Digital Signal Processing Reference
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16. De Lucia PR, Tharanathan A (2005) Effects of optic flow and discrete warnings on decelera-
tion detection during car-following. In: Proceedings of the 49th annual meeting of the human
factors and ergonomics society. Human Factors and Ergonomics Society, Santa Monica
17. Schiff W, Detwiler ML (1979) Information used in judging impending collision. Perception
8:647-658
18. Tharanathan A, DeLucia PR (2007) Detecting deceleration of a lead car during active control
of self motion: implications for rear-end collisions. In: Proceedings of the 51st annual meeting
of the human factors and ergonomics society. Human Factors and Ergonomics Society, Santa
Monica
19. Hills BL (1980) Vision, visibility and perception in driving. Perception 9:183-216
20. Jones HV, Heimstra NW (1964) Ability of drivers to make critical passing judgments. J Eng
Psychol 3:117-122
21. Gordon DA, Mast TM (1970) Driver's judgments in overtaking and passing. Hum Factors
12:341-346
22. Hegeman G, Brookhuis K, Hoogendoorn S (2005) Opportunities for advanced driver assis-
tance systems towards overtaking. Eur J Transport Infrastructure Res 5:281-296
23. Lee DN (1976) A theory of visual control of braking based on information about time-to-
collision. Perception 5:437-459
24. De Lucia PR, Warren R (1994) Pictorial and motion-based depth information during active
control of self-motion - size arrival effects on collision-avoidance. J Exp Psychol Hum Percept
Perform 20:783-798
25. Hills BL (1975) Some studies of movement perception, age and accidents. Transport and road
research laboratory: Technical report. Crowthorne, England
26. Hoffmann ER, Mortimer RG (1994) Drivers' estimates of time to collision. Accid Anal Prev
26:511-520
27. Cutting JE, Vishton PM (1995) Perceiving layout and knowing distances: the integration,
relative potency, and contextual use of different information about depth. In: Epstein W,
Rogers S (eds) Perception of space and motion. Academic Press, San Diego, pp 69-117
28. Benguigui N, Ripoll H, Broderick MP (2003) Time-to-contact estimation of accelerated
stimuli is based on first-order-information. J Exp Psychol Hum Percept Perform 29:1083-1101
29. Tharanathan A (2009) Effects of constant and non-constant velocity motion on judgments of
collision-avoidance action gap. In: Proceedings of the human factors and ergonomics society
53 rd annual meeting, Surface Transportation. San Antonio, Texas, USA, 53, pp 1762-1765
30. Tresilian JR (1991) Empirical and theoretical issues in the perception of time to contact. J Exp
Psychol Hum Percept Perform 17:865-876
31. Tharanathan A, De Lucia PR (2006). Time-to-contact judgments of constant and non-constant
velocities: implications for rear-end collisions. In: Proceedings of the 50th annual meeting of
the human factors and ergonomics society. Human Factors and Ergonomics Society, Santa
Monica
32. Gray R, Macuga KM, Regan D (2004) Long range interactions between object motion and
self-motion in the perception of movement in depth. Vision Res 44:179-195
33. Gray R, Regan D (2000) Risky driving behavior: a consequence of motion adaptation for
visually guided motor action. J Exp Psychol Hum Percept Perform 26:1721-1732
34. Shinar D, Rotenberg E, Cohen T (1997) Crash reduction with an advance brake warning
system: a digital simulation. Hum Factors 39:296-302
35. Summala H, Lamble D, Laasko M (1998) Driving experience and perception of the lead car's
braking when looking at in-car targets. Accid Anal Prev 30:401-407
36. Taieb-Maimon M (2007) Learning headway estimation in driving. Hum Factors 49:734-744
37. Li Z, Milgram P (2004) An empirical investigation of the influence of perception of time-
to-collision on gap control in automobile driving. In: Proceedings of the 48th annual meeting
of the human factors and ergonomics society. New Orleans, pp 2271-2275
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