Relevant bibliographies by topics / Compensatory vision

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Academic literature on the topic 'Compensatory vision'

Author: Grafiati
Published: 3 June 2025
Last updated: 20 July 2025

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Journal articles on the topic "Compensatory vision"

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Hobara, H., K. Omuro, T. Muraoka, and K. Kanosue. "HUMAN HOPPING WITHOUT VISION: COMPENSATORY STRATEGY BY STIFFNESS REGULATION." Journal of Biomechanics 40 (January 2007): S541. http://dx.doi.org/10.1016/s0021-9290(07)70531-6.

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Windsor, Shane P., and Graham K. Taylor. "Head movements quadruple the range of speeds encoded by the insect motion vision system in hawkmoths." Proceedings of the Royal Society B: Biological Sciences 284, no. 1864 (2017): 20171622. http://dx.doi.org/10.1098/rspb.2017.1622.

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Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, these movements can reduce image displacement, motion and misalignment, and simplify the optic flow field. Because gaze is imperfectly stabilized in insects, we hypothesized that compensatory head movements serve to extend the range of velocities of self-motion that the visual system encodes. We tested this by measuring head movements in hawkmoths Hyles lineata responding to full-field visual stimuli of differing oscillation amplitudes, oscillation frequencies and spatial frequencies. We used frequency-domain system identification techniques to characterize the head's roll response, and simulated how this would have affected the output of the motion vision system, modelled as a computational array of Reichardt detectors. The moths' head movements were modulated to allow encoding of both fast and slow self-motion, effectively quadrupling the working range of the visual system for flight control. By using its own output to drive compensatory head movements, the motion vision system thereby works as an adaptive sensor, which will be especially beneficial in nocturnal species with inherently slow vision. Studies of the ecology of motion vision must therefore consider the tuning of motion-sensitive interneurons in the context of the closed-loop systems in which they function.
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YAKUSHIN, SERGEI, JUN-ICHI SUZUKI, MINJIA DAI, THEODORE RAPHAN, and BERNARD COHEN. "Normalization Effects of Vision on the Compensatory VOR after Canal Plugging." Annals of the New York Academy of Sciences 781, no. 1 Lipids and Sy (1996): 713–17. http://dx.doi.org/10.1111/j.1749-6632.1996.tb15768.x.

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Jiang, Tian-Yu, Dong-Mei Wu, Lin Zhang, Chang-Shui Weng, and Li-Hai Zhang. "Effect of vision loss on plasticity of the head and neck proprioception." International Journal of Ophthalmology 14, no. 7 (2021): 1059–65. http://dx.doi.org/10.18240/ijo.2021.07.15.

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AIM: To investigate whether head and neck proprioception and motor control could be compensatory enhanced by long-term vision loss or impairment. METHODS: Individuals who were blind, low vision or sighted were included in the study, which would undergo the head repositioning test (HRT). The constant error (CE), absolute error (AE), variable error (VE) and root mean square error (RMSE) of each subject were statistically analyzed. Data were analyzed using the SAS 9.4. Tukey-Kramer for one-way ANOVA was used for comparison of blind, low vision, and sighted subjects, as well as to compare subjects with balanced vision, strong vision in the left eye and strong vision in the right eye. Independent sample t-test was used to compare subjects with congenital blindness and acquired blindness, as well as left and right hand dominance subjects. RESULTS: A total of 90 individuals (25 blind subjects, 31 low vision subjects, and 34 sighted subjects) were included in the study. Among the blind subjects, 14 cases had congenital blindness and 11 cases had acquired blindness. Among the blind and low vision subjects, 21 cases had balanced binocular vision, 17 cases had strong vision in the left eye and 18 cases had strong vision in the right eye. Among all subjects, 11 cases were left hand dominance, and 79 cases were right hand dominance. There were significant differences in AE, VE, and RMSE in head rotation between blind, low vision, and sighted subjects (P<0.01), in AE, VE, and RMSE between blind and sighted (P<0.01), and in VE and RMSE between low vision and sighted (P<0.05). No significant difference between blind and low vision (P>0.05). Significant differences in CE and AE of head right rotation and CE of general head rotation between congenital and acquired (P<0.05). No significant differences between left and right hand dominance and in balance or not of binocular vision (P>0.05). CONCLUSION: Long-term vision loss or impairment does not lead to compensatory enhancement of head and neck proprioception and motor control. Acquired experience contributes to HRT performance in the blind and has long-lasting effects on plasticity in the development of proprioception and sensorimotor control.
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Zhang, Zhi, Ying Gao, and Jian Wang. "Effects of vision and cognitive load on anticipatory and compensatory postural control." Human Movement Science 64 (April 2019): 398–408. http://dx.doi.org/10.1016/j.humov.2019.02.011.

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Maniglia, Marcello, Kristina M. Visscher, and Aaron R. Seitz. "A method to characterize compensatory oculomotor strategies following simulated central vision loss." Journal of Vision 20, no. 9 (2020): 15. http://dx.doi.org/10.1167/jov.20.9.15.

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Ahooja, Hitendra, Neha Gandhi, Kaushal Gautam, and Neeru Chhikara. "Compensatory Corneal Epithelial Hyperplasia after Photorefractive Keratectomy Enhancement." Indian Journal of Cataract and Refractive Surgery 1, no. 2 (2024): 167–72. https://doi.org/10.4103/icrs.icrs_33_24.

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ABSTRACT This case report documents the clinical course of a 27-year-old female patient who underwent surface ablation (transepithelial photorefractive keratectomy [PRK]) refractive surgery for myopia correction, followed by transPRK enhancement for myopic regression 3 years postprimary refractive procedure. Postenhancement, the patient presented with blurred vision attributed to compensatory corneal epithelial hyperplasia. Epithelial thickness map (anterior segment optical coherence tomography) revealed the condition prompting conservative management and periodic monitoring. Over a 6-month follow-up period, the patient’s visual acuity improved significantly alongside a reduction in epithelial thickness. This case highlights the challenges and management strategies associated with epithelial responses following refractive surgeries along with the role of meticulous monitoring in optimizing outcomes. Hence, corneal epithelial hyperplasia must be a differential diagnosis in refractive surgery complications, guiding clinicians in decision-making and enhancing patient care.
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Kooijman, Aart, Wiebo Brouwer, Tanja Coeckelbergh, et al. "Compensatory viewing training improves practical fitness to drive of subjects with impaired vision." Visual Impairment Research 6, no. 1 (2004): 1–27. http://dx.doi.org/10.1080/13882350390486965.

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Tollin, Daniel J., Janet L. Ruhland, and Tom C. T. Yin. "The Vestibulo-Auricular Reflex." Journal of Neurophysiology 101, no. 3 (2009): 1258–66. http://dx.doi.org/10.1152/jn.90977.2008.

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The mammalian orienting response to sounds consists of a gaze shift that can be a combination of head and eye movements. In animals with mobile pinnae, the ears also move. During head movements, vision is stabilized by compensatory rotations of the eyeball within the head because of the vestibulo-ocular reflex (VOR). While studying the gaze shifts made by cats to sounds, a previously uncharacterized compensatory movement was discovered. The pinnae exhibited short-latency, goal-directed movements that reached their target while the head was still moving. The pinnae maintained a fixed position in space by counter-rotating on the head with an equal but opposite velocity to the head movement. We call these compensatory ear movements the vestibulo-auricular reflex (VAR) because they shared many kinematic characteristics with the VOR. Control experiments ruled out efference copy of head position signals and acoustic tracking (audiokinetic) of the source as the cause of the response. The VAR may serve to stabilize the auditory world during head movements.
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Amat, Didac, and Pol Bargués. "From Glasgow to Sham El-Sheikh (COP27): How to raise climate ambition." Notes Internacionals CIDOB, no. 267 (February 2, 2022): 1–7. http://dx.doi.org/10.24241/notesint.2022/267/en.

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The Glasgow Climate Pact defined 2020–2030 as a crucial decade for climate change mitigation. Scientific experts say multiple strategies and policies must be designed and implemented over the next eight years in order to limit global warming to 1.5°C. However, the latest United Nations studies report a lack of ambition in mitigation strategies. The most recent COP26 held in Glasgow (United Kingdom) brought no breakthrough. Why do climate negotiations fail? To answer this question, this article will address the multiple meanings of “climate ambition”. We analyse and contrast the main actors’ perspectives on ambition: the ecomodernist vision of Western countries, the limits to growth requested by prominent scientists, the post-developmental approaches of the Global South, and the compensatory vision of the fossil fuel-dependent countries. A few months before COP27 – to be held in November 2022 in Sham El-Sheikh (Egypt) – it is essential to find common ground between the different visions. If we want 2020–2030 to be a successful decade, a shared definition of climate ambition has to emerge.
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Book chapters on the topic "Compensatory vision"

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Jie, Shibo, Yehui Tang, Jianyuan Guo, Zhi-Hong Deng, Kai Han, and Yunhe Wang. "Token Compensator: Altering Inference Cost of Vision Transformer Without Re-tuning." In Lecture Notes in Computer Science. Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-72640-8_5.

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García-Mira, Ricardo, Nachatter Singh Garha, Serafeim Michas, Franziska Mey, Samyajit Basu, and Diana Süsser. "Leave No One Behind: Engaging Communities in the Just Transition Process Towards Climate Neutrality." In Strengthening European Climate Policy. Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-72055-0_8.

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Policy HighlightsTo achieve the recommendation stated in the title, we propose the following: Equip key actors with the transformative capacities to support the development and implementation of regional visions, plans, and narratives. Develop structures and participatory mechanisms that encourage a wide social dialogue and citizen involvement in just transition projects. Use insights from science and practice from participatory processes, as well as methods and tools developed in different contexts, to enable just transitions. Involve local stakeholders in the intersectional analysis of compensatory measures for holistically mitigating negative impacts of policies or interventions. Make use of the full spectrum of SSH and STEM tools to support local transition processes.
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Foster, John Burt. "Magical Realism, Compensatory Vision, and Felt History." In Magical Realism. Duke University Press, 1995. http://dx.doi.org/10.1215/9780822397212-015.

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FOSTER, JOHN BURT. "Magical Realism, Compensatory Vision, and Felt History:." In Magical Realism. Duke University Press, 1995. http://dx.doi.org/10.2307/j.ctv11cw5w1.18.

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"4. The Fruits of Their Labors: The Compensatory Vision Ascendant." In Framing Equal Opportunity. Stanford University Press, 2020. http://dx.doi.org/10.1515/9780804772976-005.

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Hochberg, Julian, and Virginia Brooks. "Film Cutting And Visual Momentum." In In The Mind’s Eye Julian Hochberg. Oxford University PressNew York, NY, 1992. http://dx.doi.org/10.1093/oso/9780195176919.003.0014.

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Abstract We perceive the world by means of successive sensory samples. In vision, this means by sequences of views. Most view sequences are obtained by the viewer’s own perceptuomotor acts. Some view sequences are given to the viewer by a filmmaker, and these often consist of sequences of nonoverlapping views. There are two general kinds of answers to the question of how we combine our successive glances into a coherent perceptual world: These are (1) the compensatory, or subtractive, explanations, whether based on extraretinal signals (cf. Martin, 1976; Sedgwick & Festinger, 1976; Skavenski, 1976) or on the transformations of the visual image (Gibson, 1954, 1957, 1966; Johansson, 1974); and (2) the inferential, expectancy-testing, or schema-testing explanations (Hochberg, 1968; Neisser, 1967; Piaget, 1954). The compensatory explanations may or may not be fully adequate to explain how we combine view sequences that we obtain by our own perceptuomotor acts, but they simply cannot account for our perception of motion pictures in which scenes are built up by a succession of nonover-lapping views.
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Dória Silva, Humberto, Rostan Silvestre da Silva, Eduardo Dória Silva, Maria Tamires Dória Silva, Cristiana Pereira Dória, and Cristiane Pereira Dória. "Visual Impairment Caused by Monovision Surgical Design." In Current Cataract Surgical Techniques. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.95770.

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Neurophysiological anatomy of natural binocular vision shows the need to focus with both eyes to jointly produce the two corneas accommodation, correcting, in a compensatory way, the divergences inherent in the two different images, of the same visual field projected in the two distinct spaces, the two retinas. Corneal accommodation is part of the forced convection mechanism for the transfer of mobile mass in the cornea, trabecular meshwork and retina, to inhibit the accumulation of dehydrated intraocular metabolic residue, which can cause refractive errors in the cornea, obstruction of the trabecular meshwork and reduction of the amplitude of the signals produced by the phototransducers and sent to the brain. The IOL monovision surgical implantation technique differs from the physiology of natural binocular vision, which can cause after surgery disorders, described in this chapter, in that it imposes a different adaptation from the neurophysiological anatomy of human vision in addition to favoring the continuous progression of residue accumulation dehydrated intraocular metabolic and stimulate ocular.
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"Magical Realism, Compensatory Vision, and Felt History: Classical Realism Transformed in The White Hotel." In Magical Realism. Duke University Press, 2020. http://dx.doi.org/10.1515/9780822397212-016.

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Mravicic, Ivana, Alma Biscevic, Melisa Ahmedbegovic Pjano, Ivona Petrovska, Anja Shumejko, and Nina Ziga. "Treatment of paralytic eye motility disorders." In Treatment of Eye Motility Disorders [Working Title]. IntechOpen, 2024. http://dx.doi.org/10.5772/intechopen.1004031.

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Paralytic strabismus is caused by paresis or paralysis of one or more extraocular muscles that are innervated by cranial nerve lll, IV and Vl. They are characterized by squinting angle that depends on the direction of the gaze and the fixating eye. Typically, the angle is greater in the field of affected muscle, and when the patient is fixing with the affected eye. While younger children in some cases can suppress double vision, older children and adults with acquired paralytic strabismus usually have diplopia, which they try to avoid by compensatory head posture. Some types of paralytic strabismus can be congenital but it is important to diagnose acquired paralytic strabismus that can be caused by some neurological or systemic disorders and requires further investigation. Treatment of the paralytic strabismus is challenging, and despite the multiple surgeries, results can be disappointing.
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Payne, Bertram R., and Stephen G. Lomber. "The Use of Cooling Deactivation to Reveal the Neural Bases of Lesion-induced Plasticity in the Developing and Mature Cerebral Cortex." In Virtual Lesions. Oxford University PressOxford, 2002. http://dx.doi.org/10.1093/oso/9780198508939.003.0007.

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Abstract Cerebral lesions often produce specific deficits in neural performance and behavior. However, they are also characterized by a subsequent attenuation in the severity of the deficits. According to Kolb and Whishaw (1995) factors described as contributing to recovery of function include regeneration of connections to the area that was previously innervated, sprouting of fibers to innervate new targets structures, denervation supersensitivity to application of the same stimulus, disinhibition of potential compensatory zones and the activation of so-called “silent synapses.” Moreover, functional recovery is more likely for complex behaviors that are composed of many components, and it is more pronounced after incomplete lesions. However, recovery is severely limited for neural functions that are highly localized. For example, a lesion of primary motor cortex induces paralysis of voluntary movement and a lesion of primary visual cortex abolishes conscious vision.
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Conference papers on the topic "Compensatory vision"

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Brown, Daniel, and Roberto Celi. "Effects of Contrast and Spatial Frequency on Idealized Compensatory Tasks." In Vertical Flight Society 70th Annual Forum & Technology Display. The Vertical Flight Society, 2014. http://dx.doi.org/10.4050/f-0070-2014-9511.

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The paper describes a series of experiments to quantify the effects of loss of contrast on highly-idealized, compensatory piloting tasks. The effects of spatial frequency are simultaneously studied via the Modulation Transfer Function (MTF). The MTF can quantify the contrast and spatial frequency (relative size) of the objects that provide visual cues necessary for closing pilot control loops. A brief analysis is also performed on different input devices and their effects on task performance. The results show compensatory task performance can be modeled with multiple MTFs, each representing a unique numeric characterization of the pilot response in a single task. The results also quantify the intuitively known fact that physiological limits of human vision directly correlate to piloting task performance. Therefore, the MTF may represent a key building block of quantitative, objective rotorcraft Handling Qualities metrics for Degraded Visual Environments (DVE).
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Morcos, Michael, Edward Bachelder, Martine Godfroy-Cooper, Spencer Fishman, and Umberto Saetti. "Full-Body Haptic and Spatial Audio Cueing Algorithms for Augmented Pilot Perception." In Vertical Flight Society 80th Annual Forum & Technology Display. The Vertical Flight Society, 2024. http://dx.doi.org/10.4050/f-0080-2024-1179.

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This paper illustrates the development, implementation, and testing of full-body haptic and spatial audio cueing algorithms for augmented pilot perception. Cueing algorithms are developed for roll-axis compensatory tracking tasks where the pilot acts on the displayed error between a desired input and the comparable vehicle output motion to produce a control action. The error is displayed to the pilot using multiple cueing modalities: visual, haptic, audio, and combinations of these. For the visual and combined visual haptic/audio modalities, visual cues are also considered in degraded visual environments (DVE). Full-body haptic and spatial audio algorithms that are based on a proportional derivative (PD) compensation strategy on the tracking error are found to provide satisfactory pilot vehicle system (PVS) performance for the task in consideration in absence of visual cueing, and to improve PVS performance in DVE when used in combination with visual feedback. These results are consistent with previous studies on the use of secondary perceptual cues for augmentation of human perception. The combination of these results indicate that the use of secondary sensory cues such as full-body haptics and spatial audio to augment the pilot perception can lead to improved/partially-restored PVS performance when primary sensory cues like vision are impaired or denied.
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Koretz, Jane F., and Christopher A. Cook. "PRESBYOPIA AND VISUAL HOMEOSTASIS: COMPENSATORY AGING MECHANISMS." In Vision Science and its Applications. OSA, 1999. http://dx.doi.org/10.1364/vsia.1999.sac1.

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Demer, Joseph L. "Dynamic Visual Acuity During Vertical Retinal Image Motion: Comparison of Normal and Low Vision." In Vision Science and its Applications. Optica Publishing Group, 1995. http://dx.doi.org/10.1364/vsia.1995.sub3.

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Telescopic spectacles are potentially advantageous as aids for visually impaired patients, who might be expected to uniformly benefit from optical magnification. However, these relatively costly devices fail to benefit a substantial number of patients with low vision1. Based upon retrospective1 and prospective clinical data2, it has been hypothesized that a major cause of rehabilitation failure with telescopic spectacles is retinal image instability during involuntary head motion. This retinal slip hypothesis supposes that ubiquitous head motion, optically magnified by telescopic spectacles, overwhelms compensatory ocular motor reflexes to produce slipping motion of images on the retina, which degrades dynamic visual acuity (DVA) sufficiently to negate the magnification advantage of the telescopes. Several lines of evidence support this hypothesis. The visual-vestibulo-ocular reflex (VVOR) is the principal compensatory mechanism stabilizing the retina during head movements. The VVOR gain of both normally sighted3 and low vision subjects1 fails to increase sufficiently to match the magnification of telescopic spectacles, a situation presumed to result in retinal image motion during head motion. In normally sighted subjects, actual retinal image motion has been measured during DVA tasks conducted both with vertically moving optotypes, and during vertically imposed head motion4. That study found that, regardless of whether retinal image motion was produced by moving optotypes or moving head, DVA in normal subjects was independent of image velocity up to 2°/sec, but declined with the 0.6 power of image velocity for greater slip. The present investigation was conducted to determine if patients with low vision have a similar relationship between DVA and retinal image slip velocity.
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Reiser, M. B., J. S. Humbert, M. J. Dunlop, D. Del Vecchio, R. M. Murray, and M. H. Dickinson. "Vision as a compensatory mechanism for disturbance rejection in upwind flight." In Proceedings of the 2004 American Control Conference. IEEE, 2004. http://dx.doi.org/10.23919/acc.2004.1383623.

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Xie, Zheng-Xiang, Dan-Mei Xie, Zhi-Fang Wang, Yuan Zhao, and Min Zhao. "A Nonlinear Compensatory Principle and Method of Human Vision Contrast Resolution (HVCR)." In 2009 First International Conference on Information Science and Engineering. IEEE, 2009. http://dx.doi.org/10.1109/icise.2009.109.

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Lin, Hao-Ping, Lina Zhao, Daniel Woolley, et al. "Exploring the Feasibility of Computer Vision for Detecting Post-Stroke Compensatory Movements." In 2023 International Conference on Rehabilitation Robotics (ICORR). IEEE, 2023. http://dx.doi.org/10.1109/icorr58425.2023.10304697.

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Crane, Benjamin T., and Joseph L. Demer. "Gaze Stabilization in Six Degrees of Freedom During Natural Movements." In Vision Science and its Applications. Optica Publishing Group, 1997. http://dx.doi.org/10.1364/vsia.1997.sua.1.

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The purpose of the vestibulo-ocular reflex (VOR) is to stabilize images on the retina during movement. A common, idealized concept of the angular VOR is that is generates ocular rotational eye velocity equal and opposite that of the head, so that angular gaze velocity in space remains near zero. Thus, in most prior studies, results are stated in terms of gain of the VOR, defined as compensatory angular eye velocity divided by the angular head velocity. A gain of unity in this simplification would perfectly stabilize gaze. The implicit assumption, however, is that head motion consists only of rotation of the orbit without translation. We show here that this assumption is generally quite erroneous, since significant orbital translation is an intrinsic concomitant to the incidental head rotations resulting from natural activities. Further, these disturbances of gaze stability consist of integrated movement patterns in all six degrees of freedom.
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Chiplunkar, Maanas. "The Effectiveness and Outcomes of Oculomotor and Visual Field Deficit Rehabilitation Secondary to Ischemic Cerebrovascular Accident: A Literature Review." In 27th Annual Rowan-Virtua Research Day. Rowan University Libraries, 2023. https://doi.org/10.31986/issn.2689-0690_rdw.stratford_research_day.113_2023.

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Visual field loss and oculomotor dysfunctions are two common vision deficits caused by cerebrovascular accidents. Oftentimes these deficits can result in a loss of independence for patients and depression. Neurovisual rehabilitation is a frequently overlooked aspect of stroke rehabilitation, so investigating the current rehab approaches and the factors that play a role in the effectiveness of these methods is crucial so that clinicians can provide more direct and focused treatment for their patients. This literature review research process used PubMed, NCBI, and EbscoHost as primary databases. Preliminary results showed that restitutive and compensatory rehabilitation approaches are effective for treating visual field and oculomotor deficits. Substitutive therapies have some subjective evidence of successful patient outcomes but are in need of more extensive research. It was concluded that compensatory rehabilitative approaches have the best outcomes for treating visual field deficits and oculomotor dysfunctions, and this information can be used when deciding what treatment options are best for stroke patients.
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Bennett, Christopher R., Paul D. S. Fink, and Nicholas A. Giudice. "“X-Ray Vision” as a Compensatory Augmentation for Slowing Cognitive Map Decay in Older Adults." In CHI '24: CHI Conference on Human Factors in Computing Systems. ACM, 2024. http://dx.doi.org/10.1145/3613904.3642644.

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