publications

  • Dahlmann-Noor, AH, Greenwood, JA, Skilton, A, Baker, D, Abbas, M, Clay, E, Khandelwal, P, Dunham, D, Ludden, S, Davis, A, Dehbi, HM, & Dakin, SC (2024).
    Feasibility of a new ‘balanced binocular viewing’ treatment for unilateral amblyopia in children aged 3–8 years (BALANCE): Results of a phase 2a randomised controlled feasibility trial.
    BMJ Open, 14(7), e082472.
    [    Download] [Web link]
  • Yong, KXX, Petzold, A, Foster, P, Young, A, Bell, S, Bai, Y, Leff, AP, Crutch, S, & Greenwood, JA (2024).
    The Graded Incomplete Letters Test (GILT): A rapid test to detect cortical visual loss, with UK Biobank implementation.     Behavior Research Methods, 1-13.
    [    Download] [Web link]
  • Morsi, AY, Goffaux, V, & Greenwood, JA (2024).
    The resolution of face perception varies systematically across the visual field.
    PLoS ONE, 19(5), e0303400.
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  • Shenyan, O, Lisi, M, Greenwood, JA, Skipper, JI, & Dekker, TM (2024).
    Visual hallucinations induced by Ganzflicker and Ganzfeld differ in frequency, complexity, and content.
    Scientific Reports, 14(1), 2353.
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  • Greenwood, JA, Jerotic, K, Danter, JE, Finnie, RJ, & Schwarzkopf, DS (2023).
    A common cortical basis for variations in visual crowding [pre-print].
    bioRxiv, 2023.2012.2007.570607.
    [    Download] [Web link]
  • Roux-Sibilon, A, Peyrin, C, Greenwood, JA, & Goffaux, V (2023).
    Radial bias in face identification.
    Proceedings of the Royal Society B: Biological Sciences, 290(2001), 20231118.
    [    Download] [Web link]
  • Farahbakhsh, M, Anderson, EJ, Rider, A, Greenwood, JA, Hirji, N, Zaman, S, Jones, PR, Schwarzkopf, DS, Rees, G, Michaelides, M, & Dekker, TM (2022).
    A demonstration of cone function plasticity after gene therapy in achromatopsia.
    Brain, 145(11), 3803-3815.
    [    Download] [Web link]
  • Dahlmann-Noor, AH, Greenwood, JA, Skilton, A, Baker, D, Ludden, S, Davis, A, Dehbi, HM, & Dakin, SC (2022).
    Phase 2a randomised controlled feasibility trial of a new ‘balanced binocular viewing’ treatment for unilateral amblyopia in children age 3–8 years: Trial protocol.
    BMJ Open, 12(5), e051423.
    [    Download] [Web link]
  • Kalpadakis-Smith, AV, Tailor, VK, Dahlmann-Noor, AH, & Greenwood, JA (2022).
    Crowding changes appearance systematically in peripheral, amblyopic, and developing vision.
    Journal of Vision, 22(6):3, 1-32.
    [    Download] [Web link]
  • Tailor, VK, Ludden, S, Bossi, M, Bunce, C, Greenwood, JA, & Dahlmann-Noor, A (2022).
    Binocular versus standard occlusion or blurring treatment for unilateral amblyopia in children aged three to eight years.
    Cochrane Database of Systematic Reviews, 2022(2), CD011347.
    [    Download] [Web link]
  • Tailor, VK, Theodorou, M, Dahlmann-Noor, AH, Dekker, TM, & Greenwood, JA (2021).
    Eye movements elevate crowding in idiopathic infantile nystagmus syndrome.
    Journal of Vision, 21(13):9, 1-23.
    [    Download] [Web link]
  • Alvarez, I, Finlayson, NJ, Ei, S, de Haas, B, Greenwood, JA, & Schwarzkopf, DS (2021).
    Heritable functional architecture in human visual cortex.
    NeuroImage, 239, 118286.
    [    Download] [Web link]
  • Greenwood, JA, & Parsons, MJ (2020).
    Dissociable effects of visual crowding on the perception of color and motion.
    Proceedings of the National Academy of Sciences, 117(14), 8196-8202.
    [    Download] [Web link]
  • Hughes, AE, Greenwood, JA, Finlayson, NJ, & Schwarzkopf, DS (2019).
    Population receptive field estimates for motion-defined stimuli.
    NeuroImage, 199, 245-260.
    [    Download] [Web link]
  • Kalpadakis-Smith, AV, Goffaux, V, & Greenwood, JA (2018).
    Crowding for faces is determined by visual (not holistic) similarity: Evidence from judgements of eye position.
    Scientific Reports, 8(12556), 1-14.
    [    Download] [Web link]
  • Bossi, M, Tailor, VK, Anderson, EJ, Bex, PJ, Greenwood, JA, Dahlmann-Noor, A, & Dakin, SC (2017).
    Binocular therapy for childhood amblyopia improves vision without breaking interocular suppression.
    Investigative Ophthalmology & Visual Science, 58(7), 3031-3043.
    [    Download] [Web link]
  • Greenwood, JA, Szinte, M, Sayim, B, & Cavanagh, P (2017).
    Variations in crowding, saccadic precision, and spatial localization reveal the shared topology of spatial vision.
    Proceedings of the National Academy of Sciences, 114(17), E3573-E3582.
    [    Download] [Web link]
  • Goffaux, V & Greenwood, JA (2016).
    The orientation selectivity of face identification.
    Scientific Reports, 6(34204), 1-13.
    [    Download] [Web link] [Corrigendum]
  • Tailor, V, Bossi, M, Greenwood, JA & Dahlmann-Noor, A (2016).
    Childhood amblyopia: Current management and new trends.
    British Medical Bulletin, 119(1): 75-86.
    [    Download] [Web link]
  • Moutsiana, C, de Haas, B, Papageorgiou, A, van Dijk, JA, Balraj, A, Greenwood, JA, & Schwarzkopf, DS (2016).
    Cortical idiosyncrasies predict the perception of object size.
    Nature Communications, 7, 12110.
    [    Download] [Web link]
  • Goodhew, SC, Greenwood, JA, & Edwards, M (2016).
    Categorical information influences conscious perception: An interaction between object-substitution masking and repetition blindness.
    Attention, Perception & Psychophysics, 78(4): 1186-1202.
    [    Download] [Web link]
  • Tailor, V, Bossi, M, Bunce, C, Greenwood, JA, & Dahlmann-Noor, A. (2015).
    Binocular versus standard occlusion or blurring treatment for unilateral amblyopia in children aged three to eight years.
    Cochrane Database of Systematic Reviews, 2015(8), CD011347.
    [    Download] [Web link]
  • Sayim, B, Greenwood, JA, & Cavanagh, P. (2014).
    Foveal target repetitions reduce crowding.
    Journal of Vision, 14(6):4, 1-12.
    [    Download] [Web link]
  • Greenwood, JA, Sayim, B, & Cavanagh, P. (2014).
    Crowding is reduced by onset transients in the target object (but not in the flankers).
    Journal of Vision, 14(6):2, 1-21.
    [    Download] [Web link]
  • Greenwood, JA, Tailor, VK, Simmers, AJ, Sloper, JJ, Bex, PJ, & Dakin, SC. (2012).
    Visual acuity, crowding and stereo-vision are linked in children with and without amblyopia.
    Investigative Ophthalmology & Visual Science, 53(12), 7655-7665.
    [    Download] [Web link]
  • Anderson, EJ, Dakin, SC, Schwarzkopf, DS, Rees, G, & Greenwood, JA. (2012).
    The neural correlates of crowding-induced changes in appearance.
    Current Biology, 22(13), 1199-1206.
    [    Download] [Web link]
  • Tibber, MS, Greenwood, JA, & Dakin, SC. (2012).
    Number and density discrimination rely on a common metric: Similar psychophysical effects of size, contrast and divided attention.
    Journal of Vision, 12(6):8, 1-19.
    [    Download] [Web link]
  • Greenwood, JA, Bex, PJ, & Dakin, SC. (2012).
    Crowding follows the binding of relative position and orientation.
    Journal of Vision, 12(3):18, 1-20.
    [    Download] [Web link]
  • Dakin, SC, Tibber, MS, Greenwood, JA, Kingdom, FAA, & Morgan, MJ. (2011).
    A common visual metric for approximate number and density.
    Proceedings of the National Academy of Sciences of the United States of America, 108(49), 19552-19557.
    [    Download] [Web link]
  • Dakin, SC, Greenwood, JA, Carlson, TA & Bex, PJ. (2011).
    Crowding is tuned for perceived (not physical) location.
    Journal of Vision, 11(9):2, 1-13.
    [    Download] [Web link]
  • Dakin, SC, Cass, J, Greenwood, JA, & Bex, PJ. (2010).
    Probabilistic, positional averaging predicts object-level crowding effects with letter‐like stimuli.
    Journal of Vision, 10(10), 1-16.
    [    Download] [Web link]
  • Greenwood, JA, Bex, PJ, & Dakin, SC. (2010).
    Crowding changes appearance.
    Current Biology, 20(6), 496-501.
    [    Download] [Web link]
  • Greenwood, JA, Bex, PJ, & Dakin, SC. (2009).
    Positional averaging explains crowding with letter-like stimuli.
    Proceedings of the National Academy of Sciences of the United States of America, 106(31), 13130-13135.
    [    Download] [Web link]
  • Greenwood, JA & Edwards, M. (2009).
    The detection of multiple global directions: Capacity limits with spatially segregated and transparent-motion signals.
    Journal of Vision, 9(1), 1-15.
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  • Greenwood, JA & Edwards, M. (2007).
    An oblique effect for transparent-motion detection caused by variation in global-motion direction-tuning bandwidths.
    Vision Research, 47(11), 1411-1423.
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  • Greenwood, JA & Edwards, M. (2006).
    Pushing the limits of transparent-motion detection with binocular disparity.
    Vision Research, 46(16), 2615-2624.
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  • Greenwood, JA & Edwards, M. (2006).
    An extension of the transparent-motion detection limit using the global-motion speed-tuned systems.
    Vision Research, 46(8-9), 1440-1449.
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  • Edwards, M & Greenwood, JA. (2005).
    The perception of motion transparency: A signal-to-noise limit.
    Vision Research, 45(14), 1877-1884.
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  • Price, NSC, Greenwood, JA, & Ibbotson, MR. (2004).
    Tuning properties of radial phantom motion aftereffects.
    Vision Research, 44(17), 1971-1979.
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