–296. DOI:10.3758/s13414–010–0042–1.
Risko, E. F., Laidlaw, K., Freeth, M., Foulsham, T. and Kingstone, A. (2012). Real vs. reel: An empirical approach to the equivalence of different “social” stimuli. Frontiers in Human Neuroscience, 6, 143.
Risko, E. F., Quilty, L. C. and Oakman, J. M. (2006). Socially desirable responding on the web: Investigating the candor hypothesis. Journal of Personality Assessment, 87, 269–276.
Schilbach, L. (2010). A second-person approach to other minds. Nature Reviews Neuroscience, 11, 449. DOI:10.1038/nrn2805-c1.
Stainer, M.J., Scott-Brown, K.C. and Tatler, B.W. (2013) Behavioral biases when viewing multiplexed scenes: Scene structure and frames of reference for inspection. Frontiers in Psychology, 4, DOI: 10.3389/fpsyg.2013.00624.
Strayer, D. L. and Johnston, W. A. (2001). Driven to distraction: Dual-task studies of simulated driving and conversing on a cellular telephone. Psychological Science, 12, 462–466. DOI:10.1111/1467–9280.00386.
Tatler, B. W., Hayhoe, M. M., Land, M. F. and Ballard, D. H. (2011). Eye guidance in natural vision: Reinterpreting salience. Journal of Vision, 11, 5. DOI:10.1167/11.5.5.
Treisman, A. M. and Gelade, G. (1980). A feature-integration theory of attention. Cognitive Psychology, 12, 97–136. DOI:10.1016/0010–0285(80)90005–5.
Tunnell, G. (1977). Three dimensions of naturalness: An expanded definition of field research. Psychological Bulletin, 84, 426–477. DOI:10.1037/0033–2909.84.3.426.
Turano, K. A., Geruschat, D. R. and Baker, F. H. (2003). Oculomotor strategies for the direction of gaze tested with real world activity. Vision Research, 43, 333–346. DOI:10.1016/s0042–6989(02)00498–4.
Wade, N. J. and Tatler, B. W. (2005). The moving tablet of the eye: The origins of modern eye movement research. Oxford: Oxford University Press.
Walker, E. J., Lanthier, S. N., Risko, E. F. and Kingstone, A. (2012). The effects of personal music devices on pedestrian behaviour. Safety Science, 50, 123–128. DOI:10.1016/j.ssci.2011.07.011
Wolfe, J. M. (1994). Guided search 2.0 a revised model of visual search. Psychonomic Bulletin and Review, 1, 202–238.
Wu, D.W.-L., Bischof, W.F. and Kingstone, A. (2013). Looking while eating: The importance of social context to social attention. Scientific Reports, 3, 2356. DOI:10.1038/ srep02356.
Wu, D.W.-L., Bischof, W.F. and Kingstone, A. (2014). Natural gaze signaling in a social context. Evolution & Human Behavior, 35, 211–218.

References

Barber, B. (1983). The logic and limits of trust. New Brunswick, NJ: Rutgers University Press.
Bliss, J. P. (2003). Collective mistrust of alarms. International Journal of Applied Aviation Studies, 3, 13–38.
Breznitz, S. (1984). Cry-wolf: The psychology of false alarms. Hillsdale, NJ: Lawrence Erlbaum.
Brown, R. D. and Galster, S. M. (2004). Effects of reliable and unreliable automation on subjective measures of mental workload, situation awareness, trust, and confidence in a dynamic flight task. Proceedings of the 48th Annual Meeting of the Human Factors and Ergonomics Society, Santa Monica, CA, pp. 147–151.
Cohen, M. S., Parasuraman, R. and Freeman, J. T. (1998). Trust in decision aids: What is it and how can it be improved? Proceedings of the 1998 Command and Control Research and Technology Symposium, Monterey, CA, pp. 1–28.
Dijkstra, J. J. (1999). User agreement with incorrect expert system advice. Behaviour and Information Technology, 18, 399–411.
Dzindolet, M. T., Peterson, S. A., Pomranky, R. A., Pierce, L. G. and Beck, H. P. (2003). The role of trust in automation reliance. International Journal of Human Computer Studies: Special Issue on Trust and Technology, 58, 697–718.
Dzindolet, M. T., Pierce, L. G., Beck, H. P. and Dawe, L. A. (2002). The perceived utility of human and automated aids in a visual detection task. Human Factors, 44, 79–94.
Dzindolet, M. T., Pierce, L. G., Beck, H. P., Dawe, L. A. and Anderson, B. W. (2001). Predicting misuse and disuse of combat identification systems. Military Psychology, 13, 147–164.
Earley, P. C. (1988). Computer-generated performance feedback in magazine subscription industry. Organizational Behavior and Human Decision Processes, 41, 50–64.
Fallon, C. K., Bustamante, E. A., Ely, K. M. and Bliss, J. P. (2005). Improving user trust with a likelihood alarm display. In Proceedings of the 11th International Conference on Human-Computer Interaction. New York: ACM, pp. 1–10
Friedman, B. (1995). “It’s the computer’s fault” – reasoning about computers as moral Agents, Proceedings of the CHI Conference. Denver.
Herbig, P. and Milewicz, J. (1993). The relationship of reputation and credibility to brand success. Journal of Consumer Marketing, 10, 18–24.
Hwang, P. and Burgers, W. P. (1997). Properties of trust: An analytical view. Organizational Behavior and Human Decision Processes, 69(1), 67–73.
Jian, J. Y., Bisantz, A. M. and Drury, C. G. (2000). Foundations for an empirically determined scale of trust in automated systems. International Journal of Cognitive Ergonomics, 4, 53–71.
Johnson, M., Bradshaw, J. M., Feltovich, P. J., Hoffman, R. R., Jonker, C., van Riemsdijk, B. and Sierhius, M. (2011). Beyond cooperative robotics: The central role of interdependence in coactive design. Human-Centered Computing, 11, 1541–1672.
Kim, J. and Moon, J. Y. (1998). Designing towards emotional usability in customer interfaces – trustworthiness of cyber-banking system interfaces. Interacting with Computers, 10, 1–29.
Lee, J. D. and Moray, N. (1992). Trust, control strategies and allocation of function in human machine systems. Ergonomics, 22, 671–691.
Lee, J. D. and Moray, N. (1994). Trust, self-confidence, and operators’ adaptation to automation. International Journal of Human-Computer Studies, 40, 153–184.
Lee, J. D. and See, K. A. (2004). Trust in automation: Designing for appropriate reliance. Human Factors, 46, 50–80.
Madhavan, P. and Wiegmann, D. A. (2007). Effects of information source, reliability, and pedigree on operator interaction with decision support systems. Human Factors, 47, 332–341.
Madhavan, P., Wiegmann, D. A. and Lacson, F. C. (2006). Automation failures on tasks easily performed by operators undermine trust in automated aids. Human Factors, 48, 241–256.
Maltz, M. and Meyer, J. (2001). Use of warnings in an attentionally demanding detection task. Human Factors, 43, 217–226.
Maltz, M. and Shinar, D. (2003). New alternative methods of analyzing human behavior in cued target acquisition. Human Factors, 45, 281–295.
Mayer, A. (2008). The manipulation of user expectancies: Effects on reliance, compliance, and trust using an automated system. Master’s thesis, Department of Psychology, Georgia Institute of Technology, Atlanta.
McGuirl, J. M. and Sarter, N. B. (2006). Supporting trust calibration and the effective use of decision aids by presenting dynamic system confidence information. Human Factors, 48, 656–665.
Merritt, S. M. and Ilgen, D. R. (2008). Not all trust is created equal: Dispositional and history based trust in human-automation interactions. Human Factors, 50, 194–210.
Meyer, J. (2004). Conceptual issues in the study of dynamic hazard warnings. Human Factors, 46, 196–204.
Morgan, T. (1992). Competence and responsibility in intelligent systems, Artificial Intelligence Review, 6, 217–226.
Mosier, K. L. and Skitka, L. J. (1996). Human decision makers and automated decision aids: Made for each other? In R. Parasuraman and M. Mouloua, (Eds.), Automation and human performance: Theory and applications (pp. 201–220). Mahwah, NJ: Lawrence Erlbaum Associates.
Muir, B. M. (1989). Trust between humans and machines, and the design of decision aids. International Journal of Man-Machine Studies, 27, 527–539.
Muir, B. M. and Moray, N. (1996). Trust in automation part II: Experimental studies of trust and human intervention in a process control simulation. Ergonomics, 39, 429–460.
Nan, X. (2007). The effect of perceived source credibility on persuasion: Moderators and mechanisms. Paper presented at the Annual Meeting of the International Communication Association, San Francisco. Downloaded from http://www.allacademic.com/meta/p168951_index.html, 17 July 2008.
Parasuraman, R., Molloy, R. and Singh, I. L. (1993). Performance consequences of automation-induced “complacency.” International Journal of Aviation Psychology, 3(1), 1–23.
Parasuraman, R. and Riley, V. (1997). Humans and automation use: Use, misuse, disuse. Human Factors, 39, 230–253.
Parasuraman, R., Sheridan, T. B. and Wickens, C. D. (2000). A model for types and levels of human interaction with automation. IEEE Transactions on Systems, Man, and Cybernetics – Part A: Systems and Humans, 30, 286–297.
Parasuraman, R. and Wickens, C. D. (2008). Humans: Still vital after all these years of automation. Human Factors, 50, 511–520.
Petty, R. E. and Cacioppo, J. T. (1981). Attitudes and persuasion: Classic and contemporary approaches. Dubuque, IA: William C. Brown.
Rhine, R. J. and Severance, L. J. (1970). Ego-involvement, discrepancy, source credibility and attitude change. Journal of Personality and Social Psychology, 16, 175–190.
Safar, J. A. and Turner, C. W. (2005). Validation of a two-factor structure for system trust. Proceedings of the 49th Annual Meeting of the Human Factors and Ergonomics Society. Santa Monica, CA: Human Factors and Ergonomics Society, pp. 497–501.
Sampson, J. P. (1986). Computer technology and counseling psychology: Regression towards the machine? Counseling Psychologist, 14(4), 567–583.
Sanchez, J. (2006). Factors that affect trust and reliance on an automated aid. Unpublished doctoral dissertation. Georgia Institute of Technology, Atlanta.
Sheridan, T. B. (2002). Humans and automation: System design and research issues. Santa Monica, CA: Wiley Interscience.
Sheridan, T. B. and Farrell, W. (1974). Man-machine Systems: Information, control, and decision models of human performance. Cambridge, MA: MIT Press.
Sheridan, T. B. and Parasuraman, R. (2006). Human-automation interaction. Reviews of Human Factors and Ergonomics, 1, 89–129.
Sheridan, T. B. and Verplank, W. L. (1978). Human and computer control of undersea teleoperators. Report. Cambridge, MA: MIT Man-Machine Systems Laboratory.
Spain, R. D. and Bliss, J. P. (2008). The effect of sonification display pulse rate and reliability on operator trust and perceived workload during a simulated patient monitoring task, Ergonomics, 51, 1320–1337.
Spain, R. D., Bustamante, E. A. and Bliss, J. P. (2008). Towards an empirically developed scale for system trust: Take two. In Proceedings of the 52nd Annual Meeting of the Human Factors and Ergonomics Society. Santa Monica, CA: Human Factors and Ergonomics Society, pp. 1335–1339.
Sniezek, J. A. and Von Swol, L. M. (2001). Trust, confidence and expertise in a judge-advisor system. Organizational Behavior and Human Decision Processes, 84, 288–307.
Sorkin, R. D., Kantowitz, B. H. and Kantowitz, S. C. (1988). Likelihood alarm displays. Human Factors, 30, 445–459.
Sorkin, R. D. and Woods, D. D. (1985). Systems with human monitors: A signal detection analysis. Human Computer Interaction, 1, 49–75.
Spain, R. D. and Bliss, J. P. (2008). The effect of sonification display pulse rate and reliability on operator trust and perceived workload during a simulated patient monitoring task. Ergonomics, 51, 1320–1337.
St. John, M. and Manes, D. I. (2002). Making unreliable automation useful. Proceedings of the 46th Annual Meeting of the Human Factors and Ergonomics Society. Santa Monica, CA: Human Factors and Ergonomics Society, pp. 332–336
Wiegmann, D. A., Rich, A. and Zhang, H. (2001). Automated diagnostic aids: The effects of aid reliability on users’ trust and reliance. Theoretical Issues in Ergonomics Science, 2(4), 352–367.

References

Alain, C. and Bernstein, L. (2008). From sounds to meaning: The role of attention during auditory scene analysis. Current Opinion in Otolaryngology and Head and Neck Surgery, 16, 485–489. DOI: 10.1097/MOO.0b013e32830e2096|10.1097/MOO.0b013e32830e2096.
Asutay, E., Vastfjall, D., Tajadura-Jimenez, A., Genell, A., Bergman, P. and Kleiner, M. (2012). Emoacoustics: A study of the psychoacoustical and psychological dimensions of emotional sound design. Journal of the Audio Engineering Society, 60, 21–28.
Ballas, J. A. (1993). Common factors in the identification of an assortment of brief everyday sounds. Journal of Experimental Psychology: Human Perception and Performance, 19, 250–267.
Barkana, B. and Uzkent, B. (2011). Environmental noise classifier using a new set of feature parameters based on pitch range. Applied Acoustics, 72, 841–848. DOI: 10.1016/j.apacoust.2011.05.008.
Barker, J., Cooke, M. and Ellis, D. (2005). Decoding speech in the presence of other sources. Speech Communication, 45, 5–25. DOI: 10.1016/j.specom.2004.05.002|10.1016/j.specom.2004.05.002.
Barker, R. G. (1968). Ecological psychology: Concepts and methods for studying the environment of human behavior. Stanford, CA: Stanford University Press.
Barrass, S. and Zehner, B. (2000). “Responsive sonification of well logs.” Proceedings of the International Conference on Auditory Display. Proceedings of the Meeting of the International Community for Auditory Display. http://www.icad.org/home. Downloaded from http://www.icad.org/websiteV2.0/Conferences/ICAD2000/ICAD2000.html, 24 July 1012.
Bergman, P., Skold, A., Vastfjall, D. and Fransson, N. (2009). Perceptual and emotional categorization of sound. Journal of the Acoustical Society of America, 126, 3156–3167. DOI: 10.1121/1.3243297.
Black, J. D. (2011). “Auditory Display for Liver Surgery.” Report. Bremen, Germany: University of Applied Sciences.
Brazil, E. and Fernstrom, M. (2011). Auditory Icons. In T. Hermann, A. York and J. G. Neuhoff (Eds.), The sonification handbook. Berlin: Logos Verlag.
Bregman, A. S. (1994). Auditory scene analysis: The perceptual organization of sound. Cambridge, MA: Bradford Books, MIT Press.
Carello, C., Anderson, K. L. and Kunkler-Peck, A. J. (1998). Perception of object length by sound. Psychological Science, 9, 211–214. DOI: 10.1111/1467–9280.00040.
Carlyon, R., Thompson, S., Heinrich, A., Pulvermuller, F., Davis, M., Shtyrov, Y., Palmer, A. (2010). Objective measures of auditory scene analysis. Neurophysiological Bases of Auditory Perception. DOI: 10.1007/978–1-4419–5686–6_47|10.1007/978–1-4419–5686–6_47.
Cook, P. R. and Lakatos, S. (2003). “Using DSP-based parametric physical synthesis models to study human sound perception.” Paper presented at the 2003 IEEE Workshop on Applications of Signal Processing to Audio and Acoustics Proceedings, pp. 75–78. DOI: 10.1109/aspaa.2003.1285823.
Cusack, R. and Carlyon, R. (2004). Auditory perceptual organization inside and outside the laboratory. In J. G. Neuhoff (Ed.), Ecological psychoacoustics (pp. 15–48). San Diego: Elsevier.
Cycowicz, Y. and Friedman, D. (1995). Effects of repetition and familiarity of P3 elicited by novel environmental sounds. Meeting abstract. Psychophysiology, 32, S26–S26.
Cycowicz, Y. and Friedman, D. (1998). Effect of sound familiarity on the event-related potentials elicited by novel environmental sounds. Brain and Cognition, 36, 30–51. DOI: 10.1006/brcg.1997.0955.
Cycowicz, Y. and Friedman, D. (2004). The old switcheroo: When target environmental sounds elicit a novelty P3. Clinical Neurophysiology, 115, 1359–1367. DOI: 10.1016/j.clinph.2004.01.008|10.1016/j.clinph.2004.01.008.
De Lucia, M., Cocchi, L., Martuzzi, R., Meuli, R., Clarke, S. and Murray, M. (2010). Perceptual and Semantic Contributions to Repetition Priming of Environmental Sounds. Cerebral Cortex, 20, 1676–1684. DOI: 10.1093/cercor/bhp230.
De Lucia, M., Tzovara, A., Bernasconi, F., Spierer, L. and Murray, M. (2012). Auditory perceptual decision-making based on semantic categorization of environmental sounds. Neuroimage, 60, 1704–1715. DOI: 10.1016/j.neuroimage.2012.01.131.
Demany, L., Semal, C., Cazalets, J. and Pressnitzer, D. (2010). Fundamental differences in change detection between vision and audition. Experimental Brain Research, 203, 261–270. DOI: 10.1007/s00221–010–2226–2.
Drioli, C. and Rocchesso, D. (2007). On the use of kernel-based methods in sound synthesis by physical modeling. Numerical Algorithms, 45, 315–329. DOI: 10.1007/s11075–007–9117-z.
Dunai, L., Fajarnes, G., Praderas, V., Garcia, B. and Lengua, I. (2010). Real-time assistance prototype: A new navigation aid for blind people. Paper presented at IECON 2010–36th Annual Conference of the IEEE Industrial Electronics Society. Downloaded from http://iecon2010.njit.edu/program2.html, 24 July 2012.
Fitch, W. T. and Kramer, G. (1994). Sonifying the body electric – superiority of an auditory over a visual display In G. Kramer (Ed.), Auditory display: Sonification, audification, and auditory interfaces (pp. 307–326). Reading, MA: Addison-Wesley.
Gaver, W. W. (1993a). How do we hear in the world? Explorations in ecological acoustics. Ecological Psychology, 5, 285–313.
Gaver, W. W. (1993b). What in the world do we hear? An ecological approach to auditory source perception. Ecological Psychology, 5, 1–29.
Gaver, W. W., Smith, R. B. and O’Shea, T. (1991). Effective sounds in complex systems: The ARKola Simulation. Proceedings of CHI 1991 (Computer–Human Interaction). New York: Association for Computing Machinery, pp. 85–90.
Ghoraani, B. and Krishnan, S. (2011). Time-frequency matrix feature extraction and classification of environmental audio signals. IEEE Transactions on Audio Speech and Language Processing, 19, 2197–2209. DOI: 10.1109/TASL.2011.2118753.
Gibson, J. J. (1966). The senses considered as perceptual systems. Boston: Houghton Mifflin.
Gilkey, R. H. and Weisenberger, J. M. (1995). The sense of presence for the suddenly deafened adult: Implications for virtual environments. Presence-Teleoperators and Virtual Environments, 4, 357–363.
Giordano, B., McDonnell, J. and McAdams, S. (2010). Hearing living symbols and nonliving icons: Category specificities in the cognitive processing of environmental sounds. Brain and Cognition, 73, 7–19. DOI: 10.1016/j.bandc.2010.01.005.
Gordon, M. S. and Rosenblum, L. D. (2004). Perception of sound-obstructing surfaces using body-scaled judgments. Ecological Psychology, 16, 87–113. DOI: 10.1207/s15326969eco1602_1.
Grohn, M., Lokki, T., Savioja, L. and Takala, T. (2001). Some aspects of role of audio in immersive visualization.” Paper presented at the 8th Meeting of the Visual Data Exploration and Analysis Conference, San Jose, CA. Downloaded from http://openlibrary.org/b/OL3971551M/Visual_data_Exploration_and_analysis_VIII, 24 July 2012.
Grohn, M., Lokki, T. and Takala, T. (2003). “Comparison of auditory, visual, and audio-visual navigation in a 3D space.” Proceedings of the International Conference on Auditory Display, MA. Downloaded from http://www.icad.org/Proceedings/2003/GroehnLokki2003.pdf, 24 July 2012.
Gygi, B., Kidd, G. and Watson, C. (2004). Spectral-temporal factors in the identification of environmental sounds. Journal of the Acoustical Society of America, 115(3), 1252–1265. DOI: 10.1121/1.1635840|10.1121/1.1635840.
Gygi, B., Kidd, G. and Watson, C. (2007). Similarity and categorization of environmental sounds. Perception and Psychophysics, 69(6), 839–855. DOI: 10.3758/BF03193921.
Gygi, B. and Shafiro, V. (2011). The incongruency advantage for environmental sounds presented in natural auditory scenes. Journal of Experimental Psychology—Human Perception and Performance, 37(2), 551–565. DOI: 10.1037/a0020671|10.1037/a0020671.
Hayward, C. (1994). Listening to the earth sing. In G. Kramer (Ed.), Auditory display: Sonification, audification, and auditory interfaces (pp. 369–404). Reading, MA: Addison-Wesley.
Hendrix, C. and Barfield, W. (1996). The sense of presence within auditory virtual environments. Presence-Teleoperators and Virtual Environments, 5(3), 290–301.
Hocking, J., McMahon, K. and de Zubicaray, G. (2011). Cortical organization of environmental sounds by attribute. Human Brain Mapping, 32(5), 688–698. DOI: 10.1002/hbm.21040|10.1002/hbm.21040.
Hodge, B. and Thompson, J. F. (1990). Noise-pollution in the operating-theater. Lancet, 335(8694), 891–894. DOI: 10.1016/0140–6736(90)90486-o.
Houben, M. M. J., Kohlrausch, A. and Hermes, D. J. (2004). Perception of the size and speed of rolling balls by sound. Speech Communication, 43(4), 331–345. DOI: 10.1016/j.specom.2004.03.004.
Houix, O., Lemaitre, G., Misdariis, N., Susini, P. and Urdapilleta, I. (2012). A lexical analysis of environmental sound categories. Journal of Experimental Psychology-Applied, 18(1), 52–80. DOI: 10.1037/a0026240.
Kanabus, M., Szelag, E., Rojek, E. and Poppel, E. (2002). Temporal order judgement for auditory and visual stimuli. Acta Neurobiologiae Experimentalis, 62, 263–270.
Kiefer, N. and Hoeft, A. (2010). Display of information in the operating room. Current Opinion in Anesthesiology, 23(6), 772–777. DOI: 10.1097/ACO.0b013e32834045fd.
Kramer, G., Walker, B., Bonebright, T., Cook, P., Flowers, J., Miner, N. et al. (1999). Sonification report: Status of the field and research agenda. Palo Alto, CA: International Community for Auditory Display.
Kunkler-Peck, A. J. and Turvey, M. T. (2000). Hearing shape. Journal of Experimental Psychology-Human Perception and Performance, 26, 279–294. DOI: 10.1037//0096–1523.26.1.279.
Lemaitre, G., Dessein, A., Susini, P. and Aura, K. (2011). Vocal imitations and the identification of sound events. Ecological Psychology, 23, 267–307. DOI: 10.1080/10407413.2011.617225.
Lemaitre, G. and Heller, L. M. (2013). Evidence for a basic level in a taxonomy of everyday action sounds. Experimental Brain Research, 226(2), 253–264. DOI: 10.1007/s00221-013-3430-7.
Lemaitre, G. and Heller, L. M. (2012). Auditory perception of material is fragile while action is strikingly robust. Journal of the Acoustical Society of America, 131, 1337–1348. DOI: 10.1121/1.3675946.
Li, X. F., Logan, R. J. and Pastore, R. E. (1991). Perception of acoustic source characteristics – walking sounds. Journal of the Acoustical Society of America, 90, 3036–3049. DOI: 10.1121/1.401778.
Liu, Y. C. (2001). Comparative study of the effects of auditory, visual and multimodality displays on drivers’ performance in advanced traveller information systems. Ergonomics, 44, 425–442. DOI: 10.1080/00140130010011369.
Loeb, R. G. and Fitch, W. T. (2002). A laboratory evaluation of an auditory display designed to enhance intraoperative monitoring. Anesthesia and Analgesia, 94, 362–368. DOI: 10.1097/00000539–200202000–00025.
Lokki, T., Savioja, L., Vaananen, R., Huopaniemi, J. and Takala, T. (2002). Creating interactive virtual auditory environments. IEEE Computer Graphics and Applications, 22, 49–57. DOI: 10.1109/mcg.2002.1016698.
Loomis, J. M., Golledge, R. G. and Klatzky, R. L. (1998). Navigation system for the blind: Auditory display modes and guidance. Presence-Teleoperators and Virtual Environments, 7, 193–203. DOI: 10.1162/105474698565677.
Loomis, J. M., Hebert, C. and Cicinelli, J. G. (1990). Active localization of virtual sounds. Journal of the Acoustical Society of America, 88, 1757–1764. DOI: 10.1121/1.400250.
Marston, J. R., Loomis, J. M., Klatzky, R. L. and Golledge, R. G. (2007). Nonvisual route following with guidance from a simple haptic or auditory display. Journal of Visual Impairment and Blindness, 101, 203–211.
McBeath, M. and Neuhoff, J. (2002). The Doppler effect is not what you think it is: Dramatic pitch change due to dynamic intensity change. Psychonomic Bulletin and Review, 9, 306–313. DOI: 10.3758/BF03196286.
McFarland, D., Cacace, A. and Setzen, G. (1998). Temporal-order discrimination for selected auditory and visual stimulus dimensions. Journal of Speech Language and Hearing Research, 41, 300–314.
Mechtley, B., Wichern, G., Thornburg, H. and Spanias, A. (2010). Combining semantic, social, and acoustic similarity for retrieval of environmental sounds. Proceedings of the 2010 IEEE International Conference on Acoustics, Speech, and Signal Processing, 2402–2405. DOI: 10.1109/ICASSP.2010.5496225.
Melara, R. D. and Marks, L. E. (1990). Interaction among auditory dimensions – timbre, pitch, and loudness. Perception and Psychophysics, 48, 169–178. DOI: 10.3758/bf03207084.
Mesgarani, N., Slaney, M. and Shamma, S. (2006). Discrimination of speech from nonspeech based on multiscale spectro-temporal modulations. IEEE Transactions on Audio Speech and Language Processing, 14, 920–930. DOI: 10.1109/TSA.2005.858055|10.1109/TSA.2005.858055.
Molino, J. A. (1973). Pure-tone equal-loudness contours for standard tones of different frequencies. Perception & Psychophysics 14, 1–4.
Murray, C. D., Arnold, P. and Thornton, B. (2000). Presence accompanying induced hearing loss: Implications for immersive virtual environments. Presence-Teleoperators and Virtual Environments, 9, 137–148.
Murray, M., Camen, C., Andino, S., Bovet, P. and Clarke, S. (2006). Rapid brain discrimination of sounds of objects. Journal of Neuroscience, 26, 1293–1302. DOI: 10.1523/JNEUROSCI.4511–05.2006|10.1523/JNEUROSCI.4511–05.2006.
Murthy, V., Malhotra, S. K., Bala, I. and Raghunathan, M. (1995). Detrimental effects of noise on anesthetists. Canadian Journal of Anaesthesia-Journal Canadien D Anesthesie, 42, 608–611.
Nees, M. A. and Walker, B. N. (2008). Data density and trend reversals in auditory graphs: Effects on point-estimation and trend-identification tasks. ACM Transactions on Applied Perception, 5, 24.
Neuhoff, J. G. (Ed.). (2004). Ecological psychoacoustics. San Diego: Elsevier.
Neuhoff, J. G. and Heller, L. M. (2005). One small step: Sound sources and events as the basis for auditory graphs. Proceedings of the 11th International Conference on Auditory Display, Limerick, Ireland. Downloaded from http://icad.org/Proceedings/2005/NeuhoffHeller2005.pdf, 24 July 2012.
Neuhoff, J. G. Knight, R. and Wayand, J. (2002). Pitch change, sonification, and musical expertise: Which way is up? Proceedings of the International Conference on Auditory Display, Kyoto, Japan. Downloaded from http://www.icad.org/Proceedings/2002/NeuhoffKnight2002.pdf, 24 July 2012.
Neuhoff, J. G. Kramer, G. and Wayand, J. (2002). Pitch and loudness interact in auditory displays: Can the data get lost in the map? Journal of Experimental Psychology-Applied, 8, 17–25. DOI: 10.1037//1076–898X.8.1.17|10.1037//1076–898X.8.1.17.
Neuhoff, J. G. and McBeath, M. (1996). The Doppler illusion: The influence of dynamic intensity change on perceived pitch. Journal of Experimental Psychology-Human Perception and Performance, 22, 970–985. DOI: 10.1037/0096–1523.22.4.970.
Neuhoff, J. G. McBeath, M. and Wanzie, W. (1999). Dynamic frequency change influences loudness perception: A central, analytic process. Journal of Experimental Psychology-Human Perception and Performance, 25(4), 1050–1059. DOI: 10.1037/0096–1523.25.4.1050.
Neuhoff, J. G. Planisek, R. and Seifritz, E. (2009). Adaptive sex differences in auditory motion perception: Looming sounds are special. Journal of Experimental Psychology-Human Perception and Performance, 35, 225–234. DOI: 10.1037/a0013159.
Ngo, M. and Spence, C. (2010a). Auditory, tactile, and multisensory cues facilitate search for dynamic visual stimuli. Attention Perception and Psychophysics, 72, 1654–1665. DOI: 10.3758/APP.72.6.1654|10.3758/APP.72.6.1654.
Ngo, M. and Spence, C. (2010b). Crossmodal facilitation of masked visual target discrimination by informative auditory cuing. Neuroscience Letters, 479, 102–106. DOI: 10.1016/j.neulet.2010.05.035.
Peltola, L., Erkut, C., Cook, P. R. and Valimaki, V. (2007). Synthesis of hand clapping sounds. IEEE Transactions on Audio Speech and Language Processing, 15, 1021–1029. DOI: 10.1109/tasl.2006.885924.
Rocchesso, D. (2004). Physically-based sounding objects, as we develop them today. Journal of New Music Research, 33, 305–313. DOI: 10.1080/0929821042000317868.
Rocchesso, D., Bresin, R. and Fernstrom, M. (2003). Sounding objects. IEEE Multimedia, 10, 42–52. DOI: 10.1109/mmul.2003.1195160.
Roma, G., Janer, J., Kersten, S., Schirosa, M., Herrera, P. and Serra, X. (2010). Ecological acoustics perspective for content-based retrieval of environmental sounds. EURASIP Journal on Audio Speech and Music Processing. Downloaded from http://asmp.eurasipjournals.com/content/2010/1/960863, 24 July 2012. DOI: 10.1155/2010/960863|10.1155/2010/960863\.
Rosenblum, L. D., Carello, C. and Pastore, R. E. (1987). Relative effectiveness of 3 stimulus variables for locating a moving sound source. Perception, 16(2), 175–186. DOI: 10.1068/p160175.
Rosenblum, L. D., Gordon, M. S. and Jarquin, L. (2000). Echolocating distance by moving and stationary listeners. Ecological Psychology, 12, 181–206. DOI: 10.1207/s15326969eco1203_1.
Rosenblum, L. D., Wuestefeld, A. P. and Anderson, K. L. (1996). Auditory reachability: An affordance approach to the perception of sound source distance. Ecological Psychology, 8, 1–24. DOI: 10.1207/s15326969eco0801_1.
Sanchez, J. and Saenz, M. (2010). Metro navigation for the blind. Computers and Education, 55, 970–981. DOI: 10.1016/j.compedu.2010.04.008.
Sanchez-Vives, M. V. and Slater, M. (2005). From presence to consciousness through virtual reality. Nature Reviews Neuroscience, 6, 332–339.
Sanderson, P. M., Liu, D. and Jenkins, S. A. (2009). Auditory displays in anesthesiology. Current Opinion in Anesthesiology, 22, 788–795. DOI: 10.1097/ACO.0b013e3283326a2f.
Saue, S. and Fjeld, O. K. (1997). A platform for audiovisual seismic interpretation. Proceedings of the International Conference on Auditory Display, Palo Alto, CA. Downloaded from http://dev.icad.org/Proceedings/1997/SaueFjeld1997.pdf, 24 July 2012.
Schneider, B. et al. (1972). Equal loudness contours derived from sensory magnitude. Journal of the Acoustical Society of America, 51, 1951–1959.
Shao, Y. and Wang, D. (2009). Sequential organization of speech in computational auditory scene analysis. Speech Communication, 51, 657–667. DOI: 10.1016/j.specom.2009.02.003.
Speeth, S. D. (1961). Seismometer sounds. Journal of the Acoustical Society of America, 33, 909–916.
Stillman, J. A., Zwislocki, J. J., Zhang, M. and Cefaratti, L. K. (1993). Intensity just-noticeable differences at equal-loudness levels in normal and pathological ears. Journal of the Acoustical Society of America, 93, 425–434.
Thierry, G. and Roberts, M. (2007). Event-related potential study of attention capture by affective sounds. Neuroreport, 18, 245–248. DOI: 10.1097/WNR.0b013e328011dc95.
Walker, B. N. (2007). Consistency of magnitude estimations with conceptual data dimensions used for sonification. Applied Cognitive Psychology, 21, 579–599. DOI: 10.1002/acp.1291.
Walker, B. N. and Kramer, G. (2004). Ecological acoustics and auditory displays: Hearing, grouping, and meaning making. In J. G. Neuhoff (Ed.), Ecological psychoacoustics (pp. 150–170). San Diego: Elsevier.
Walker, B. N. and Lindsay, J. (2005). Using virtual environments to prototype auditory navigation displays. Assistive Technology, 17, 72–81.
Walker, B. N. and Lindsay, J. (2006). Navigation performance with a virtual auditory display: Effects of beacon sound, capture radius, and practice. Human Factors, 48, 265–278. DOI: 10.1518/001872006777724507.
Warren, W. H. and Verbrugge, R. R. (1984). Auditory-perception of breaking and bouncing events – a case-study in ecological acoustics. Journal of Experimental Psychology-Human Perception and Performance, 10, 704–712. DOI: 10.1037/0096–1523.10.5.704.
Watson, M. O. and Sanderson, P. M. (2007). Designing for attention with sound: Challenges and extensions to ecological interface design. Human Factors, 49, 331–346. DOI: 10.1518/001872007x312531.
Wegner, K. and Karron, D. B. (1998). Audio-guided blind biopsy needle placement. Medicine Meets Virtual Reality: Art, Science, Technology: Healthcare Evolution, 50, 90–95.
Wong, F., Nagarajan, R., Yaacob, S., Chekima, A. and Belkhamza, N. E. (2000, September 24–27). A stereo auditory display for visually impaired. Proceedings of TENCON: Intelligent Systems and Technologies for the New Millennium, pp. 377–382. Downloaded from http://ewh.ieee.org/reg/10/conferences/TENCON/IEEERegion10TechnicalConferenceTENCON2009.pdf, 24 July 2012.
Zhang, Q. and Chen, T. Y. (2004). A progressive sounding object model in virtual environment. In Proceedings of the Third International Conference on Entertainment Computing, pp. 571–576. Downloaded from http://www.icec.id.tue.nl/, 24 July 2012

References

Bingham, G. P., Schmidt, R. C. and Rosenblum, L. D. (1990). Hefting for maximum distance thrown: A smart perceptual mechanism. Journal of Experimental Psychology: Human Perception and Performance, 15, 507–528.
Chemero, A. (2003). An outline of a theory of affordances. Ecological Psychology, 15, 181–195.
Chemero, A. and Turvey, M. T. (2007). Complexity, hypersets, and the ecological perspective on perception-action. Biological Theory, 2, 23–36.
Cornus, S., Montagne, G. and Laurent, M. (1999). Perception of a stepping-across affordance. Ecological Psychology, 11, 249–267.
Gescheider, G. A. (1997). Psychophysics: the fundamentals. Mahwah, NJ: Lawrence Erlbaum Associates.
Gibson, E. J., Riccio, G. E., Schmuckler, M. A., Stoffregen, T. A., Rosenberg, D. and Taormina, J. (1987). Detection of the traversability of surfaces by crawling and walking infants. Journal of Experimental Psychology: Human Perception and Performance, 13, 533–544.
Gibson, J. J. (1966). The senses considered as perceptual systems. Boston: Houghton-Mifflin.
Gibson, J. J. (1977). The theory of affordances. In R. E. Shaw and J. Bransford (Eds.), Perceiving, acting, and knowing: Toward an ecological psychology (pp. 67–82). Hillsdale, NJ: Lawrence Erlbaum Associates.
Gibson, J. J. (1986). The ecological approach to visual perception. Hillsdale, NJ: Lawrence Erlbaum Associates. (Original work published 1979).
Heft, H. (1993). A methodological note on overestimates of reaching distance: Distinguishing between perceptual and analytic judgments. Ecological Psychology, 5, 255–271.
Jones, K. S. (2003). Special issue: How shall affordances be refined? Four perspectives. Journal of Ecological Psychology, 15.
Jones, K. S., Johnson, B. R. and Schmidlin, E. A. (2011). Tele-operation through apertures: Pass-ability vs. drive-ability. Journal of Cognitive Engineering and Decision Making, 5, 10–28.
Mark, L. S., Balliett, J. A., Craver, K. D., Douglas, S. D. and Fox, T. (1990). What an actor must do in order to perceive the affordance for sitting. Ecological Psychology, 2, 325–366.
Mark, L. S. and Vogele, D. (1987). A biodynamic basis for perceived categories of action: A study of sitting and stair climbing. Journal of Motor Behavior, 19, 367–384.
Michaels, C. F. and Carello, C. (1981). Direct perception. Englewood Cliffs, NJ: Prentice-Hall.
Oudejans, R. R. D., Michaels, C. F., Bakker, F. C. and Dolne, M. (1996). The relevance of action in perceiving affordances: Perception of catchableness of fly balls. Journal of Experimental Psychology: Human Perception and Performance, 22, 879–891.
Ramenzoni, V. C., Riley, M. A., Davis, T., Shockley, K. and Armstrong, R. (2008). Tuning in to another person’s action capabilities: Perceiving maximal reach and jump height from walking kinematics. Journal of Experimental Psychology: Human Perception and Performance, 34, 919–928.
Reed, E. S. (1996). Encountering the world. New York: Oxford University Press.
Riley, M. A., Wagman, J. B., Santana, M. V., Carello, C. and Turvey, M. T. (2002). Perceptual behavior: Recurrence analysis of a haptic exploratory procedure. Perception, 31, 481–510.
Sanders, J. T. (1997). An ontology of affordances. Ecological Psychology, 9, 97–112.
Solomon, H. Y. and Turvey, M. T. (1988). Haptically perceiving the distances reachable with hand-held objects. Journal of Experimental Psychology: Human Perception and Performance, 14, 404–427.
Stoffregen, T. A. (1993). “Natural,” “real,” and the use of non-physical displays in perception-action research. ISEP Newsletter, 6, 4–9.
Stoffregen, T. A. (2003). Affordances as properties of the animal-environment system. Ecological Psychology, 3, 317–348.
Stoffregen, T. A. and Bardy, B. G. (2001). On specification and the senses. Behavioral and Brain Sciences, 24, 195–261.
Stoffregen, T. A., Yang, C. M., Giveans, M. R., Flanagan, M. and Bardy, B. G. (2009). Movement in the perception of an affordance for wheelchair locomotion. Ecological Psychology, 21, 1–36.
Turvey, M. T. (1992). Affordances and prospective control: An outline of the ontology. Ecological Psychology, 4, 173–187.

References

Carello, C., Grosofsky, A., Reichel, F. D., Solomon, H. Y. and Turvey, M. T. (1989). Visually perceiving what is reachable. Ecological Psychology, 1, 27–54.
Casey, S. M. (1998). Set phasers on stun: And other true tales of design, technology and human error. Santa Barbara, CA: Aegean.
Duncker, K. (1945). On problem solving. Psychological Monographs, 68, (Whole No. 270).
Epstein, W. (1995). The metatheoretical context. In W. Epstein and S. Rogers (Eds.), The perception of space and motion (pp. 1–22). New York: Academic Press.
Gibson, E. J. (1988). Exploratory behavior in the development of perceiving, acting and acquiring knowledge. Annual Review of Psychology, 39, 1–41.
Gibson, J. J. (1979). The ecological approach to visual perception. Boston: Houghton-Mifflin.
Hamill, J. and Knutzen, K. M. (1995). Biomechanical basis of human movement. Baltimore: Williams & Wilkins.
Jiang, Y. and Mark, L. S. (1994). The effect of gap depth on the perception of whether a gap is crossable. Perception and Psychophysics, 56, 691–700.
Lee, D. N. and Lishman, J. R. (1975). Visual proprioceptive control of stance. Journal of Human Movement Studies, 1, 87–95.
Littman, E. M., Otten, E. W. and Smart, L. J. (2010). Consequence of self versus externally generated visual motion on postural regulation. Ecological Psychology, 22(2), 150–167.
Lombardo, T. J. (1987). The reciprocity of perceiver and environment: The evolution of James J. Gibson’s ecological psychology. Hillsdale, NJ: Erlbaum Associates.
Luchins, A. S. (1942). Mechanisms of problem solving: The effect of Einstellung. Psychological Monographs, 54(6), 248.
Maier, N. R. F. (1933). An aspect of human reasoning. British Journal of Psychology, 24, 114–155.
Marin, L., Bardy, B. G., Baumburger, B., Fluckiger, M. and Stoffregen, T. A. (1999). Interaction between task demands and surface properties in the control of goal-oriented stance. Human Movement Science, 18 (1), 31–47.
Mark, L. S. (1987). Eye height scaled information about affordances: A study of sitting and stair climbing. Journal of Experimental Psychology: Human Perception and Performance, 13, 361–370.
Mark, L. S., Balliett, J., Craver, K., Douglas, S. D. and Fox, T. (1990). What an actor must do to perceive the affordance for sitting. Ecological Psychology, 2, 325–366.
Mark, L. S., Jiang, Y., King, S. S. and Paasche, J. (1999). The impact of visual exploration on judgments of whether a gap is crossable. Journal of Experimental Psychology: Human Perception and Performance, 25, 287–295.
Mark, L. S., Nemeth, K., Gardner, D., Dainoff, M. J., Paasche, J., Duffy, M. and Grandt, K. (1997). Postural dynamics and the preferred critical boundary for visually guided reaching. Journal of Experimental Psychology: Human Perception and Performance, 23, 1365–1379.
Mark, L. S. and Vogele, D. (1987). A biodynamic basis for perceived categories of action: A study of sitting and stair climbing. Journal of Motor Behavior, 19, 367–384.
Nashner, L. M. and McCollum, G. (1985). The organization of postural movements: A formal basis and experimental synthesis. The Behavioral and Brain Sciences, 8, 135–172.
Newell, K. M., Scully, D. M., Tenenbaum, F. and Hardiman, S., (1989). Body scale and the development of prehension. Development Psychobiology, 22, 1–13.
Norman, D. A. (1988) The psychology of everyday things. New York: Basic Books.
Otten, E. W and Smart, L. J. (2009). The effect of open vs. closed-loop optic flow on visually induced motion sickness. In J. Wagman and C. Pagano (Eds.), Studies in perception and action X (149–152). Philadelphia: Taylor & Francis Group.
Oullier, O., Bardy, B. G., Stoffregen, T. A. and Bootsma, R. J. (2002). Postural coordination in looking and tracking tasks. Human Movement Science, 21, 147–167.
Pufall, P. B. and Dunbar, C. (1992). Perceiving whether the world affords stepping onto or over: A developmental study. Ecological Psychology, 4, 17–38.
Reed, E. S. and Jones, R. (1982). Reasons for realism: Select essays of James J. Gibson. Hillsdale, NJ: Lawrence Erlbaum.
Sedgwick, H. A. (1973). The visible horizon. Doctoral Dissertation. Cornell University Library.
Smart, L. J., Mobley, B. S., Otten, E. W., Smith, D. L. and Amin, M. R. (2004). Not just standing there: The use of postural coordination to aid visual tasks. Human Movement Science, 22(6), 769–780.
Smart, L. J., Pagulayan, R. J. and Stoffregen, T. A. (1998). Self-induced motion sickness in unperturbed stance. Brain Research Bulletin, 47(5), 449–457.
Smart, L. J. and Smith, D. L. (2001). Postural dynamics: Clinical and empirical implications. Journal of Manipulative and Physiological Therapeutics, 24 (5), 340–349.
Smart, L. J., Stoffregen, T. A. and Bardy, B. G. (2002). Visually induced motion sickness predicted by postural instability. Human Factors, 44(3), 451–465.
Stoffregen, T. A. and Smart, L. J. (1998). Postural instability precedes motion sickness. Brain Research Bulletin, 47(5), 437–448.
Stoffregen, T. A., Smart, L. J., Bardy, B. G. and Pagulayan, R. J. (1999). Postural stabilization of looking. Journal of Experimental Psychology: Human Perception and Performance, 25 (6), 1641–1658.
Stoffregen, T. A., Villard, S. and Yu, Y. (2009). Body sway at sea for two visual tasks and three stance widths. Aviation, Space, and Environmental Medicine, 80, 1039–1043.
Strang, A. J. (2010). Effects of Positive and Negative Constraints on Postural Sway Temporal Structure: New Insights for Postural Control. Unpublished doctoral dissertation, Miami University, Oxford, OH.
Torenvliet, G. (2003). We can’t afford it. Interactions, July–August 12–17.
Vicente, K. J. (1999). Cognitive work analysis: Toward safe, productive, and healthy computer-based work. Mahwah, NJ: Erlbaum Associates.
Villard, S. J., Flanagan, M. B., Albanese, G. M. and Stoffregen, T. A. (2008). Postural instability and motion sickness in a virtual moving room. Human Factors, 50(2), 332–345.
Warren, W. H. (1984). Perceiving affordances: Visual guidance of stair climbing. Journal of Experimental Psychology: Human Perception and Performance, 10, 683–703.
Warren, W. H. and Whang, S. (1987). Visual guidance of walking through apertures: Body-scaled information for affordances. Journal of Experimental Psychology: Human Perception and Performance, 13, 371–383.
Ye, L., Cardwell, W. and Mark, L. S. (2009). Perceiving multiple affordances for objects. Ecological Psychology, 21, 185–217.

References

Abe, G. and Richardson, J. (2006). Alarm timing, trust and driver expectation for forward collision warning systems. Applied Ergonomics, 37, 577–586.
Andersen, G. J., Cisneros, J., Atchley, P. and Saidpour, A. (1999). Speed, size, and edge-rate information for the detection of collision events. Journal of Experimental Psychology: Human Perception and Performance, 25, 256–269.
Andersen, G. J. and Enriquez, A. (2006). Aging and the detection of observer and moving object collisions. Psychology and Aging, 2, 74–85.
Andersen, G. J. and Kim, R. D. (2001). Perceptual information and attentional constraints in visual search of collision events. Journal of Experimental Psychology: Human Perception and Performance, 27, 1039–1056.
Andersen, G. J. and Sauer, C. W. (2004). Optical information for collision detection during deceleration. In H. Hecht and G. J. P. Savelsbergh (Eds.), Advances in Psychology 135, Time-to-Contact (pp. 93–108). Amsterdam: Elsevier.
Baurès, R. and Hecht, H. (2011). The effect of body posture on long-range time-to-contact estimation. Perception, 40, 674–681.
Baurès, R., Oberfeld, D. and Hecht, H. (2011). Temporal-range estimation of multiple objects: Evidence for an early bottleneck. Acta Psychologica, 137, 76–82.
Berti, A. and Frassinetti, F. (2000). When far becomes near: Remapping of space by tool use. Journal of Cognitive Neuroscience, 12, 415–420.
Bliss, J. P. and Acton, S. A. (2003). Alarm mistrust in automobiles: How collision alarm reliability affects driving. Applied Ergonomics, 34, 499–509.
Bootsma, R. J. and Craig, C. M. (2003). Information used detecting upcoming collision. Perception, 32, 525–544.
Bootsma, R. J. and Oudejans, R. R. D. (1993). Visual information about time-to-collision between two objects. Journal of Experimental Psychology: Human Perception and Performance, 19, 1041–1052.
Brendel, E. B., DeLucia, P. R., Hecht, H., Stacy, R. L. and Larsen, J. T. (2012). Threatening pictures induce shortened time-to-contact estimates. Attention, Perception, & Psychophysics, 74, 979–987.
Caird, J. K. and Hancock, P. A. (1994). The perception of arrival time for different oncoming vehicles at an intersection. Ecological Psychology, 6, 83–109.
Caird, J. K. and Hancock, P. A. (2002). Left-turn and gap acceptance crashes. In R. E. Dewar and P. Olson (Eds.), Human factors in traffic safety (pp. 613–652). Tucson, AZ: Lawyers and Judges.
Cinelli, M. E. and Patla, A. E. (2008). Task-specific modulations of locomotor action parameters based on on-lie visual information during collision avoidance with moving objects. Human Movement Science, 27, 513–531.
Cohen, R. G., Biddle, J. C., and Rosenbaum, D. A. (2010). Manual obstacle avoidance takes into account visual uncertainty, motor noise, and biomechanical costs. Experimental Brain Research, 201, 587–592.
Cummings, M. L., Kilgore, R. M., Wang, K., Tijerina, L., Kochhar, D. S. (2007). Effects of single versus multiple warnings on driver performance. Human Factors, 49, 1097–1106.
Cutting, J. E. and Vishton, P. M. (1995). Perceiving layout and knowing distances: The integration, relative potency, and contextual use of different information about depth. In W. Epstein and S. Rogers (Eds.), Perception of space and motion (pp. 69–117). San Diego, CA: Academic Press.
Cutting, J. E., Vishton, P. M. and Braren P. A. (1995). How we avoid collisions with stationary and moving obstacles. Psychological Review, 102, 67–651.
DeLucia, P. R. (1991). Pictorial and motion-based information for depth perception. Journal of Experimental Psychology: Human Perception and Performance, 17, 738–748.
DeLucia, P. R. (1995). Effects of pictorial relative size and ground-intercept information on judgments about potential collisions in perspective displays. Human Factors, 37, 528–538.
DeLucia, P. R. (2004). Multiple sources of information influence time-to-contact judgments: Do heuristics accommodate limits in sensory and cognitive processes? In H. Hecht and G. J. P. Savelsbergh (Eds.), Advances in Psychology 135, Time-to-Contact (pp. 243–285). San Diego, CA: Elsevier.
DeLucia, P. R. (2005). Does binocular disparity or familiar size override effects of relative size on judgments of time to contact? Quarterly Journal of Experimental Psychology, 58A, 865–886.
DeLucia, P. R. (2008). Critical roles for distance, task, and motion in space perception: Initial conceptual framework and practical implications. Human Factors, 50, 811–820.
DeLucia, P. R. and Meyer, L. E. (1999). Judgments about the time to contact between two objects during simulated self-motion. Journal of Experimental Psychology: Human Perception and Performance, 25, 1813–1833.
DeLucia, P. R. and Novak, J. B. (1997). Judgments of relative time-to-contact of more than two approaching objects: Toward a method. Perception and Psychophysics, 59, 913–928.
DeLucia, P. R. and Tharanathan, A. (2009). Responses to deceleration during car following: Roles of optic flow, warnings, expectations and interruptions. Journal of Experimental Psychology: Applied, 15, 334–350.
DeLucia, P. R., Tresilian, J. R. and Meyer, L. E. (2000). Geometrical illusions can affect time-to-contact estimation and mimed prehension. Journal of Experimental Psychology: Human Perception and Performance, 26, 552–567.
DeLucia, P. R. and Warren, R. (1994). Pictorial and motion-based depth information during active control of self-motion: Size-arrival effects on collision avoidance. Journal of Experimental Psychology: Human Perception and Performance, 20, 783–798.
de Lussanet, M. H. E., Smeets, J. B. J. and Brenner, E. (2001) The effect of expectations on hitting moving targets: Influence of the preceding target’s speed. Experimental Brain Research, 137, 246–248.
Fajen, B. R. (2005). Calibration, information, and control strategies for braking to avoid a collision. Journal of Experimental Psychology: Human Perception and Performance, 31, 480–501.
Fajen, B. R. and Devaney, M. C. (2006). Learning to control collisions: The role of perceptual attunement ad action boundaries. Journal of Experimental Psychology: Human Perception and Performance, 32, 300–313.
Gibson, J. J. (1979). The ecological approach to visual perception. Boston: Houghton-Mifflin.
Goodale, M. A. and Milner, A. D. (2004). Sight unseen: An exploration of conscious and unconscious vision. Oxford: Oxford University Press.
Gray, R. (2002). Behavior of college baseball players in a virtual batting task. Journal of Experimental Psychology: Human Perception and Performance, 28, 1131–1148.
Gray, R. and Regan, D. (1998). Accuracy of estimating time to collision using binocular and monocular information. Vision Research, 38, 499–512.
Gray, R. and Regan, D. (2000). Simulated self-motion alters perceived time to collision. Current Biology, 10, 587–590.
Gray, R. and Sieffert, R. (2005). Different strategies for using motion-in-depth information in catching. Journal of Experimental Psychology: Human Perception and Performance, 31, 1004–1022.
Hecht, H. and Savelsbergh, G. J. (Eds.) (2004). Time-to-contact. Amsterdam: Elsevier.
Helmholtz, H. von. (1924). Treatise on physiological optics, Vol 3 (3rd ed.). In J. P. Southall, (Ed. and Trans.), Rochester, NY: Optical Society of America. (original work published in 1866).
Hochberg, J. (1986). Representation of motion and space in video and cinematic displays. In K. Boff, J. Thomas and L. Kaufman (Eds.), Handbook of perception and human performance (pp. 22–1 to 21–64). Toronto: Wiley.
Hopkins, B., Churchill, A., Vogt, S. and Rönnqvist, L. (2004). Braking reaching movements: A test of constant tau-dot strategy under different viewing conditions. Journal of Motor Behavior, 36, 3–12.
Kaiser, M. K. and Mowafy, L. (1993). Optical specification of time-to-passage: Observers’ sensitivity to global tau. Journal of Experimental Psychology: Human Perception and Performance, 19, 1028–1040.
Kerzel, D., Hecht, H. and Kim, N. (1999). Image velocity, not tau, explains arrival-time judgments from global optical flow. Journal of Experimental Psychology: Human Perception and Performance, 25, 1540–1555.
Kruk, R. and Regan, D. (1996). Collision avoidance: A helicopter simulator study. Aviation, Space, and Environmental Medicine, 67, 111–114.
Law, D. J., Pellegrino, J. W., Mitchell, S. R., Fischer, S. C., McDonald, T. P. and Hunt, E. B. (1993). Perceptual and cognitive factors governing performance in comparative arrival time judgments. Journal of Experimental Psychology: Human Perception and Performance, 19, 1183–1199.
Lee, D. N. (1976). A theory of visual control of braking based on information about time-to-collision. Perception, 5, 437–459.
Li, F. X. and Laurent, M. (2001). Dodging a ball approaching on a collision path: Effects of eccentricity and velocity. Ecological Psychology, 13, 31–47.
Lobjois, R., Benguigui, N., Bertsch, J. and Broderick, M. P. (2008). Collision avoidance behavior as a function of aging and tennis playing. Experimental Brain Research, 148, 457–468.
López-Moliner, J., Supèr, H., and Keil, M. S. (2013). The time course of estimating time-to-contact: Switching between sources of information. Vision Research, 92, 53–58.
Meskali, M., Barbet, I., Espié, S. and Bootsma, R. J. (2006). Perceptual and motor strategies of car drivers in regulating speed of approach to a preceding vehicle. Le Travail Humain, 69, 183–207.
Miller, R. and Huang, Q. (2002). An adaptive peer-to-peer collision warning system. 55th IEEE vehicular technology conference, 1, pp. 317–321.
Ni, R. and Andersen, G. J. (2008). Detection of collision events on curved trajectories: Optical information from invariant rate-of-bearing change. Perception and Psychophysics, 70, 1314–1324.
Nicholls, M. E. R., Hadgraft, N. T., Chapman, H. L., Loftus, A. M., Robertson, J. and Bradshaw, J. L. (2010). A hit-and-miss investigation of asymmetries in wheelchair navigation. Attention, Perception, and Psychophysics, 72, 1576–1590.
Norman, J. (2002). Two visual systems and two theories of perception: An attempt to reconcile the constructivist and ecological approaches. Behavioral and Brain Sciences, 25, 73–144.
Parasuraman, R., Hancock, P. A. and Olofinboba, O. (1997). Alarm effectiveness in driver-centered collision-warning systems. Ergonomics, 40, 390–399.
Parasuraman, R. and Riley, V. (1997). Humans and automation: Use, misuse, disuse, and abuse. Human Factors, 39, 230–253.
Rock, P. B. and Harris, M. G. (2006). [Tau-dot] as a potential control variable for visually guided braking. Journal of Experimental Psychology: Human Perception and Performance, 32, 251–267.
Runigo, C. L., Benguigui, N. and Bardy, B. G. (2005). Perception-action coupling and expertise in interceptive actions. Human Movement Science, 24, 429–445.
Schiff, W. (1965). Perception of impending collision: A study of visually directed avoidant behavior. Psychological Monographs, 79, 1–26.
Schiff, W. and Detwiler, M. L. (1979). Information used in judging impending collision. Perception, 8, 647–658.
Schiff, W. and Oldak, R. (1990). Accuracy of judging time to arrival: Effects of modality, trajectory, and gender. Journal of Experimental Psychology: Human Perception and Performance, 16, 303–316.
Schiff, W., Oldak, R. and Shah, V. (1992). Aging person’s estimates of vehicular motion. Psychology and Aging, 7, 518–525.
Sidaway, B., Fairweather, M., Sekiya, H. and McNitt-Gray, J. (1996). Time-to-collision estimation in a simulated driving task. Human Factors, 38, 101–113.
Smith, M. R. H., Flach, J. M., Dittman, S. M. and Stanard, T. (2001). Monocular optical constraints on collision control. Journal of Experimental Psychology: Human Perception and Performance, 27, 395–410.
Spence, C. and Ho, C. (2008). Multisensory warning signals for event perception and safe driving. Theoretical Issues in Ergonomics Science, 9, 523–554.
Sun, H. and Frost, B. J. (1998). Computation of different optical variables of looming objects in pigeon nucleus rotundus neurons. Nature Neuroscience, 4, 296–303.
Tharanathan, A. (2008). Effects of size on judgments of collision: Theoretical and practical implications (Doctoral dissertation). Retrieved from http://repositories.tdl.org/ttuir/bitstream/handle/2346/11795/Tharanathan_Anand_Diss.pdf?sequence=1.
Todd, J. T. (1981). Visual information about moving objects. Journal of Experimental Psychology: Human Perception and Performance, 7, 795–810.
Tresilian, J. R. (1990). Perceptual information for the timing of interceptive action. Perception, 19, 223–239.
Tresilian, J. R. (1991). Empirical and theoretical issues in the perception of time to contact. Journal of Experimental Psychology: Human Perception and Performance, 17, 865–876.
Tresilian, J. R. (1995). Perceptual and cognitive processes in time-to-contact estimation: Analysis of prediction-motion and relative judgement tasks. Perception and Psychophysics, 57, 231–245.
Tresilian, J. R. (1999). Analysis of recent empirical challenges to an account of interceptive timing. Perception and Psychophysics, 61, 515–528.
Vagnoni, E., Lourenco, S.F. and Longo, M. R. (2012) Threat modulates perception of looming visual stimuli. Current Biology, 22, R826–R827.
von Hofsten, C. and Lee, D. N. (1985). Dialogue on perception and action. In W. H. Warren, Jr. and R. E. Shaw (Eds.) Persistence and Change: Proceedings of the First International Conference on Event Perception. Hillsdale, NJ: Erlbaum. pp. 231–242.
Wallach, H. and O’Connell, D. N. (1953). The kinetic depth effect. Journal of Experimental Psychology, 45, 205–217.
Weiss, P. H., Marshall, J. C., Wunderlich, G., Tellmann, L., Halligan, P. W., Freund, H-J., Zilles, K. and Fink, G. R. (2000) Neural consequences of acting in near versus far space: A physiological basis for clinical dissociations. Brain, 123, 2531–2541.
Yan, J.-J., Lorv, B., Li, H., and Sun, H.-J. (2011). Visual processing of the impending collision of a looming object: Time to collision revisited. Journal of Vision, 11: 7, 1–25.
Yilmaz, E. H. and Warren, Jr., W. H. (1995). Visual control of braking: A test of the [tau-dot] hypothesis. Journal of Experimental Psychology: Human Perception and Performance, 21, 996–1014.

References

Aranda, G. and Finch, E. (2003). Using repertory grid to measure changes in risk-taking behavior. Journal of Construction Research, 4, 1–14.
Armsby, P., Boyle, A. J. and Wright, C. C. (1989). Methods for assessing drivers’ perception of specific hazards on the road. Accident Analysis and Prevention, 21, 45–60.
Barsalou, L. W. (2008). Situating concepts. In Robbins P. and Aydede, M. (Eds.), Cambridge handbook of situated cognition (pp. 236–263). New York: Cambridge University Press.
Benda, H. V. and Hoyos, C. G. (1983). Estimating hazards in traffic situations. Accident Analysis and Prevention, 15, 1–9.
Blignaut, C. J. H. (1979). The perception of hazard: I. Hazard analysis and the contribution of visual search to hazard perception. Ergonomics, 22, 991–999.
Borowsky, A. S. and Oron-Gilad, T. (2013). Exploring the effects of driving experience on hazard awareness and risk perception via real-time hazard identification. Hazard Classification, and Rating Tasks, Accident Analysis and Prevention, 59, 548–565
Borowsky, A., Oron-Gilad, T. and Parmet, Y. (2009). Age and skill differences in classifying hazardous traffic scenes. Transportation Research Part F, 12, 277–287.
Borowsky, A., Shinar, D. and Oron-Gilad, T. (2010). Age and skill differences in driving related hazard perception. Accident Analysis and Prevention, 42, 1240–1249.
Chapman, P. R. and Underwood, G. (1998). Visual search of dynamic scenes: Event types and the role of experience in viewing driving situations. Eye Guidance in Reading and Scene Perception, 369–393.
Chapman, P. R., Underwood, G. and Roberts, K. (2002). Visual search patterns in trained and untrained novice drivers. Transportation Research Part F: Traffic Psychology and Behavior, 5, 157–167.
Chun, M. M. (2003). Scene perception and memory. In D. E. Irwin and B. H. Ross (Eds.), The psychology of learning and motivation: Advances in research and theory (Vol. 42, pp. 79–108). San Diego, CA: Academic Press.
Crick, J. and McKenna, F. P. (1991). Hazard perception: Can it be trained? Proceedings of Manchester University seminar: Behavioural research in road safety II. Manchester, England: University of Manchester.
Clancy, D. and Holgate, A. (2008). A new model of the impact of human factors on risk assessment in emergency services: The Dynamic Cognitive Risk Assessment Model. In Proceedings of Safety in Action Conference, 2008, April 28–30. Melbourne.
Crundall, D., Andrews, B., van Loon, E. and Chapman, P. (2010). Commentary training improves responsiveness to hazards in a driving simulator. Accident Analysis and Prevention, 42, 2117–2124.
Crundall, D., Chapman, P., Phelps, N. and Underwood, G. (2003). Eye movements and hazard perception in police pursuit and emergency response driving. Journal of Experiment Psychology: Applied, 9, 163–174.
Crundall, D., Underwood, G. and Chapman, P. (1999). Driving experience and the functional field of view. Perception, 28, 1075–1087.
de Craen, S., Twisk, D. A. M., Hagenzieker, M. P., Elffers, H. and Brookhuis, K. A. (2009). The Adaptation Test: The development of a method to measure speed adaptation to traffic complexity. Proceedings of the Fifth International Driving Symposium on Human Factors in Driver Assessment, Training and Vehicle Design, pp. 299–306.
Deery, H. A. (1999). Hazard and risk perception among young novice drivers. Journal of Safety Research, 30(4), 225–236.
Endsley, M. R. (1995a). Toward a theory of situation awareness in dynamic systems. Human Factors, 37, 32–64.
Endsley, M. R. (1995b). Measurements of situation awareness in dynamic systems. Human Factors, 37, 65–84.
Evans, L. (2004). Traffic safety. Bloomfield Hills, MI: Science Serving Society.
Evans, L. and Wasielewski, P. (1983). Risky driving related to driver and vehicle characteristics. Accident Analysis and Prevention, 14, 57–64.
Ferguson, S. A. (2003). Other high-risk factors for young drivers – how graduated licensing does, doesn’t, or could address them. Journal of Safety Research, 34, 71–77.
Finn, P. and Bragg, B. W. E. (1986). Perception of the risk of an accident by young and older drivers. Accident Analysis and Prevention, 18, 289–298.
Fisher, D. L., Pollatsek, A. P. and Pradhan, A. (2006). Can novice drivers be trained to scan for information that will reduce their likelihood of a crash? Injury Prevention, 12, i25–i29.
Fuller, R. (2005). Towards a general theory of driver behavior. Accident Analysis and Prevention, 37, 461–472.
Ganton, N. and Wilde, G. J. S. (1971). Verbal ratings of estimated danger by drivers and passengers as a function of driving experience. In Studies in Safety Transport. Kingston, Ontario: Queen’s University.
Gibbs, R. W. J. (2006). Embodiment and cognitive science. New York: Cambridge University Press.
Gibson, J. J. (1979). The ecological approach to visual perception. Boston: Houghton Mifflin.
Hatakka, M., Keskinen, E. Katila, A. and Lapotti S. (1997). Self-reported driving habits are valid predictors of violations and accidents. In Rothengatter T. and Carbonell Vaya E. (Eds.), Traffic and transport psychology: Theory and application, Amsterdam: Elsevier Science.
Haworth, N., Symmons, M. and Kowadlo, N., (2000). Hazard perception by inexperienced motorcyclist, research report, Monash University Accident Research Centre. Downloaded from http://www.monash.edu.au/oce/roadsafety.
Heino, A., van der Molen, H. H. and Wilde, G. J. S. (1996). Risk perception, risk taking, accident involvement and the need for stimulation. Safety Science, 22, 35–48.
Horswill, M. S. and McKenna, F. P. (2004). Drivers’ hazard perception ability: Situation awareness on the road. In S. Banbury and S. Tremblay (Eds.), A cognitive approach to situation awareness: Theory and application (pp. 155–175). Aldershot, UK: Ashgate.
Huestegge, L., Skottke, E. V., Anders, S., Müsseler, J. and Debus, G. (2010). The development of hazard perception: Dissociation of visual orientation and hazard processing. Transportation Research Part F, 13, 1–8.
Hughes, P. K. and Cole, B. L. (1986), What attracts attention when driving? Ergonomics, 29, 377–391.
Hunter, D. R. (2002). Risk perception and risk tolerance in aircraft pilots. DOT/FAA/AM-02/17, Office of Aerospace Medicine Washington, DC 20591.
Jagacinski, R. J. and Flach, J. M. (2003). Control theory for humans: Quantitative approaches to modeling performance. Mahwah, NJ: Erlbaum.
Jonah, B. A. (1986). Accident risk and risk-taking behavior among young drivers. Accident Analysis and Prevention, 18, 255–271.
Kaplan, S. and Garrick B. J. (1981). On the quantitative definition of risk. Risk Analysis, 1, 11–27.
Klein, G. A. (1993). A Recognition-Primed Decision (RPD) model of rapid decision making. In Klein, G. A., Orasanu, J., Calderwood, R. and Zsambok, C. E. (Eds.), Decision making in action: Models and methods. Norwood, NJ: Ablex.
Kowalski-Trakofler, K. M. and Barrett, E. A. (2003). The concept of degraded images applied to hazard recognition training in mining for reduction of lost-time injuries. Journal of Safety Research, 34, 515–525.
Matthews, M. L. and Moran, A. R. (1986). Age differences in male drivers’ perception of accident risk: The role of perceived driving ability. Accident Analysis and Prevention, 8, 299–313.
McGowan, A. and Banbury, S. (2004). Evaluating interruption-based techniques using embedded measures of driver anticipation. In Banbury, S. and Tremblay, S. (Eds.), A cognitive approach to situation awareness. Aldershot, UK: Ashgate.
McKenna, F. P. and Crick, J. L. (1994). Hazard perception in drivers: A methodology for testing and training. Transport Research Laboratory (Contractor Report 313), 1–29.
McKenna, F. P., Horswill, M. S. and Alexander, J. L. (2006). Does anticipation training affect drivers’ risk taking? Journal of Experimental Psychology, 12, 1–10.
Meir, A., Borowsky, A. and Oron-Gilad, T. (2014). Formation and evaluation of Act and Anticipate Hazard Perception Training (AAHPT) intervention for young-novice drivers. Traffic Injury Prevention, 15(2), 172–180.
Meir, A., Borowsky, A., Oron-Gilad, T., Parmet, Y. and Shinar, D. (2010). Act and anticipate hazard perception training for young-inexperienced drivers. The 3rd International Conference on Applied Human Factors and Ergonomics (AHFE), July 17–20.
Meir, A., Parmet, Y. and Borowsky, A. (in review), Survival analysis: A fresh approach for analyzing response times in driving-related hazard perception paradigms. Transportation Research, Part F.
Mills, K. L., Hall, R. D., McDonald, M. and Rolls, G. W. P. (1998). The effects of hazard perception training on the development of novice driver’s skills. Report to Department of Environment, Transport and Regions. Downloaded from http://www.roads.detr.gov.uk/roadsafety/hazard.
Mourant, R. R. and Rockwell, T. H. (1972). Strategies of visual search by novice and experienced drivers. Human Factors, 14, 325–335.
Pelz, D. C. and Krupat, E. (1974). Caution profile and driving record of undergraduate males. Accident Analysis and Prevention, 6, 45–58.
Pollatsek, A., Narayanaan, V., Pradhan, A. and Fisher, D. L. (2006). Using eye movements to evaluate a PC-based risk awareness and perception training program on a driving simulator. Human Factors, 48, 447–464.
Pradhan, A. K., Pollatsek, A., Knodler, M. and Fisher, D. L. (2009). Can younger drivers be trained to scan for information that will reduce their risk in roadway traffic scenarios that are hard to identify as hazardous? Ergonomics, 52, 657–673.
Sagberg, F. and Bjørnskau, T. (2006). Hazard perception and driving experience among novice drivers. Accident Analysis and Prevention, 3, 407–414.
Sexton, B. (2000). Development of hazard perception testing. In Proceedings of the DETR Novice Drivers Conference, Bristol. Downloaded from http://www.dft.gov.uk.
Shahar, A., Alberti, C. F., Clarke, D., Crundall, D. (2010). Hazard perception as a function of target location and the field of view. Accident Analysis and Prevention, 42, 1577–1584.
Shinar, D. (2007). Traffic safety and human behavior, Oxford, UK: Elsevier.
Smith, S. S., Horswill, M. S., Chambers, B., Wetton, M. (2009). Hazard perception in novice and experienced drivers: The effects of sleepiness. Accident Analysis and Prevention, 41, 729–733.
Summala, H. and Rasanen, M. (2000). Top down and bottom-up processes in driving behavior at roundabouts and crossroads. Transportation Human Factors, 2, 29–37.
Ulleberg, P. and Rundmo, T. (2003). Personality, attitudes and risk perception as predictors of risky driving behaviour among young drivers. Safety Science, 41(5), 427–443.
Underwood, G., (2007). Visual attention and the transition from novice to advanced driver. Ergonomics, 50(8), 1235–1249.
Underwood, G., Phelps, N., Wright, C., van Loon, E. and Galpin, A. (2005). Eye fixation scanpaths of younger and older drivers in a hazard perception task. Opthalmic and Physiological Optics, 25, 346–356.
Vicente, K. J. and Wang, J. H. (1998). An ecological theory of expertise effects in memory recall. Psychological Review, 105, 33–57.
Wagenaar, W. A. (1992). Risk-taking and accident causation. In J. F. Yates (Ed.), Risk-taking behavior (pp. 257–281) New York: John Wiley and Sons.
Wallis, T. S. A. and Horswill, M. S. (2007). Using fuzzy signal detection theory to determine why experienced and trained drivers respond faster than novices in a hazard perception test. Accident Analysis and Prevention, 39, 1177–1185.
Wang, Y. B., Zhang, W. and Salvendy, G. (2010). A comparative study of two hazard handling training methods for novice drivers. Traffic Injury Prevention, 11, 483–491.
Wetton, M. A., Horswill, M. S., Hatherly, C., Wood, J. M., Pachana, N. A. and Anstey, K. J. (2010). The development and validation of two complementary measures of drivers’ hazard perception ability. Accident Analysis and Prevention, 42, 1232–1239.
Williams, A. F. and O’Neill, B. (1974). On-the-road driving records of licensed race drivers. Accident Analysis and Prevention, 6, pp. 263–270.
Yeh, W. and Barsalou, L. W. (2006). The situated nature of concepts. American Journal of Psychology, 119, 349–384.
Zimolong, B. (1985). Hazard perception and risk estimation in accident causation. In R. E. Eberts and C. G. Eberts (Eds.), Trends in ergonomics/human factors II (pp. 463–470). Amsterdam: Elsevier.
Zuckerman, M. (1994). Behavioral expressions and biosocial bases of sensation seeking. New York: Cambridge University Press.