Julie M. Harris

Q: What Schools Are Affiliated With Julie M. Harris

Julie M. Harris is affiliated with the following schools: University of St Andrews, University of Oxford, Newcastle University

Julie M. Harris's AcademicInfluence.com Rankings

Julie M. Harris

Chemistry

#5662

World Rank

#6874

Historical Rank

Physical Chemistry

#918

World Rank

#986

Historical Rank

chemistry Degrees

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Chemistry

Why Is Julie M. Harris Influential?

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According to Wikipedia, Julie Marie Harris has been Director of Research in the School of Psychology and Neuroscience and a Professor of Vision Science at the University of St Andrews. Her research investigates visual systems and camouflage.

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Julie M. Harris's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Guidance of locomotion on foot uses perceived target location rather than optic flow (1998) (255)
Optimal integration of shading and binocular disparity for depth perception. (2012) (123)
Speed discrimination of motion-in-depth using binocular cues (1995) (115)
Accuracy of estimates of food portion size using food photographs – the importance of using age-appropriate tools (2006) (115)
Health Effects of Overweight and Obesity in 195 Countries over 25 Years (2018) (94)
Binocular vision and motion-in-depth. (2008) (86)
Sporting contests: Seeing red? Putting sportswear in context (2005) (82)
Stereoscopic perception of real depths at large distances. (2010) (80)
Two Independent Mechanisms for Motion-In-Depth Perception: Evidence from Individual Differences (2010) (79)
The role of monocularly visible regions in depth and surface perception (2009) (74)
Eye movements and hazard perception in active and passive driving (2015) (63)
Optic flow and scene structure do not always contribute to the control of human walking (2002) (62)
Efficiency of stereopsis in random-dot stereograms. (1992) (49)
Human observers are biased in judging the angular approach of a projectile (2004) (48)
Using visual direction in three-dimensional motion perception (2005) (48)
A Link Between Attentional Function, Effective Eye Movements, and Driving Ability (2016) (47)
Accuracy and precision of binocular 3-D motion perception. (2003) (47)
Visual search for motion-in-depth: stereomotion does not 'pop out' from disparity noise (1998) (46)
Is stereopsis effective in breaking camouflage for moving targets? (1997) (45)
The future of flow? (2001) (41)
Independent neural mechanisms for bright and dark information in binocular stereopsis (1995) (41)
Filling-in the details on perceptual fading (2001) (39)
Fine-scale processing in human binocular stereopsis. (1997) (33)
Optimizing countershading camouflage (2016) (31)
Poor visibility of motion in depth is due to early motion averaging (2003) (28)
Extra-retinal signals support the estimation of 3D motion (2009) (26)
Constraints on human stereo dot matching (1994) (24)
Poor Speed Discrimination Suggests that there is No Specialized Speed Mechanism for Cyclopean Motion (1996) (24)
What Visual Information is Used for Stereoscopic Depth Displacement Discrimination? (2010) (23)
Going against the flow (1999) (23)
Orientation to the sun by animals and its interaction with crypsis (2015) (23)
Steering, Optic Flow, and the Respective Importance of Depth and Retinal Motion Distribution (1999) (22)
Three-Dimensional Camouflage: Exploiting Photons to Conceal Form (2015) (22)
Binocular vision: moving closer to reality (2004) (22)
The interaction of eye movements and retinal signals during the perception of 3-D motion direction. (2006) (21)
Predicting the accuracy of visual search performance in the structural inspection of aircraft (2000) (19)
Early vision and beyond (1996) (19)
Vergence effects on the perception of motion-in-depth (2007) (19)
Visual search for motion-in-depth: stereomotion does not 'pop out' from disparity noise (1998) (19)
Minimum displacement thresholds for binocular three-dimensional motion (2002) (18)
Binocular three-dimensional motion detection: contributions of lateral motion and stereomotion. (2000) (17)
The role of binocular stereopsis in monoptic depth perception (2007) (17)
Objective evaluation of human and computational stereoscopic visual systems (1994) (16)
Interactions between luminance and color signals: effects on shape. (2013) (16)
Task demands and binocular eye movements. (2003) (15)
Induced motion in depth and the effects of vergence eye movements. (2008) (13)
Detecting binocular 3D motion in static 3D noise: no effect of viewing distance. (2000) (11)
A binocular site for contrast-modulated masking (2001) (11)
Is countershading camouflage robust to lighting change due to weather? (2018) (11)
The effects of dot density and motion coherence on perceptual fading of a target in noise. (2000) (11)
Vision and Visual History in Elite/Near-Elite-Level Cricketers and Rugby-League Players (2017) (11)
Adapting to time: Duration channels do not mediate human time perception. (2016) (11)
Volume perception: Disparity extraction and depth representation in complex three-dimensional environments. (2014) (10)
The utility of not changing direction and the visual guidance of locomotion (2004) (10)
Stereo and motion disparities interfere with positional averaging (1993) (10)
Depth perception in disparity-defined objects: finding the balance between averaging and segregation (2016) (10)
Comparing Contrast-Modulated and Luminance-Modulated Masking: Effects of Spatial Frequency and Phase (2000) (10)
The reliability of pseudoneglect is task dependent (2020) (10)
Fundamentals of Stereopsis (2010) (9)
Perception of Relative Depth Interval: Systematic Biases in Perceived Depth (2012) (9)
Is neural filling–in necessary to explain the perceptual completion of motion and depth information? (2003) (9)
Characterizing visual attention during driving and non-driving hazard perception tasks in a simulated environment (2014) (8)
Monocular zones in stereoscopic scenes: A useful source of information for human binocular vision? (2010) (8)
Definition of thresholds for stereoscopic depth. (1994) (7)
Learning to Use Illumination Gradients as an Unambiguous Cue to Three Dimensional Shape (2012) (7)
INDEPENDENT STEREOSCOPIC PROCESSING FOR SIGNALS OF DIFFERENT CONTRAST POLARITY (1993) (7)
Establishing the behavioural limits for countershaded camouflage (2017) (6)
Asymmetries between achromatic and chromatic extraction of 3D motion signals (2019) (6)
Individual differences reveal two independent motion-in-depth mechanisms (2010) (6)
Sensitivity to Velocity- and Disparity-Based Cues to Motion-In-Depth With and Without Spared Stereopsis in Binocular Visual Impairment. (2018) (6)
Investigating Human Visual Sensitivity to Binocular Motion-in-Depth for Anti- and De-Correlated Random-Dot Stimuli (2018) (5)
Speed change discrimination for motion in depth using constant world and retinal speeds (2019) (5)
Temporal estimation in prediction motion tasks is biased by a moving destination. (2018) (5)
Comparing motion induction in lateral motion and motion in depth (2008) (5)
Binocular correspondence in stereoscopic vision (1996) (5)
Using Experts' Eye Movements to Influence Scanning Behaviour in Novice Drivers. (2015) (4)
Faster visual reaction times in elite athletes are not linked to better gaze stability (2020) (4)
Perceived duration of brief visual events is mediated by timing mechanisms at the global stages of visual processing (2017) (4)
Relative contribution of outline (perspective) and shading cues to monocular depth perception (2010) (4)
IMPORTANCE OF DEPTH EDGES TO EFFICIENCY OF STEREOPSIS (1991) (3)
Perceptual integration across natural monocular regions. (2014) (3)
Three-Dimensional Motion Perception: Comparing Speed and Speed Change Discrimination for Looming Stimuli (2020) (3)
Efficiency of stereopsis in random-dot stereograms: erratum (1992) (3)
Relative contributions to vergence eye movements of two binocular cues for motion-in-depth (2019) (3)
Tapology: A Game-Based Platform to Facilitate E-Health and E-Inclusion (2014) (3)
A neuroscientific approach to exploring fundamental questions in VR (2018) (3)
Perception of binocular 3-D motion: visual direction is more important than binocular disparity (2010) (2)
Everyday haptic experiences influence visual perception of material roughness (2019) (2)
Decoding Neural Responses to Motion-in-Depth Using EEG (2019) (2)
Countershading camouflage: exploiting photons to break shape-from-shading inference (2014) (2)
Mistaken Identity: Temporal-Order Biases in the Perception of Speed (1997) (2)
Perceptual uncertainty and action consequences independently affect hand movements in a virtual environment (2020) (2)
Absolute judgments of motion-in-depth trajectories specified by looming and disparity (2001) (1)
Stereoscopic camouflage: Can conflicting object segregation cues hinder depth perception? (2015) (1)
Stereoscopic depth magnitudes at greater distances in an old steam railway tunnel (2009) (1)
Comparison of horizontal vergence responses to changing disparity and inter-ocular velocity differences (2017) (1)
Testing the channel-based model of duration perception (2012) (1)
Detection of motion in depth: poor motion thresholds using LCD stereogoggles (2002) (1)
News from Online: Toying with Chemistry (2005) (1)
Investigating the influence of surface properties on reaching movements (2019) (1)
COMPARING THE EFFICIENCY OF HUMAN STEREOPSIS WITH THAT OF A STEREO-ALGORITHM (1992) (1)
Task-dependent extraction of information from videos of iridescent and glossy samples. (2023) (1)
Evaluating accuracy and precision in a stereoscopic display: perception of 3D object motion (2003) (1)
Reviews: Language and its Normal Processing, Perceptual Constancy: Why Things Look as They Do (1999) (1)
What can observation variance tell us about the visual system’s use of shape information? (2012) (1)
Visual Attention and Driving: How to Measure it and How to Train it (2014) (1)
Learning to use illumination gradients as shape cues. (2012) (1)
Comparing two mechanisms for the perception of binocular motion in depth (2010) (1)
Changing disparity and intercular velocity cues in time-to-contact judgments (2009) (1)
Eye movements and reaction times for detecting monocular regions in binocularly viewed scenes (2011) (0)
Monocular depth perception: More than meets the eye (2004) (0)
Attentional state modulates responses to motion-in-depth stimuli across striate and extrastriate visual areas (2017) (0)
Turning over a new leaf: Differences in search ability across naturalistic leaf litter textures (2022) (0)
Does disparity aid motion in depth judgements in the real world (2001) (0)
Dynamic asymmetry in the receptive fields of shunting networks for continuous-time early vision (1995) (0)
Building a video database of animal and background movements to investigate naturalistic camouflage breaking by animal motion (2022) (0)
Comparing real world and computer generated motion in depth (2010) (0)
Bias in space and time: the reliability of pseudoneglect (2019) (0)
Biases and thresholds for depth perception from monocular regions of binocular scenes (2010) (0)
Interplay between body reflectance and shape to reduce cues to shading in living animal (2021) (0)
[abstract] Monocular depth perception: More than meets the eye (2004) (0)
Can't see the snake for the leaves: enhanced edges disrupt depth perception. (2016) (0)
[abstract] Tangled eye movements: A new method to quantify human scan paths (2004) (0)
Breaking shape-from-shading inference through body form and countershading camouflage (2016) (0)
Studying 'Holes' to Understand Visual Representation (1999) (0)
‘Preferred’ stimulus of a whole model visual system (2018) (0)
Biases in relative depth perception linked to configuration in the scene (2010) (0)
Binocular Vision, Training and Lightness Constancy (2012) (0)
Does countershading impede efficient visual search (2016) (0)
Percieved direction of binocular 3-D motion when tracking a moving object (2010) (0)
PERFORMANCE OF HUMAN STEREOPSIS IN THE PRESENCE OF NOISE (1991) (0)
Effects of monocular distractors on monocular and binocular visual search. (2012) (0)
Critical timing in combinations of stereo-disparity and shading (2011) (0)
The use of horizontal disparity in distance perception in sparse, dark environments (2010) (0)
Disparity in Macaque V1 Range and Mechanism of Encoding of Horizontal (2015) (0)
C2 - EDITORIAL BOARD (2016) (0)
An Aubert-Fleischl-like illusion in depth (2010) (0)
Crossmodal Texture Perception Is Illumination-Dependent (2022) (0)
Extra-retinal cues and motion-in-depth perception (2003) (0)
Perceiving Monocular Regions in Binocular Scenes (2012) (0)
[abstract] Depth from monocular half images: Occlusion or low-level processing? (2004) (0)
Day 1. Posters – Sport and Performance (2015) (0)
The effect of acute beetroot juice ingestion upon running economy and maximal exercise performance in elite International standard runners (2015) (0)
655 BIOELECTRICAL RESPONSES OF HUMANS TO INPUT FREQUENCIES BETWEEN SO AND 240 KHz (1990) (0)
Visual search using realistic camouflage: countershading is highly effective at deterring search. (2015) (0)
Trigeminal nerve injuries. (2002) (0)
Induced motion-in-depth depends on eye movements (2006) (0)
38.1: Invited Paper: Combining Stereopsis and Motion in Human Vision (1998) (0)
Visuo-tactile integration in texture perception: A replication and extension study (2022) (0)
Combining binocular disparities for depth volume perception (2014) (0)
Warning signals: speeding up ultra-rapid animal detection (2018) (0)
Integration of visual and haptic texture information: Lederman & Abbott revisited (2021) (0)
Active Control of Heading and Depth (1997) (0)
A sixteenth century stereoscope unearthed in St Andrews ? (0)
The Extra-retinal Contribution to the Perception of Motion in Depth (2003) (0)
Stereo depth and the control of locomotive heading (1998) (0)
Frequency-tuned animal warning signals (2020) (0)
Professor Markland Frederick Bradshaw 1961–2004 (2006) (0)
No selective integration required: A race model explains responses to audiovisual motion-in-depth (2022) (0)
Review: On Perceived Motion and Figural Organization: From Perception to Consciousness: Searching with Anne Treisman, Perceiving in Depth, Face Perception (2013) (0)
Studying eye movements produced whilst making visual decisions (2010) (0)
Establishing the behavioural limits for countershaded camouflage (2017) (0)
Size, shading and disparity: studying cue combination using visual search (2012) (0)
Speed discrimination for real-world motion in depth (2017) (0)
Efficient Cue-Combination Even at the Temporal Limits of Perception (2012) (0)
Learning a 3-D Visual Light Field: Effects of Exploration on Lightness Constancy (2012) (0)
Co-occurrence of luminance and chromatic edges does not always result in suppressed perception of depth from shading (2011) (0)
Binocular motion-in-depth perception: contributions of eye movements and retinal-motion signals (2011) (0)
Reaction times in elite athletes and the influence of saccades (2016) (0)
Oncologist's perspectives and factors influencing school re-entry recommendations for children with acute lymphoblastic leukemia (2012) (0)
Perceived depth of 3D disparity-defined objects : continuous edges confer less apparent depth (2014) (0)
Using numerosity to explore monocular regions in binocular scenes (2010) (0)
fMRI reveals S-cone and achromatic contributions to motion-in-depth perception (2017) (0)
Exploring how distance and duration information contributes to speed change discrimination (2019) (0)
What is happening behind my neighbour's fence? Investigating our ability to use unmatched regions in a binocular scene (2010) (0)
How Do Reliability and Timing Influence Cue-Combinations for Shading and Stereo-Disparity?: (2011) (0)
Relationship between reaction time and ball catching in vision-restricted conditions in elite sportspeople (2015) (0)
Comparing binocular, biocular and monocular cues for time-to-contact (2010) (0)
Countershading camouflage and the efficiency of visual search (2015) (0)
Adaptive optics in the Arctic? A commentary on Fosbury and Jeffery (2022) (0)
RUNNING HEAD : DISPLACEMENT IN DEPTH What visual information is used for stereoscopic depth displacement discrimination ? Submitted in revised form to Perception (2010) (0)
Understanding the design of warning signals: a predator’s view (2021) (0)
Scene layout and binocular distance perception: Effects of angular separation (2010) (0)
Individual differences in depth perception: are biases correlated with eye position? (2010) (0)
Local and global mechanisms mediate perceived duration of brief visual events (2014) (0)
Temporal integration of speed change in motion perception (2018) (0)

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What Schools Are Affiliated With Julie M. Harris?

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