Ibbotson, M.R. (2006). Now there is hope that microchips can return sight to the blind. Canberra Times, 24 April, p. 6-7. This article forms the double-page centre-spread of the newspaper.
Ibbotson, M.R. (2005). Hard-won insights of men who opened our eyes. Review of Brain and Visual Perception by David Hubel and Torsten Wiesel (Oxford Univ Press). Times Higher Education Supplement, London, 30 September, 1711: 28-29. This article forms the double-page centre-spread of the newspaper.
Ibbotson, M.R. (2007). Intra saccadic motion: perception and physiology, II. In: G Masson and U. Ilg (eds). Dynamics of Visual Motion Processing: Neuronal, Behavioral and Computational Approaches. Springer-Verlag, Berlin, Heidelberg. In press.
Ibbotson, M.R. (2005). Physiological mechanisms of adaptation in the visual system. In: CWG Clifford, G Rhodes (eds). Fitting the mind to the world: Adaptation and aftereffects in high-level vision, Vol 2, Advances in Visual Cognition Series. pp. 17-45, Oxford Univ Press, Oxford. Reviewed in The Psychologist, April 2006, p.229.
Ibbotson, M.R., Dreher, B. (2005). Visual functions of the retinorecipient nuclei in the midbrain, pretectum and ventral thalamus of primates. In: J Kremmer (ed). The Primate Visual System: a comparative approach. pp. 213-266, Wiley, Chichester. This chapter comprises 26,000 words and cites 300 articles.
Ibbotson, M.R. (2001). Identification of mechanisms underlying motion detection in mammals. In: JM Zanker, J Zeil (eds). Computational, neural and ecological constraints of visual motion processing, pp. 34-43, Springer-Verlag, Berlin, Heidelberg. Reviewed in Perception (2001) 30: 1277-1280.
Goodman, L.J., Ibbotson, M.R., & Bidwell, N.J. (1991). Spatial, temporal and directional properties of motion-sensitive neurons in Apis mellifera. In: LJ Goodman, RC Fischer (eds). The behaviour and physiology of bees. pp 203-226, CAB International, Wallingford.
Goodman, L.J., Ibbotson, M.R., & Pomfrett, C.J.D. (1990). Directional tuning in insect interneurons. In: D.M. Guthrie (ed) Higher Order sensory processing. pp 27-48, Manchester University Press, Manchester.
Ibbotson, M.R., Crowder, N.A., Cloherty, S., Price, N.S.C. & Mustari, M.J. (2008). Saccadic modulation of neural responses: possible roles in saccadic suppression, enhancement and time compression. J. Neuroscience (Accepted 10 September, 2008).
Crowder, N.A., Hietanen, M.A., Price, N.S.C., Clifford, C.W.G, & Ibbotson, M.R. (2008). Dynamic contrast change produces rapid gain control in visual cortex. J Physiol. 586(17): 4107-4119.
Hietanen, M.A., Crowder, N.A., & Ibbotson, M.R. (2008). Differential changes in human perception of speed due to motion adaptation. J Vision. 8(11):6, 1-10.
Ibbotson, M.R. (2007). Invited Perspectives article: Reshaping the binding problem of form and motion vision. J Physiol. 585(2):319. [Pubmed]
Hietanen, M.A., Crowder, N.A., Price, N.C., Ibbotson, M.R. (2007). Influence of adapting speed on speed and contrast coding the primary visual cortex of the cat, J Physiol. 584(2):451-462. [Pubmed]
Crowder, N.A., van Kleef, J., Dreher, B., & Ibbotson, M.R. (2007). Complex cells increase their phase sensitivity at low contrasts following adaptation. J Neurophysiol. 98(3): 1155-1166. [Pubmed]
Durant, S., Clifford, C.W., Crowder, N.A., Price, N.S., & Ibbotson, M.R. (2007). Characterizing contrast adaptation in a population of cat primary visual cortical neurons using Fisher information. J Opt Soc Am A Opt Image Sci Vis. 24(6):1529-1537. Selected for the May, 15th issue of the Virtual Journal of Biological Physics Research. [Pubmed]
Ibbotson, M.R., Price, N.S., Crowder, N.A., Ono, S., & Mustari, M.J. (2007). Enhanced motion sensitivity follows saccadic suppression in the superior temporal sulcus of the macaque cortex. Cereb Cortex. 17(5):1129-1138. [Pubmed]
Schröter, U., Wilson, S.L., Srinivasan, M.V., & Ibbotson, M.R. (2007). The morphology, physiology and function of suboesophageal neck motor neurons in the honeybee. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 193(3):289-304. [Pubmed]
Hietanen, M.A., Crowder, N.A., & Ibbotson, M.R. (2007). Contrast gain control is drift-rate dependent: an informational analysis. J Neurophysiol. 97(2):1078-1087. [Pubmed]
Edwards, M., & Ibbotson, M.R. (2007). Relative sensitivities to large-field optic-flow patterns varying in direction and speed. Perception. 36(1):113-124. [Pubmed]
Ibbotson, M.R., Crowder, N.A., & Price, N.S. (2006). Neural basis of time changes during saccades. Curr Biol.16(19):834-836. This article is accompanied by an editorial article by Burr and Morrone in Current Biology. [Pubmed]
Price, N.S., Crowder, N.A., Hietanen, M.A., & Ibbotson, M.R. (2006). Neurons in V1, V2, and PMLS of cat cortex are speed tuned but not acceleration tuned: the influence of motion adaptation. J Neurophysiol. 95(2):660-673. [Pubmed]
Crowder, N.A., Price, N.S., Hietanen, M.A., Dreher, B., Clifford, C.W., & Ibbotson, M.R. (2006). Relationship between contrast adaptation and orientation tuning in V1 and V2 of cat visual cortex. J Neurophysiol. 95(1):271-83. [Pubmed]
Price, N.S., Ono, S., Mustari, M.J., & Ibbotson, M.R. (2005). Comparing acceleration and speed tuning in macaque MT: physiology and modeling. J Neurophysiol. 94(5):3451-64. [Pubmed]
Price, N.S., Ibbotson, M.R., Ono, S., Mustari, M.J.. (2005). Rapid processing of retinal slip during saccades in macaque area MT. J Neurophysiol. 94(1):235-46.[Pubmed]
Ibbotson, M.R. (2005).
Contrast and temporal frequency-related adaptation in the pretectal nucleus of the optic tract.
J Neurophysiol. 94(1):136-46.
[Pubmed]
Ibbotson, M.R., Price, N.S., & Crowder, N.A. (2005). On the division of cortical cells into simple and complex types: a comparative viewpoint. J Neurophysiol. 93(6):3699-702. [Pubmed]
Ibbotson, M.R., Price, N.S., Das, V.E., Hietanen, M.A., & Mustari, M.J. (2005). Torsional eye movements during psychophysical testing with rotating patterns. Exp Brain Res. 160(2):264-7. [Pubmed]
Price, N.S., Greenwood, J.A., & Ibbotson, M.R. (2004).
Tuning properties of radial phantom motion aftereffects.
Vision Res. 44(17):1971-9. [Pubmed]
Trewhella, J., Edwards, M., & Ibbotson, M.R. (2003). Sensitivity to the acceleration of looming stimuli. Clin Experiment Ophthalmol. 31(3):258-61. [Pubmed]
Ibbotson, M.R., & Mark, R.F. (2003). Orientation and spatiotemporal tuning of cells in the primary visual cortex of an Australian marsupial, the wallaby Macropus eugenii. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 189(2):115-23. [Pubmed]
Clifford, C.W., Ibbotson, M.R. (2002). Fundamental mechanisms of visual motion detection: models, cells and functions. Prog Neurobiol. 68(6):409-37. [Pubmed]
Ibbotson, M.R., Marotte, L.R., Mark, R.F. (2002). Investigations into the source of binocular input to the nucleus of the optic tract in an Australian marsupial, the wallaby Macropus eugenii. Exp Brain Res. 147(1):80-8. [Pubmed]
Price, N.S., & Ibbotson, M.R. (2002). Direction-selective neurons in the optokinetic system with long-lasting after-responses. J Neurophysiol. 88(5):2224-31. [Pubmed]
Ibbotson, M.R. (2001). Evidence for velocity-tuned motion-sensitive descending neurons in the honeybee. Proc Biol Sci. 268(1482):2195-201. [Pubmed]
Ibbotson, M.R., & Price, N.S. (2001). Spatiotemporal tuning of directional neurons in mammalian and avian pretectum: a comparison of physiological properties. J Neurophysiol. 86(5):2621-4. [Pubmed]
Ibbotson, M.R., & Clifford, C.W. (2001). Interactions between ON and OFF signals in directional motion detectors feeding the not of the wallaby. J Neurophysiol. 86(2):997-1005. [Pubmed]
Ibbotson, M.R., & Clifford, C.W. (2001). Characterising temporal delay filters in biological motion detectors. Vision Res. 41(18):2311-23. Erratum in: Vision Res (2001) 41(28):3943. [Pubmed]
Price, N.S., & Ibbotson, M.R. (2001). Pretectal neurons responding to slow wide-field retinal motion: could they compensate for slow drift during fixation? Clin Experiment Ophthalmol. 29(3):201-5. [Pubmed]
Price, N.S., & Ibbotson, M.R. (2001). Pretectal neurons optimized for the detection of saccade-like movements of the visual image. J Neurophysiol. 85(4):1512-21. [Pubmed]
Severt, W.L., Maddess, T., & Ibbotson MR. (2000). Employing following eye movements to discriminate normal from glaucoma subjects. Clin Experiment Ophthalmol. 28(3):172-4. [Pubmed]
Clifford, C.W., & Ibbotson, M.R. (2000). Response variability and information transfer in directional neurons of the mammalian horizontal optokinetic system. Vis Neurosci. 17(2):207-15. [Pubmed]
Ibbotson, M.R., Clifford, C.W., & Mark, R.F.(1999). A quadratic nonlinearity underlies direction selectivity in the nucleus of the optic tract. Vis Neurosci. 16(6):991-1000. [Pubmed]
Wimborne, B.M., Mark, R.F., & Ibbotson, M.R. (1999). Distribution of retinogeniculate cells in the tammar wallaby in relation to decussation at the optic chiasm. J Comp Neurol. 405(1):128-40. [Pubmed]
Ibbotson, M.R., Clifford, C.W., & Mark, R.F. (1998). Adaptation to visual motion in directional neurons of the nucleus of the optic tract. J Neurophysiol. 79(3):1481-93. [Pubmed]
Clifford, C.W., Ibbotson, M.R., & Langley, K. (1997). An adaptive Reichardt detector model of motion adaptation in insects and mammals. Vis Neurosci. 14(4):741-9. [Pubmed]
Ibbotson, M.R., & Mark, R.F. (1996). Impulse responses distinguish two classes of directional motion-sensitive neurons in the nucleus of the optic tract. J Neurophysiol. 75(3):996-1007. [Pubmed]
Hoffmann, K.P., Distler, C., Mark, R.F., Marotte, L.R., Henry, G.H., & Ibbotson, M.R. (1995). Neural and behavioral effects of early eye rotation on the optokinetic system in the wallaby, Macropus eugenii. J Neurophysiol. 73(2):727-35. [Pubmed]
Ibbotson, M.R., Mark, R.F., & Maddess, T.L. (1994). Spatiotemporal response properties of direction-selective neurons in the nucleus of the optic tract and dorsal terminal nucleus of the wallaby, Macropus eugenii. J Neurophysiol. 72(6):2927-43. [Pubmed]
Ibbotson, M.R., & Mark, R.F. (1994). Wide-field nondirectional visual units in the pretectum: do they suppress ocular following of saccade-induced visual stimulation.J Neurophysiol. 72(3):1448-50. Erratum in: J Neurophysiol (1994) 72(6): J Neurophysiol (1994) 72(4) [Pubmed]
Ibbotson, M.R., & Maddess, T. (1994). The effects of adaptation to visual stimuli on the velocity of subsequent ocular following responses. Exp Brain Res. 99(1):148-54.[Pubmed]
Srinivasan, M.V., Jin, Z.F., Stange, G., & Ibbotson, M.R. (1993). 'Vector white noise': a technique for mapping the motion receptive fields of direction-selective visual neurons. Biol Cybern. 68(3):199-207. [Pubmed]
Maddess, T., & Ibbotson, M.R. (1992). Human ocular following responses are plastic: evidence for control by temporal frequency-dependent cortical adaptation. Exp Brain Res. 91(3):525-38. This paper was rated a “must read” in Progress in Oculomotor Research (December 1993). [Pubmed]
Ibbotson, M.R. (1992). Direction-selective neurons with tonic and phasic response profiles contribute to the optokinetic system of Apis mellifera. Naturwissenschaften 79: 467-470.
Maddess, T., DuBois, R., & Ibbotson, M.R. (1991). Response properties and adaptation of neurons sensitive to image motion in the butterfly, Papilio aegeus. J Exp Biol 161: 171-199.
Ibbotson, M.R., Maddess, T., & DuBois, R. (1991). A system of insect neurons sensitive to horizontal and vertical image motion connect the medulla and midbrain. J Comp Physiol A 169: 355-367.
Ibbotson, M.R. (1991). Wide-field motion-sensitive neurons tuned to horizontal movement in the honeybee, Apis mellifera. J Comp Physiol A. 168: 91-102.
Ibbotson, M.R. (1991). A motion-sensitive visual descending neurone in Apis mellifera monitoring translatory flow-fields in the horizontal plane. J Exp Biol 157: 573-577.
Ibbotson, M.R., & Goodman, L.J. (1990). Response characteristics of four wide-field motion-sensitive descending interneurons in Apis mellifera. J Exp Biol 148: 255-279.
Lovell, N. H., Karantonis, D. M., Cloherty, S. L., & Celler, B. G. (2008). Physiological Measurement. UNESCO Encyclopedia of Life Support Systems (EOLSS), EOLSS Publishers, Oxford, UK, 2008 (In Press: Accepted 6/2/2008, Manuscript Id. E6-59-13-09).
Cloherty, S. L., Dokos, S., & Lovell, N. H. (2006). Electrical Activity in Cardiac Tissue, Modelling of. Encyclopedia of Biomedical Engineering, M. Akay (Ed), Wiley Press, NY, USA.
Ibbotson, M.R., Crowder, N.A., Cloherty, S., Price, N.S.C. & Mustari, M.J. (2008). Saccadic modulation of neural responses: possible roles in saccadic suppression, enhancement and time compression. J. Neuroscience (Accepted 10 September, 2008).
Lim, E., Karantonis, D. M., Reizes, J. A., Cloherty, S. L, Mason, D. G., & Lovell, N. H. (2008). Noninvasive average flow and differential pressure estimation for an implantable rotary blood pump using
dimensional analysis. IEEE Trans. Biomed. Eng. (In Press: Accepted 23/12/2007, Manuscript Id.
TBME-00349-2007.R2).
Karantonis, D. M., Cloherty, S. L., Mason, D. G., Salamonsen, R. F., Ayre, P. J., & Lovell, N. H. (2008). Noninvasive detection of suction in an implantable rotary blood pump using neural networks. IJCIA. (In Press: Accepted 17/10/2007).
Hallum, L. E., Cloherty, S. L., & Lovell, N. H. (2008). Image analysis for microelectronic retinal prosthesis.IEEE Trans. Biomed. Eng., 55:344-346. [Pubmed]
Karantonis, D. M., Mason, D. G., Salamonsen, R. F., Ayre, P. J., Cloherty, S. L., & Lovell, N. H. (2007). Classification of physiologically significant pumping states in an implantable rotary blood pump: Patient trial results. ASAIO J. 53(5): 617-622. [Pubmed]
Karantonis, D. M., Lovell, N. H., Ayre, P. J., Mason, D. G., & Cloherty, S. L. (2007). Classification of physiologically significant pumping states in an implantable rotary blood pump: Effects of cardiac rhythm disturbances. Artif. Organs, 31(6):476-479.[Pubmed]
Malagutti, N., Karantonis, D. M., Cloherty, S. L., Ayre, P. J., Mason, D. G., Salamonsen, R. F., & Lovell, N. H. (2007). Non-invasive average flow estimation for an implantable rotary blood pump: A new algorithm incorporating the role of blood viscosity. Artif. Organs, 31(1): 45-52 [Pubmed]
Karantonis, D. M., Lovell, N. H., Ayre, P. J., Mason, D. G., & Cloherty, S. L. (2006). Identification and classification of physiologically significant pumping states in an implantable rotary blood pump. Artif. Organs, 30(9):671-679. [Pubmed]
Cloherty, S. L., Dokos, S., & Lovell, N. H. (2006). A comparison of 1-D models of cardiac pacemaker heterogeneity. IEEE Trans. Biomed. Eng. 53:164-177.[Pubmed]
Lovell, N. H., Cloherty, S. L., Celler, B. G., & Dokos, S. (2004). A gradient model of cardiac pacemaker myocytes. Prog. Biophys. Mol. Biol. 85:301-323.[Pubmed]
Cloherty, S. L., Lovell, N. H., Celler, B. G., & Dokos, S. (2001) Inhomogeneity in action potential waveshape assists frequency entrainment of cardiac pacemaker cells. IEEE Trans. Biomed. Eng., 48:1108-1115.[Pubmed]
Bath, A. R., Cloherty, S. L., Dokos, S., Celler, B. G., & Lovell, N. H. (2001). Vagal entrainment of heart rate is simulated by an integrator with feedback. Australasian Physical & Engineering Sciences in Medicine, 24:86-94.[Pubmed]
Crowder, N.A., Hietanen, M.A., Price, N.S.C., Clifford, C.W.G, & Ibbotson, M.R. (2008). Dynamic contrast change produces rapid gain control in visual cortex. J Physiol. 586(17): 4107-4119.
Hietanen, M.A., Crowder, N.A., & Ibbotson, M.R. (2008). Differential changes in human perception of speed due to motion adaptation. J Vision. 8(11):6, 1-10.
Hietanen, M.A., Crowder, N.A., Price, N.C., & Ibbotson, M.R. (2007). Influence of adapting speed on speed and contrast coding in the primary visual cortex of the cat, J Physiol. 584(2):451-462. [Pubmed]
Hietanen, M.A., Crowder, N.A., & Ibbotson, M.R. (2007). Contrast gain control is drift-rate dependent: An informational analysis. J. Neurophysiol. 97: 1078-1087. [Pubmed]
Price, N.S.C., Crowder, N.A., Hietanen, M,A, & Ibbotson, M.R. (2006). Neurons in V1, V2 and PMLS of cat cortex are speed tuned but not acceleration tuned: the influence of motion adapatation. J. Neurophysiol. 95(2): 660-673. [Pubmed]
Crowder, N.A., Price, N.S.C., Hietanen, M.A., Dreher, B., Clifford, C.W.G., & Ibbotson, M.R. (2006). Relationship between contrast adaptation and orientation tuning in V1 and V2 of cat visual cortex J. Neurophysiol. 95(1): 271-278. [Pubmed]
Ibbotson, M.R., Price, N.S.C., Das, V.E., Hietanen, M.A., & Mustari, M.J. (2005). Torsional eye movements during psychophysical testing with rotating patterns. Exp. Brain Res.. 160: 264-367. [Pubmed]
van Kleef, J., Berry, R., & Stange, G. (2008). Direction selectivity in the simple eye of an insect. J Neurosci. 28(11): 2845-2855.[Pubmed]
Stange, G., Berry, R., & van Kleef, J. (2007). Design concepts for a novel attitude sensor for Micro Aerial Vehicles based on dragonfly ocellar vision. MAV 2007. 17-21 September 2007. Toulouse, France.
Berry, R., Warrant, E.J. & Stange, G. (2007). Form vision in the insect dorsal ocelli: An anatomical and optical analysis of the locust ocelli. Vision Research. (in press)
Berry, R., Stange, G. & Warrant, E.J. (2007). Form vision in the insect dorsal ocelli: An anatomical and optical analysis of the dragonfly median ocellus. Vision Research. (in press)
Berry, R., van Kleef, J. & Stange, G. (2007). The mapping of visual space by dragonfly lateral ocelli. J Comp Physiol A 193: 495-513.[Pubmed]
Berry, R., Stange, G., Olberg, R. & van Kleef, J.(2006). The mapping of visual space by identified large second-order neurons in the dragonfly median ocellus. J Comp Physiol A 192:1105–1123.[Pubmed]
van Kleef, J., Berry, R., & Stange, G. (2008). Direction selectivity in the simple eye of an insect. J Neurosci. 28(11): 2845-2855.[Pubmed]
Berry, R., van Kleef, J. & Stange, G. (2007). The mapping of visual space by dragonfly lateral ocelli. J Comp Physiol A 193: 495-513.[Pubmed]
Stange, G., Berry, R., & van Kleef, J. (2007). Design concepts for a novel attitude sensor for Micro Aerial Vehicles based on dragonfly ocellar vision. MAV 2007. 17-21 September 2007. Toulouse, France.
Crowder, N.A., Van Kleef, J., Dreher, B. & Ibbotson, M.R.(2007). Complex cells increase their phase sensitivity at low contrasts and following adaptation. J Neurophysiol 98: 1155–1166.[Pubmed]
Berry, R., Stange, G., Olberg, R. & van Kleef, J.(2006). The mapping of visual space by identified large second-order neurons in the dragonfly median ocellus. J Comp Physiol A 192:1105–1123.[Pubmed]
van Kleef, J., James, A.C., & Stange, G. (2005). A spatiotemporal white noise analysis of photoreceptor responses to UV and green light in the dragonfly median ocellus. J. Gen. Physiol. 126:481–497.[Pubmed]
Chen Y.-L., Hung Y.-S. and Yang, E.-C. (2008). Biogenic amine levels change in the brains of stressed honeybees. Archive of Insect Biochemistry and Physiology. 68:241-250. [Pubmed]
Yang R.-C., Lin H. C., and Hung Y.-S. (2004) Patterns of chromatic information processing in the lobula of honeybee, Apis mellifera L. J. Insect Physiol. 50: 913-925. [Pubmed]
Yang E.C. and Hung Y.-S. (2001) Color attraction to insects - the fundamental and application. pp69-77 In: F. K. Hsieh, C. S. Lin, and S. H. Gu [eds.], Proceedings of the symposium on the progress of Taiwan entomological research at the threshold of 21st century, National Museum of Natural Science, Taichung, Taiwan. 411 pp. (in Chinese).
