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Littérature scientifique sur le sujet « SENSORIMOTORIA »

Auteur : Grafiati
Publié le 9 mars 2023
Mis à jour le 10 mars 2023

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Articles de revues sur le sujet "SENSORIMOTORIA"

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Chiera, Marco. « Cura manuale integrata nella malattia di Parkinson ». PNEI REVIEW, no 2 (novembre 2022) : 45–56. http://dx.doi.org/10.3280/pnei2022-002005.

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La malattia di Parkinson è sempre stata considerata come squisitamente neurologica e caratterizzata da neurodegenerazione per l'accumulo della proteina a-sinucleina nella substantia nigra. Tuttavia, diversi studi mostrano come lo stato di salute dell'intero organismo possa influenzare il processo di accumulo dell'a-sinucleina tramite processi bottom-up, fra cui la neuroinfiammazione. Inoltre, che il corpo sia così centrale nel curare persone con Parkinson è mostrato anche dalle ricerche sull'interocezione, ovvero quel processo tramite cui l'organismo percepisce cosa sta accadendo al suo in- terno al fine di meglio rispondere alle sfide ambientali. In caso di Parkinson, questo processo risulta alterato con conseguenze negativa sulla sensomotricità. A tal proposito, la letteratura scientifica mostra molteplici vie per agire sui processi di regolazione biologica in caso di malattia di Parkinson, e fra queste un ruolo importante lo giocano l'educazione sensorimotoria e le terapie manuali, le quali hanno la possibilità di agire sulle vie interocettive e sull'equilibrare i livelli di infiammazione sistemica, in particolare intestinale.
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Zech, A., et M. Hübscher. « Sensomotorisches Training zur Prävention von Sprunggelenksverletzungen ». Deutsche Zeitschrift für Sportmedizin 2012, no 01 (1 janvier 2012) : 5–8. http://dx.doi.org/10.5960/dzsm.2011.060.

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Гершкович, В. А., et Д. К. Урих. « Эффект «проигрыша» при выполнении простой сенсомоторной задачи в ситуации соревнования ». Психология. Журнал Высшей школы экономики 14, no 1 (30 mars 2017) : 178–88. http://dx.doi.org/10.17323/1813-8918-2017-1-178-188.

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Choi, Julia T., Eileen P. G. Vining, Susumu Mori et Amy J. Bastian. « Sensorimotor function and sensorimotor tracts after hemispherectomy ». Neuropsychologia 48, no 5 (avril 2010) : 1192–99. http://dx.doi.org/10.1016/j.neuropsychologia.2009.12.013.

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Greier, K., et L. Ressle. « Sensomotorische Feedbackleistung bei adipösen und normalgewichtigen 11- 15-jährigen Schülerinnen und Schülern ». Deutsche Zeitschrift für Sportmedizin 2012, no 02 (1 février 2012) : 36–40. http://dx.doi.org/10.5960/dzsm.2011.063.

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Della-Maggiore, Valeria, Sofia M. Landi et Jorge I. Villalta. « Sensorimotor Adaptation ». Neuroscientist 21, no 2 (13 août 2014) : 109–25. http://dx.doi.org/10.1177/1073858414545228.

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Clark, Andy, et Josefa Toribio. « Sensorimotor chauvinism ? » Behavioral and Brain Sciences 24, no 5 (octobre 2001) : 979–80. http://dx.doi.org/10.1017/s0140525x01290116.

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While applauding the bulk of the account on offer, we question one apparent implication, namely, that every difference in sensorimotor contingencies corresponds to a difference in conscious visual experience.
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KURITA, Yuichi, Yuki KOIKE, Takayuki TANAKA et Toshio TSUJI. « SEnS : Sensorimotor Enhancing Suit that Improves Sensorimotor Performance ». Proceedings of JSME annual Conference on Robotics and Mechatronics (Robomec) 2016 (2016) : 1A1–02b4. http://dx.doi.org/10.1299/jsmermd.2016.1a1-02b4.

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Ibrahim, Abeer R., Azza M. Atya et Al Shimaa R. Azab. « INFLUENCE OF SENSORIMOTOR TRAINING ON BALANCE AND PAIN PARAMETERS IN CHILDREN WITH HEMOPHILIA ». International Journal of Physiotherapy and Research 5, no 2 (11 avril 2017) : 1912–19. http://dx.doi.org/10.16965/ijpr.2017.101.

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Millichap, J. Gordon. « Supplementary Sensorimotor Seizures ». Pediatric Neurology Briefs 9, no 10 (1 octobre 1995) : 79. http://dx.doi.org/10.15844/pedneurbriefs-9-10-12.

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Thèses sur le sujet "SENSORIMOTORIA"

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CRISAFULLI, OSCAR. « Aspetti fisiologici e fisiopatologici dell’integrazione sensorimotoria ». Doctoral thesis, Università degli studi di Genova, 2021. http://hdl.handle.net/11567/1038237.

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My PhD program was mainly focused on the physiological and pathophysiological characteristics of sensorimotor integration. As part of this activity, I studied particular aspects of this topic in different populations of subjects: healthy young adults, visually impaired subjects, subjects suffering from Parkinson's disease and subjects suffering from cervical dystonia. Sensorimotor integration is a complex process that involves numerous central and peripheral nervous structures and is the basis of fundamental functions including the perception of the body in space and maintaining balance both in static and dynamic conditions. In the various studies published during the PhD program, I was able to investigate the stabilizing effects on the equilibrium of the haptic afference provided indirectly in the healthy young adult subject. Subsequently, we studied the effect of the stabilization given by the indirect haptic afference in blind and partially sighted subjects, then comparing the results with those obtained by providing the subjects with a direct haptic afference. Still on healthy young adult subjects, we investigated the effects of unilateral proprioceptive stimulation of the axial muscles on the podokinetic reflex, elicited by stepping in place on a rotating platform. In subjects suffering from Parkinson's disease, we evaluated the efficiency of the postural stabilization mechanisms necessary to counteract the perturbations induced by the motor resonance effect. In subjects suffering from cervical dystonia, we studied the characteristics of proprioceptive accuracy in the dystonic body segment and in a body segment not affected by the disease. In addition, a further study on a population of subjects suffering from cervical dystonia is currently under review, this time concerning the balance and kinematic characteristics of gait. The purpose of this thesis is to summarize the scientific activity of my PhD program.
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RIZZI, EZIA. « A JOURNEY THROUGH TIME. SPACE-TIME REPRESENTATION IN ADULTS AND CHILDREN ». Doctoral thesis, Università degli Studi di Milano-Bicocca, 2019. http://hdl.handle.net/10281/243942.

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È noto che la mente umana spesso crea una rappresentazione del tempo attraverso dimensioni più concrete, come lo spazio. Abitualmente, parliamo del passato riferendoci allo spazio dietro di noi e al futuro allo spazio di fronte a noi. Questa tesi di dottorato esplora l'origine e lo sviluppo dell'associazione tra tempo e spazio nell'infanzia e nell'età adulta. La prima sezione fornisce una panoramica del background teorico e discute gli studi precedenti che si sono focalizzati su questo argomento. Descriviamo gli elementi mancanti e individuiamo che il tipo di informazioni elaborate (cioè gli eventi che si riferiscono alla memoria personale e non personale) possano influenzare la costruzione della linea del tempo mentale e i relativi fotogrammi spaziali di riferimento coinvolti. Il secondo capitolo sperimentale indaga direttamente se eventi personali e non personali sono mappati in modo diverso nello spazio in età adulta, coinvolgendo madrelingua italiana. I risultati descritti mostrano che mentre gli eventi personali sono mappati preferenzialmente lungo lo spazio sagittale, gli eventi non personali sono più probabilmente mappati sullo spazio orizzontale. Questi risultati sono stati replicati in un campione di madrelingua adulti inglesi utilizzando una procedura simile e indicano che il tipo di contenuto elaborato in memoria influisce sul modo in cui l'individuo rappresenta il tempo nello spazio. Il terzo capitolo è incentrato sull'ontogenesi della linea temporale mentale. Un primo studio ha esplorato la rappresentazione di eventi personali e non personali lungo lo spazio sagittale in bambini madrelingua inglese della scuola elementare, estendendo così la principale domanda teorica alla base di questa tesi a livello dello sviluppo. In un secondo studio, i bambini della scuola elementare italiana sono stati coinvolti in due compiti che esploravano le origini linguistiche e sensomotorie della linea mentale del tempo sagittale. I risultati indicano che la rappresentazione del tempo lungo lo spazio sagittale si basa fortemente su processi sensorimotori già in giovane età. Insieme, questo corpus di prove fornisce nuove intuizioni sui meccanismi cognitivi e sensomotori che guiderebbero gli umani a rappresentare il tempo lungo le coordinate spaziali.
It is well known that the human mind often creates a representation of time through more concrete dimensions, such as space. Habitually, we talk about past referring to the space behind us and about future referring to the space in front of us. This doctoral thesis explores the origin and development of the association between time and space in childhood and adulthood. The first section provides an overview of the theoretical background and discuss previous studies that have been focused on this topic. We outline the missing pieces of evidence and pinpoint that the type of information processed at hand (i.e., events referring to personal and non-personal memory) may impact on how the mental time line is constructed and on the relative spatial frames of reference involved. The second, empirical chapter investigates directly whether personal and non-personal events are differently mapped on space in adulthood, by involving native Italian speakers. The results described show that whereas personal events are preferentially mapped along the sagittal space, non-personal events are more likely mapped on the horizontal space. These findings were replicated in a sample of English adult speakers using a similar procedure and indicate that the type of content processed in memory affects how the individual represents time in space. The third chapter is focused on the ontogeny of the mental time line. A first study explored the representation of personal and non-personal events along the sagittal space in native English primary school children, thus extending the main theoretical question underlying this thesis at the developmental level. In a second study, Italian primary school children were involved in two tasks probing the linguistic and sensorimotor origins of the sagittal mental time line. Results indicate that the representation of time along the sagittal space strongly relies on sensorimotor processes already from a young age. Together, this body of evidence provides new insights on the cognitive and sensorimotor mechanisms that would drive humans to represent time along spatial coordinates.
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Bütepage, Judith. « Social Sensorimotor Contingencies ». Thesis, KTH, Datorseende och robotik, CVAP, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-185463.

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As the field of robotics advances, more robots are employed in our everyday environment. Thus, the implementation of robots that can actively engage in physical collaboration and naturally interact with humans is of high importance. In order to achieve this goal, it is necessary to study human interaction and social cognition and how these aspects can be implemented in robotic agents. The theory of social sensorimotor contingencies hypothesises that many aspects of human-human interaction depend on low-level signalling and mutual prediction. In this thesis, I give an extensive account of these underlying mechanisms and how research in human-robot interaction has incorporated this knowledge. I integrate this work in human-human and human-robot interaction into a coherent framework of social sensorimotor contingencies. Furthermore, I devise a generative model based on low-level latent features that allows inferences about other agent's behaviour. With this simulation experiment I demonstrate that embodied cognition can explain behaviour that is usually interpreted with help of high-level belief and mental state inferences. In conclusion, the implementation of these low-level processes in robots creates a more natural and intuitive interaction without the need of high-level representations.
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Downey, Adrian. « Radical sensorimotor enactivism ». Thesis, University of Sussex, 2017. http://sro.sussex.ac.uk/id/eprint/67116/.

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In this thesis I develop a novel approach to conscious perception, which I label “radical sensorimotor enactivism” (RSE). In chapter one, I explain how the development of RSE is guided by the tenets of activity and knowledge-how. In chapter two, I outline and explain RSE. Throughout the thesis, I will pit RSE against cognitivist accounts of conscious perception and argue that RSE is to be preferred. In chapters three and four, I highlight two problems facing cognitivist accounts of conscious perception which RSE avoids. I argue that cognitivist accounts of conscious perception face the ‘hard problem of perceptual consciousness', whilst RSE can provide a phenomenologically plausible deflation of this problem. I next explain why cognitivist accounts are incapable of providing a satisfactory explanation of split-brain syndrome. Then, I argue that RSE can provide a parsimonious explanation of this syndrome. Theories predicated on activity and knowledge-how are often rejected for being incapable of accounting for the brain's role in conscious perception. In chapter five, I argue that RSE can account for the brain's role by adopting a non-representational version of predictive processing (PP). Moreover, I argue that the resultant account improves upon cognitivist alternatives. Then, in chapter six, I argue that even representational explanations of PP can be subsumed within RSE by accepting fictionalism about their representational posits. Consequently, I conclude that RSE cannot be objected to for failing to account for the brain's role in conscious perception. Finally, in chapter seven, I discuss ‘non-veridical' experiences. Accounts like RSE are often rejected because it is thought they are incapable of explaining the existence of these phenomena. I explain how the existence of such phenomena is wholly compatible with the truth of RSE. Thus, I conclude that RSE should not be rejected solely on the basis that non-veridical experiences exist.
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Säfström, Daniel. « Sensorimotor transformations during grasping movements ». Doctoral thesis, Umeå universitet, Integrativ medicinsk biologi, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-781.

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‘Sensorimotor transformations’ are processes whereby sensory information is used to generate motor commands. One example is the ‘visuomotor map’ that transforms visual information about objects to motor commands that activates various muscles during grasping movements. In the first study we quantified the relative impact (or ‘weighting’) of visual and haptic information on the sensorimotor transformation and investigated the principles that regulates the weighting process. To do this, we let subjects perform a task in which the object seen (visual object) and the object grasped (haptic object) were physically never the same. When the haptic object became larger or smaller than the visual object, subjects in the following trials automatically adapted their maximum grip aperture (MGA) when reaching for the object. The adaptation process was quicker and relied more on haptic information when the haptic objects increased in size than when they decreased in size. As such, sensory weighting is molded to avoid prehension error. In the second study we investigated the degree to which the visuomotor map could be modified. Normally, the relationship between the visual size of the object (VO) and the MGA can be expressed as a linear relationship, where MGA = a + b * VO. Our results demonstrate that subjects inter- and extrapolate in the visuomotor map (that is, they are reluctant to abandon the linear relationship) and that the offset (a) but not the slope (b) can be modified. In the third study, we investigated how a ‘new’ sensorimotor transformation can be established and modified. We therefore replaced the normal input of visual information about object size with auditory information, where the size of the object was log-linearly related to the frequency of a tone. Learning of an audiomotor map consisted of three distinct phases: during the first stage (~10-15 trials) there were no overt signs of learning. During the second stage there was a period of fast learning where the MGA became scaled to the size of the object until the third stage where the slope was constant. The purpose of the fourth study was to investigate the sensory basis for the aperture adaptation process. To do that, the forces acting between the fingertips and the object was measured as the subjects adapted. Our results indicate that information about when the fingers contacts the object, that is, the ‘timing’ of contact, is likely to be used by the CNS to encode an unexpected object size. Since injuries and disease can affect the sensorimotor transformations that controls the hand, knowledge about how these processes are established and modified may be used to develop techniques for sensory substitution and other rehabilitation strategies.
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Allison, Robert Scott. « Sensorimotor processing of vertical disparity ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/NQ27276.pdf.

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Säfström, Daniel. « Sensorimotor transformations during grasping movements / ». Umeå : Department of Integrative Medical Biology, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-781.

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Liu, Ting Ting. « Spinal interneurons in sensorimotor integration ». Thesis, University of Glasgow, 2009. http://theses.gla.ac.uk/1299/.

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Even though spinal cord research has expanded enormously during the past decades, we still lack a precise understanding of how spinal interneuron networks perfectly integrate sensory feedback with motor control, and how these neuron circuits give rise to specific functions. The present study thus has three basic aims: (1) to investigate propriospinal interneurons connecting rostral and caudal lumbar spinal cord in the rat; (2) to investigate input properties of identified spinal interneurons interposed in different pathways; (3) to investigate cholinergic terminals in the ventral horn of adult rat and cat. To realize the first aim, the B-subunit of cholera toxin (CTb) was injected into the motor nuclei at the L1 or L3 segmental level to retrogradely label propriospinal interneurons in the L5 segment of rat spinal cord. These cells had a clear distribution pattern which showed that they were located mainly in ipsilateral dorsal horn and contralateral lamina VIII. A series triple-labelling experiments revealed that about 1/4 of the CTb-positive cells were immunoreactive for calbindin and/or calretinin. It was also found that a small population of CTb labelled cells were cholinergic and were observed mainly in three locations: lamina X, the medial part of intermediate zone and lamina VIII. In addition, injection of CTb also anterogradely labelled axon terminals, which arose from the commissural interneurons (CINs) within the site of injection, crossed the midline and aroborized in the contralateral lateral motor nuclei of the L5 segment. The neurotransmitter systems in labelled axon terminals of CINs were investigated by using antibodies raised against specific transmitter-related proteins. The results showed that approximately 3/4 terminals were excitatory and among those excitatory terminals about 3/4 forming contacts with motoneurons. To achieve the second aim, 21 interneurons located in the intermediate zone and lamina VIII from 7 adult cats were characterised electrophysiologically and labelled intracellularly with Neurobiotin. Seventeen of these cells were activated monosynaptically from primary muscle afferents but the remaining four cells received monosynaptic inputs from the medial longitudinal fasciculus (MLF). Quantitative analysis revealed that cells in the first group received many contacts from excitatory terminals that were immunoreactive for the vesicular glutamate transporter 1 (VGLUT1) but those cells from the second group received few contacts of this type and were predominantly contacted by terminals immunoreactive for vesicular glutamate transporter 2 (VGLUT2). This result was as predicted because VGLUT1 is found principally in the terminals of myelinated primary afferent axons whereas VGLUT2 is located in the terminals of interneurons in the spinal cord. Interneurons in the first group were then characterised as excitatory and inhibitory on the basis of the transmitter content contained within their axon terminals. Although there was a greater density of VGLUT1 contacts on excitatory rather than inhibitory cells, the difference was not statistically significant. GABAergic terminals formed close appositions with VGLUT1 contacts on both excitatory and inhibitory cells. These appositions were likely to be axoaxonic synapses which mediate presynaptic inhibition. In addition, the densities of VGLUT1 and VGLUT2 contacts on 30 dorsal horn CINs and 60 lamina VIII CINs that were retrogradely labelled with CTb from 3 adult rats were compared. The results showed that VGLUT2 terminals formed the majority of excitatory inputs to both dorsal horn and lamina VIII CINs but dorsal horn CINs received a significantly greater density of VGLUT1/2 inputs than lamina VIII CINs. In order to achieve the third aim, i.e. whether glutamate is a cotransmitter at motoneuron axon collateral terminals in the ventral horn, a series of anatomical experiments were performed on axon collaterals obtained from motoneurons from an adult cat and retrogradely labelled by CTb in adult rats. There was no evidence to support the presence of vesicular glutamate transporters in motoneuron axon terminals of either species. In addition, there was no obvious relationship between motoneuron terminals and R2 subunit of the AMPA receptor (GluR2). However, a population of cholinergic terminals in lamina VII, which did not originate from motoneurons, was found to be immunoreactive for VGLUT2 and formed appositions with GluR2 subunits. These terminals were smaller than motoneuron terminals and, unlike them, formed no relationship with Renshaw cells. The evidence suggests that glutamate does not act as a cotransmitter with acetylcholine at central synapses of motoneurons in the adult cat and rat. However, glutamate is present in a population of cholinergic terminals which probably originate from interneurons where its action is via an AMPA receptor. In conclusion, the present studies add to the understanding of the organization of neuronal networks involved in sensorimotor integration. Propriospinal interneurons located within the lumbar segments have extensive intra-segmental projections to motor nuclei. First order interneurons interposed in reflex pathways and descending pathways receive a significantly different pattern of inputs. A similar proportion of monosynaptic excitatory input from primary afferents has been found in both excitatory and inhibitory interneurons and these two types of cells are subject to presynaptic inhibitory control of this input.
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Li, Jingxian. « Reinforcement learning using sensorimotor traces ». Thesis, University of British Columbia, 2013. http://hdl.handle.net/2429/45590.

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The skilled motions of humans and animals are the result of learning good solutions to difficult sensorimotor control problems. This thesis explores new models for using reinforcement learning to acquire motion skills, with potential applications to computer animation and robotics. Reinforcement learning offers a principled methodology for tackling control problems. However, it is difficult to apply in high-dimensional settings, such as the ones that we wish to explore, where the body can have many degrees of freedom, the environment can have significant complexity, and there can be further redundancies that exist in the sensory representations that are available to perceive the state of the body and the environment. In this context, challenges to overcome include: a state space that cannot be fully explored; the need to model how the state of the body and the perceived state of the environment evolve together over time; and solutions that can work with only a small number of sensorimotor experiences. Our contribution is a reinforcement learning method that implicitly represents the current state of the body and the environment using sensorimotor traces. A distance metric is defined between the ongoing sensorimotor trace and previously experienced sensorimotor traces and this is used to model the current state as a weighted mixture of past experiences. Sensorimotor traces play multiple roles in our method: they provide an embodied representation of the state (and therefore also the value function and the optimal actions), and they provide an embodied model of the system dynamics. In our implementation, we focus specifically on learning steering behaviors for a vehicle driving along straight roads, winding roads, and through intersections. The vehicle is equipped with a set of distance sensors. We apply value-iteration using off-policy experiences in order to produce control policies capable of steering the vehicle in a wide range of circumstances. An experimental analysis is provided of the effect of various design choices. In the future we expect that similar ideas can be applied to other high-dimensional systems, such as bipedal systems that are capable of walking over variable terrain, also driven by control policies based on sensorimotor traces.
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Vetter, Philipp. « Context estimation in sensorimotor control ». Thesis, University College London (University of London), 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.368950.

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Livres sur le sujet "SENSORIMOTORIA"

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Bishop, John Mark, et Andrew Owen Martin, dir. Contemporary Sensorimotor Theory. Cham : Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-05107-9.

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Hans, Lüders, dir. Supplementary sensorimotor area. Philadelphia : Lippincott-Raven, 1996.

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Oral sensorimotor function. [Pacific, Missouri] : Medico Dental Media International, Inc., 1998.

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Nowak, Dennis A., et Joachim Hermsdorfer, dir. Sensorimotor Control of Grasping. Cambridge : Cambridge University Press, 2009. http://dx.doi.org/10.1017/cbo9780511581267.

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Tresilian, James. Sensorimotor Control and Learning. London : Macmillan Education UK, 2012. http://dx.doi.org/10.1007/978-1-137-00511-3.

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Sheda, Constance H. Sensorimotor processing activity plans. San Antonio, Tex : Therapy Skill Builders, 1997.

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Stelmach, George E., et Volker Hömberg, dir. Sensorimotor Impairment in the Elderly. Dordrecht : Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-011-1976-4.

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Moore, Austen Peter. Sensorimotor integration in Parkinson's disease. Birmingham : University of Birmingham, 1987.

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Patrick, Haggard, Rossetti Yves, Kawato Mitsuo et Attention and Performance Association, dir. Sensorimotor foundations of higher cognition. Oxford : Oxford University Press, 2008.

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E, Stelmach George, Hömberg Volker, North Atlantic Treaty Organization. Scientific Affairs Division. et NATO Advanced Research Workshop on Sensorimotor Impairment in the Elderly (1992 : Bad Windsheim, Germany), dir. Sensorimotor impairment in the elderly. Dordrecht : Kulwer Academic Publishers, 1993.

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Chapitres de livres sur le sujet "SENSORIMOTORIA"

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Hammond, Flora M., et Sheryl Katta-Charles. « Sensorimotor Assessment ». Dans Encyclopedia of Clinical Neuropsychology, 3140–41. Cham : Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-57111-9_69.

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Wasaka, Toshiaki, et Ryusuke Kakigi. « Sensorimotor Integration ». Dans Magnetoencephalography, 727–42. Berlin, Heidelberg : Springer Berlin Heidelberg, 2014. http://dx.doi.org/10.1007/978-3-642-33045-2_34.

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Morgan, Michael M., MacDonald J. Christie, Luis De Lecea, Jason C. G. Halford, Josee E. Leysen, Warren H. Meck, Catalin V. Buhusi et al. « Sensorimotor Gating ». Dans Encyclopedia of Psychopharmacology, 1208. Berlin, Heidelberg : Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-540-68706-1_3558.

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Morgan, Michael M., MacDonald J. Christie, Luis De Lecea, Jason C. G. Halford, Josee E. Leysen, Warren H. Meck, Catalin V. Buhusi et al. « Sensorimotor Behavior ». Dans Encyclopedia of Psychopharmacology, 1208. Berlin, Heidelberg : Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-540-68706-1_831.

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Hammond, Flora, et Sheryl Katta-Charles. « Sensorimotor Assessment ». Dans Encyclopedia of Clinical Neuropsychology, 1–3. Cham : Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-56782-2_69-2.

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Guerin, Frank. « Sensorimotor Schema ». Dans Encyclopedia of the Sciences of Learning, 3039–41. Boston, MA : Springer US, 2012. http://dx.doi.org/10.1007/978-1-4419-1428-6_463.

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Bock, Otmar. « Sensorimotor Adaptation ». Dans Encyclopedia of the Sciences of Learning, 3036–38. Boston, MA : Springer US, 2012. http://dx.doi.org/10.1007/978-1-4419-1428-6_548.

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Tresilian, James. « Sensorimotor Foundations ». Dans Sensorimotor Control and Learning, 123–93. London : Macmillan Education UK, 2012. http://dx.doi.org/10.1007/978-1-137-00511-3_3.

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Macari, Suzanne. « Sensorimotor Development ». Dans Encyclopedia of Autism Spectrum Disorders, 2762–65. New York, NY : Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4419-1698-3_295.

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Christodoulou, Niki, et Xenia Anastassiou-Hadjicharalambous. « Sensorimotor Play ». Dans Encyclopedia of Evolutionary Psychological Science, 1–8. Cham : Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-16999-6_1071-1.

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Actes de conférences sur le sujet "SENSORIMOTORIA"

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Pai, Dinesh K., Kees van den Doel, Timothy Edmunds, Benjamin Gilles, David I. W. Levin, Shinjiro Sueda, Qi Wei et Sang Hoon Yeo. « Sensorimotor physiology ». Dans ACM SIGGRAPH 2010 Talks. New York, New York, USA : ACM Press, 2010. http://dx.doi.org/10.1145/1837026.1837053.

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Berthold, Oswald, et Verena V. Hafner. « Tapping the sensorimotor trajectory ». Dans 2017 Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob). IEEE, 2017. http://dx.doi.org/10.1109/devlrn.2017.8329791.

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Bartoli, E., M. Battaglia, A. Ogliari et G. Baud-Bovy. « Sensorimotor testing in children ». Dans 2011 IEEE World Haptics Conference (WHC 2011). IEEE, 2011. http://dx.doi.org/10.1109/whc.2011.5945452.

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Reddy, P. V., E. W. Justh et P. S. Krishnaprasad. « Motion camouflage with sensorimotor delay ». Dans 2007 46th IEEE Conference on Decision and Control. IEEE, 2007. http://dx.doi.org/10.1109/cdc.2007.4434522.

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Stober, Jeremy, Risto Miikkulainen et Benjamin Kuipers. « Learning geometry from sensorimotor experience ». Dans 2011 IEEE International Conference on Development and Learning (ICDL). IEEE, 2011. http://dx.doi.org/10.1109/devlrn.2011.6037381.

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Thermos, Spyridon, Georgios Th Papadopulos, Petros Daras et Gerasimos Potamianos. « Attention-Enhanced Sensorimotor Object Recognition ». Dans 2018 25th IEEE International Conference on Image Processing (ICIP). IEEE, 2018. http://dx.doi.org/10.1109/icip.2018.8451158.

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Butz, Martin V., Gerulf K. M. Pedersen et Patrick O. Stalph. « Learning sensorimotor control structures with XCSF ». Dans the 11th Annual conference. New York, New York, USA : ACM Press, 2009. http://dx.doi.org/10.1145/1569901.1570059.

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Hogman, Virgile, Marten Bjorkman et Danica Kragic. « Interactive object classification using sensorimotor contingencies ». Dans 2013 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2013). IEEE, 2013. http://dx.doi.org/10.1109/iros.2013.6696752.

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Thermos, Spyridon, Georgios Th Papadopoulos, Petros Daras et Gerasimos Potamianos. « Deep Affordance-Grounded Sensorimotor Object Recognition ». Dans 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR). IEEE, 2017. http://dx.doi.org/10.1109/cvpr.2017.13.

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Saegusa, Ryo, Giorgio Metta, Giulio Sandini et Sophie Sakka. « Active motor babbling for sensorimotor learning ». Dans 2008 IEEE International Conference on Robotics and Biomimetics. IEEE, 2009. http://dx.doi.org/10.1109/robio.2009.4913101.

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Rapports d'organisations sur le sujet "SENSORIMOTORIA"

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Sweeney, John A., et Matthew W. Mosconi. Family Studies of Sensorimotor and Neurocognitive Heterogeneity Spectrum Disorders (ASD). Fort Belvoir, VA : Defense Technical Information Center, septembre 2012. http://dx.doi.org/10.21236/ada574855.

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Sweeney, John A. Family Studies of Sensorimotor and Neurocognitive Heterogeneity in Autism Spectrum Disorders. Fort Belvoir, VA : Defense Technical Information Center, novembre 2014. http://dx.doi.org/10.21236/ada613859.

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Beer, Randall D. Neural Networks for Real-Time Sensory Data Processing and Sensorimotor Control. Fort Belvoir, VA : Defense Technical Information Center, juin 1992. http://dx.doi.org/10.21236/ada251567.

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Beer, Randall D. Neural Networks for Real-Time Sensory Data Processing and Sensorimotor Control. Fort Belvoir, VA : Defense Technical Information Center, décembre 1992. http://dx.doi.org/10.21236/ada259120.

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Olberg, Robert M. Insect Optic Glomeruli : Exploration of a Universal Circuit for Sensorimotor Processing. Fort Belvoir, VA : Defense Technical Information Center, février 2010. http://dx.doi.org/10.21236/ada515649.

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Sterman, M. B., T. Duchenko et A. S. Hamel. Measurement and Modification of Sensorimotor System Function during Visual-Motor Performance. Fort Belvoir, VA : Defense Technical Information Center, juin 1986. http://dx.doi.org/10.21236/ada171093.

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Amir, B. E., A. A. Abdel-Rahman, L. B. Goldstein, K. H. Jones et A. M. Dechkovskaia. Exposure to Pyridostigmine Bromide, DEET, and Permethrin, Alone and in Combination Causes Sensorimotor Performance Deficit and Cholinergic Alterations in Rats. Fort Belvoir, VA : Defense Technical Information Center, mars 2001. http://dx.doi.org/10.21236/ada402077.

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Lu, Qi, Haili Wang, Weizheng Wang, Yu Gao, Xuefeng Li, Ying Wang, Weiwan Yang et Hongfeng Wang. Efficacy of Electroacupuncture in Painful Diabetic Peripheral Neuropathy : A protocol of systematic review and meta-analysis. INPLASY - International Platform of Registered Systematic Review and Meta-analysis Protocols, novembre 2022. http://dx.doi.org/10.37766/inplasy2022.11.0040.

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Review question / Objective: The aim of this study is to perform a meta-analysis to evaluate the effectiveness of electroacupuncture in the treatment of painful diabetic peripheral neuropathy (PDNP).And to provide data support for electroacupuncture as an effective means to treat pain of nervous system diseases. Condition being studied: Diabetes mellitus (DM) affects more than six hundred million population worldwide till 2045. The most common form is chronic, distal, and symmetric sensorimotor polyneuropathy, while other uncommon forms include asymmetric or focal neuropathy, such as diabetic muscle atrophy, trunk radiculopathy, and compression palsy. About 11.4% and 40.5% of patients have severe and moderate pain respectively. Currently, symptomatic treatment of PDPN is based on the application of medications that target the symptoms of PDPN. However, the clinical efficacy of PDPN patients varies greatly from individual to individual.Traditional Chinese medicine electroacupuncture have shown its unique advantages in the treatment of PDPN. Although its mechanism is complex and unclear, it can still be used in the clinical treatment of PDPN for a long time. We therefore present a systematic review of the benefits of electroacupuncture in improving PDPN by including the as many as possible randomized controlled trials.
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Goldstein, L. B., A. M. Dechovskaia, S. Bullman, K. H. Jones et A. A. Abdel-Rahman. Daily Dermal Co-Exposure of Rats to DEET and Permethrin Produces Sensorimotor Deficit, and Changes in Blood-Brain Barrier (BBB) and Blood-Testis Barrier (BTB). Fort Belvoir, VA : Defense Technical Information Center, mars 2001. http://dx.doi.org/10.21236/ada402081.

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