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Snijders HJ, Holmes NP, Spence C (2007) Direction-dependent integration of vision and proprioception in reaching under the influence of the mirror illusion. Neuropsychologia, 45(3):496-505        
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1. Alberici A (2010) The development in young children of direction-dependent multisensory weightings in reaching. Body Representation Workshop, Goldsmiths University of London, 29th March
  [NBArticle #28772] [Cites 3]
2. Bolognini N, Russo C, Vallar G (2015) Crossmodal illusions in neurorehabilitation. Frontiers in Behavioral Neuroscience, 9:
    [NBArticle #45605] [Cites 1]
3. Bremner AJ, Holmes NP, Spence C (2012) Development of multisensory representations of the body and of the space around the body. In: Bremner AJ, Lewkowicz DJ, Spence C (eds) Multisensory Development. Oxford University Press, Oxford, pp 113–136
    [NBArticle #27763] [Cites 100] [CitedBy 7]
4. Bremner AJ, Hill EL, Pratt ML, Rigato S, Spence C (2013) Bodily illusions in young children: developmental change in visual and proprioceptive contributions to perceived hand position. Public Library of Science ONE, 8(1):e51887
    [NBArticle #36399] [Cites 5]
5. Butz MV, Kutter EF, Lorenz C (2014) Rubber hand illusion affects joint angle perception. Public Library of Science ONE, 9(3):e65535
      [NBArticle #36974] [Cites 3]
6. Cheung KL, Tunik E, Adamovich SV, Boyd LA (2014) Neuroplasticity and virtual reality. In: (eds) Virtual reality for physical and motor rehabilitation. Springer, New York, pp 5–24
  [NBArticle #45607] [Cites 1]
7. Duclos C (2006) Les posteffets moteurs posturaux: mécanismes sous-jacents et exploitation thérapeutique chez les personnes amputées. PhD Thesis, Université de Montréal, 150pp.
  [NBArticle #45612] [Cites 1]
8. Gallace A, Spence C (2008) The cognitive and neural correlates of 'tactile consciousness': A multisensory perspective. Consciousness and Cognition, 17(1):370-407
      [NBArticle #16948] [Cites 8] [CitedBy 2]
9. Gallace A, Spence C (2014) In touch with the future: the sense of touch from cognitive neuroscience to virtual reality. Oxford University Press, Oxford–469
  [NBArticle #45565] [Cites 10]
10. Gosselin-Kessiby N (2008) Quand l'action surpasse la perception: Role de la vision et de la proprioception dans la perception et le controle en temps reel de l'orientation spatiale de la main. PhD Thesis, , 269pp.
  [NBArticle #28239] [Cites 4]
11. Haughey L (2013) Practical proprioception: an examination of a core physiological foundation for physical performance training. PhD Thesis, University of Huddersfield, 229pp.
  [NBArticle #45610] [Cites 2]
12. Ho C, Tan HZ, Barbagli F, Salisbury K, Spence C (2006) Isotropy and visual modulation of haptic force direction discrimination on the human finger. Proceedings of EuroHaptics, :
  [NBArticle #25633] [Cites 1]
13. Holmes NP (2005) Of tools, mirrors, & bodies: Multisensory interactions in peripersonal space. PhD Thesis, Wolfson College, University of Oxford, 302pp.
    [NBArticle #25557] [Cites 280]
14. Isableu B (2008) Flexibilité de l’intégration multi-sensorielle: aspects spatiaux et temporels. Thesis, Université de Poitiers, pp.
  [NBArticle #45356] [Cites 4]
15. Jones SAH, Byrne PA, Fiehler K (2012) Reach endpoint errors do not vary with movement path of the proprioceptive target. Journal of Neurophysiology, 107(12):3316-3324
    [NBArticle #36686] [Cites 1]
16. Kammers MPM, Mulder J, de Vignemont F, Dijkerman HC (2010b) The weight of representing the body: Addressing the potentially indefinite number of body representations in healthy individuals. Experimental Brain Research, 204(3):333-342
    [NBArticle #30585] [Cites 2] [CitedBy 1]
17. King BR (2006) Sensory integration during de-adaptation to visuomotor distortions. MSc Thesis, University of Maryland, College Park, 61pp.
  [NBArticle #45603] [Cites 1]
18. Makin TR (2009) Multisensory representation of peri-hand space. PhD Thesis, Hebrew University of Jerusalem, Israel, pp.
  [NBArticle #25854] [Cites 193]
19. Makin TR, Holmes NP, Ehrsson HH (2008) On the other hand: Dummy hands and peripersonal space. Behavioural Brain Research, 191(1):1-10
        [NBArticle #20898] [Cites 81] [CitedBy 281]
20. Merians AS, Tunik E, Fluet GG, Qiu Q, Adamovich SV (2009) Innovative approaches to the rehabilitation of upper extremity hemiparesis using virtual environments. European Journal of Physical and Rehabilitation Medicine, 45(1):123-133
    [NBArticle #26011] [Cites 1]
21. Miller LE, Longo MR, Saygin AP (2017) Visual illusion of tool use recalibrates tactile perception. Cognition, 162:32-40
    [NBArticle #47597] [Cites 3]
22. Mohanty S, Pradhan B, Nagathna R (2014) The effect of yoga practice on proprioception in congenitally blind students. British Journal of Visual Impairment, 32(2):124-135
    [NBArticle #45600] [Cites 1]
23. Mulder J (2010) Bayesian model selection for constrained multivariate normal linear models. PhD Thesis, Utrecht University, 185pp.
  [NBArticle #45601] [Cites 2]
24. Priot A (2012) Composantes de l'adaptation à une altération des distances apparentes par modification de la demande en vergence. PhD Thesis, UNIVERSITE CLAUDE BERNARD LYON 1, 179pp.
  [NBArticle #45611] [Cites 1]
25. Priot A, Laboissiere R, Plantier J (2011) Partitioning the components of visuomotor adaptation to prism-altered distance. Neuropsychologia, 49(3):498-506
    [NBArticle #32259] [Cites 1]
26. Pusch A, Martin O, Coquillart S (2011c) A lightweight av system for providing a faithful and spatially manipulable visual hand representation. CyberTherapy 16 - CyberPsychology and CyberTherapy Conference, Gatineau, Canada, 1st January
  [NBArticle #46289] [Cites 1]
27. Pusch A, Martin O, Coquillart S (2011) Effects of hand feedback fidelity on near space pointing performance and user acceptance. In: (eds) Isvri 2011 - international symposium on virtual reality innovation., pp 97–102
    [NBArticle #45599] [Cites 1]
28. Pusch A (2008) Visuo-proprioceptive conflicts of the hand for 3d user interaction in augmented reality. PhD Thesis, Institut National Polytechnique de Grenoble-INPG, 156pp.
  [NBArticle #45604] [Cites 1]
29. Pusch A, Martin O, Coquillart S (2011b) A lightweight augmented virtuality system for providing a faithful and spatially manipulable visual hand representation. Journal of CyberTherapy and Rehabilitation, 4(2):192-1940
  [NBArticle #45609] [Cites 1]
30. Revol P, Farnè A, Pisella L, Holmes NP, Imai A, Koga K, Rossetti YRC (2009) Optokinetic stimulation induces illusory movement of both out-of-the-body and on-the-body hand-held visual objects. Experimental Brain Research, 193(4):633-638
        [NBArticle #25604] [Cites 43] [CitedBy 2]
31. Romano D, Bottini G, Maravita A (2013) Perceptual effects of the mirror box training in normal subjects. Restorative Neurology and Neuroscience, 31(4):373-386
  [NBArticle #36683] [Cites 3]
32. Samad MJ (2016) Own body perception as bayesian causal inference. PhD Thesis, UNIVERSITY OF CALIFORNIA Los Angeles, 190pp.
  [NBArticle #47207] [Cites 4]
33. Senna I, Russo C, Parise CV, Ferrario I, Bolognini N (2015) Altered visual feedback modulates cortical excitability in a mirror-box-like paradigm. Experimental Brain Research, 233(6):1921-1929
    [NBArticle #41930] [Cites 1]
34. Soliman TM, Buxbaum LJ, Jax SA (2016) The mirror illusion's effects on body state estimation. Cognitive Neuropsychology, 33(1-2):102-111
    [NBArticle #45608] [Cites 3]
35. Spence C (2015) The cognitive neuroscience of incorporation: body image adjustment and neuroprosthetics. In: (eds) Clinical systems neuroscience. Springer Japan, pp 151–168
  [NBArticle #45560] [Cites 8]
36. Tajima D, Mizuno T, Kume Y, Yoshida T (2016) Visualization method for proprioceptive drift on a 2d plane using support vector machine. Journal of Visualized Experiments, 116:53970
    [NBArticle #46503] [Cites 2]
37. Tajima D, Mizuno T, Kume Y, Yoshida T (2015) The mirror illusion: does proprioceptive drift go hand in hand with sense of agency? Frontiers in Psychology, 6:200
    [NBArticle #45602] [Cites 2]
38. Tsuge M, Izumizaki M, Kigawa K (2012) Interaction between vibration-evoked proprioceptive illusions and mirror-evoked visual illusions in an arm-matching task. Experimental Brain Research, 223(4):541-551
    [NBArticle #36684] [Cites 2]
39. Umemura H (2014) Effects of haptic information on the perception of dynamic 3-d movement. Public Library of Science ONE, 9(9):e106633
    [NBArticle #39542] [Cites 1]
40. van Beers RJ (2012) How does our motor system determine its learning rate? Public Library of Science ONE, 7(11):e49373
    [NBArticle #36685] [Cites 1]