[8] McCandless JW (1999) Detection of aircraft in video sequences using a predictive optical flow algorithm. Optical Engineering, 38: 523-530. Click here to download a PDF version.
[7] Schor CM and McCandless JW (1997) Context-specific adaptation of vertical vergence to multiple stimuli. Vision Research, 37: 1929-1937.
[6] McCandless JW and Schor CM (1997) An association matrix model of context-specific vertical vergence adaptation. Network: Computation in Neural Systems, 8: 239-258.
[5] McCandless JW and Schor CM (1997) A neural net model of the adaptation of binocular vertical eye alignment. Network: Computation in Neural Systems, 8: 55-70.
[4] McCandless JW, Schor CM, and Maxwell JS (1996) A cross-coupling model of vertical vergence adaptation. IEEE Transactions on Biomedical Engineering, 43: 24-34.
[3] Schor CM and McCandless JW (1995) An adaptable association between vertical and horizontal vergence. Vision Research, 35: 3519-3527.
[2] Schor CM and McCandless JW (1995) Distance cues for vertical vergence adaptation. Optometry and Vision Science, 72: 478-486.
[1] McCandless JW (1991) Product review: The Coreco Oculus-500 imaging system. Metabolic Brain Disease, 6: 51-55.
[17] McCann RS and McCandless JW (2001) Human factors issues in the design of next-generation spacecraft. Human.Systems 2001. Houston, TX.
[16] McCandless JW and McCann RS (2001) Human factors issues for the updated cockpit displays of the space shuttle. Human.Systems 2001. Houston, TX.
[15] McCandless JW and Ellis SR (2000) The effect of eye position on the projected stimulus distance in a binocular head-mounted display. Proceedings of the SPIE Stereoscopic Displays and Applications Conference, 3957: 41-48.
[14] McCandless JW, Ellis SR, and Adelstein BD (1999) The effect of accommodative demand, motion parallax, and age on virtual object localizations. Proceedings of the Human Factors and Ergonomics Society 43rd Annual Meeting, 2: 1328-1332.
[13] McCandless JW and Ahumada AJ (1998) A predictive optical flow algorithm for aircraft detection. Proceedings of the SPIE Intelligent Mechanisms and Advanced Manufacturing Conference, 3522: 193-203.
[12] McCandless JW, Ellis SR, and Adelstein BD (1998) Localization of a monocularly presented virtual object with delayed visual feedback. Proceedings of the Human Factors and Ergonomics Society 42nd Annual Meeting, 2: 1595-1599.
[11] Ellis SR, Menges BM, Jacoby RH, Adelstein BD, and McCandless JW (1997) Influence of head motion on the judged distance of monocularly presented virtual objects. Proceedings of the Human Factors and Ergonomics Society 41st Annual Meeting, 2: 1234-1238.
[10] McCandless JW and Kaiser MK (1997) Obstacle detection in air-to-air images. Proceedings of the SPIE Enhanced and Synthetic Vision Conference, 3088: 40-49.
[9] McCandless JW and Schor CM (1996) Nonlinear interactions between multiple stimuli for adapting vertical binocular eye alignment. Investigative Ophthalmology and Visual Science Supplement, 37: 165.
[8] McCandless JW and Schor CM (1995) A neural net model of vertical vergence adaptation. Investigative Ophthalmology and Visual Science Supplement, 36: 12.
[7] McCandless JW and Schor CM (1995) A neural network model of the adaptation of binocular eye alignment. World Conference on Neural Networks, 1: 404 - 407.
[6] McCandless JW and Schor CM (1994) A cross-coupling model of vertical vergence adaptation. Investigative Ophthalmology and Visual Science Supplement, 35: 1283.
[5] Schor CM and McCandless JW (1994) An adapted association between vertical and horizontal vergence. Investigative Ophthalmology and Visual Science Supplement, 35: 1283.
[4] McCandless JW and Schor CM (1994) Cross-coupling of eye position sensitive neurons to maintain binocular alignment. Computation and Neural Systems Conference: 61.
[3] McCandless JW and Schor CM (1993) A computational model of the phoria spread for vertical vergence adaptation. Investigative Ophthalmology and Visual Science Supplement, 34: 1309.
[2] Schor CM and McCandless JW (1993) Context specific vertical vergence adaptation: effects of horizontal vergence and perceived distance. Investigative Ophthalmology and Visual Science Supplement, 34: 1311.
[1] Banks M, Ehrlich S, Schor C, McCandless J, and Crowell J. (1993) Heading perception in the presence of misleading eye position signals. Investigative Ophthalmology and Visual Science Supplement, 34: 1229.
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