fachmedien.de - spezialisierte Fachinformationen für Studium und Beruf
fachmedien.de - spezialisierte Fachinformationen für Studium und Beruf
fachmedien.de - spezialisierte Fachinformationen für Studium und Beruf
fachmedien.de - spezialisierte Fachinformationen für Studium und Beruf
fachmedien.de - spezialisierte Fachinformationen für Studium und Beruf

Site Breadcrumb

Verkauf durch Sack Fachmedien

ACADEMIC PR INC

Mathematical Modelling in Motor Neuroscience: State of the Art and Translation to the Clinic. Ocular Motor Plant and Gaze Stabilization Mechanisms

Medium: Buch
ISBN: 978-0-444-64233-2
Verlag: ACADEMIC PR INC
Erscheinungstermin: 05.07.2019
In den Warenkorb
Lieferfrist: bis zu 10 Tage
Auf die Merkliste Drucken
Überschrift

Beschreibung

Kostenloser Versand

nach Deutschland, Österreich und in die Schweiz

Bequem zahlen

Rechnung, Kreditkarte, PayPal oder Bankeinzug

Wir sind gerne für Sie da

0800 000-1378 (Inland)
service@fachmedien.de
<<Kontaktformular>>

Fragen

Fragen Lorem ipsum dolor sit amet, consetetur sadipscing elitr, sed diam nonumy eirmod tempor invidunt ut labore et dolore magna aliquyam erat, sed diam voluptua
Anwtorten

Anwtorten At vero eos et accusam et justo duo dolores et ea rebum. Stet clita kasd gubergren, no sea takimata sanctus est Lorem ipsum dolor sit amet. Lorem ipsum dolor sit amet

Mathematical Modelling in Motor Neuroscience: State of the Art and Translation to the Clinic. Ocular Motor Plant and Gaze Stabilization Mechanisms, Volume 248, the latest release in the Progress in Brain Research series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of topics, including Mathematical modeling in clinical and basic motor neuroscience, The math of medicine - the computational lessons learned from the human disease, Mathematical models - an extension of the clinician's mind, From differential equation to linear control systems: the study of the VOR, Closed lop and nonlinear systems, State-space equations and learning, Integrators and optimal control, and much more.

Produkteigenschaften

  • Artikelnummer: 9780444642332
  • Medium: Buch
  • ISBN: 978-0-444-64233-2
  • Verlag: ACADEMIC PR INC
  • Erscheinungstermin: 05.07.2019
  • Sprache(n): Englisch
  • Auflage: Erscheinungsjahr 2019
  • Serie: Progress in Brain Research
  • Produktform: Gebunden
  • Gewicht: 910 g
  • Seiten: 366
  • Format (B x H): 152 x 229 mm
  • Ausgabetyp: Kein, Unbekannt

Themen

Autoren/Hrsg.

Weitere Mitwirkende

Dr. Richard Leigh is an Assistant Professor of Neurology who is devoted to the diagnosis, treatment and prevention of cerebrovascular disease. He is an attending on the inpatient stroke service and an integral part of the Brain Attack Team. He also provides consultations and follow-up care for cerebrovascular disease in the outpatient setting. Dr. Richard Leigh was originally trained as a biomedical engineer at the Johns Hopkins University and subsequently went on to work at the National Institutes of Health where he developed brain imaging software. He then embarked on obtaining his medical degree from Case Western Reserve School of Medicine in his home town of Cleveland, Ohio. He completed his medical internship and neurology residency at New York Presbyterian Hospital Weill Cornell Medical Center where he received the Distinguished House Staff Award and was selected to be Chief Resident of Neurology. Returning to Johns Hopkins, he then completed a stroke fellowship and subsequently joined the faculty of the cerebrovascular division. Dr. Leigh currently sees patients at the Stroke Prevention Clinic, located in the Johns Hopkins Outpatient Center in Baltimore on Wednesday afternoons, and cares for patients in The Johns Hopkins Hospitals Brain

Stefano Ramat currently works at the Dip. Ingegneria Industriale e dell'Informazione, University of Pavia. Stefano does research in Bioengineering, Motor Neuroscience, Algorithms, Artificial Neural Network and Medical Devices. Their current project is 'Functional Vestibular Testing'

Aasef G. Shaikh works at University Hospitals Cleveland Medical Center in Cleveland.

Section I - View of the field: Past present and future 1. Mathematical models and human disease Lance M. Optican and Elena Pretegiani 2. Mathematical models: An extension of the clinician's mind R. John Leigh and David S. Zee

Section II - Didactic: Modeling 3. Understanding the rotational vestibular ocular reflex: From differential equations to Laplace transforms Stefano Ramat 4. Integration of past and current visual information during eye movements in amblyopia Nicolas Deravet, Demet Yüksel, Jean-Jacques Orban de Xivry and Philippe Lefèvre 5. Mathematical models for dynamic, multisensory spatial orientation perception Torin K. Clark, Michael C. Newman, Faisal Karmali, Charles M. Oman and Daniel M. Merfeld

Section III - Didactic: Translational 6. Non-commutative, nonlinear, and non-analytic aspects of the ocular motor plant Joseph L. Demer 7. Clinical applications of control systems models: The neural integrators for eye movements Shirin Sadeghpour, David S. Zee and R. John Leigh

Section IV - Research: Plant and binocular control 8. Translation and eccentric rotation in ocular motor modeling Joseph L. Demer and Robert A. Clark 9. Extraocular muscles involved in convergence are innervated by an additional set of palisade endings that may differ in their excitability: A human study Karoline Lienbacher, Kathrin Sänger, Sebastian Strassburger, Oliver Ehrt, Günther Rudolph, Miriam Barnerssoi and Anja K.E. Horn 10. On the retinal correspondences across the binocular visual field Bernhard J.M. Hess 11. Motion and binocular disparity processing: Two sides of two different coins Christian Quaia, Edmond J FitzGibbon, Lance M Optican and Bruce G Cumming 12. Non-linearity in gaze holding: Experimental results and possible mechanisms Giovanni Bertolini, Fausto Romano, Nina Feddermann, Dominik Straumann, Alexander Andrea Tarnutzer and Stefano Ramat 13. Is infantile esotropia subcortical in origin? Michael C. Brodsky

Section V - Research: Vestibular, balance, and postural control 14. The influence of target distance on perceptual self-motion thresholds and the vestibulo-ocular reflex during interaural translation Susan King, Cyril Benoit and Faisal Karmali 15. Spatial orientation: Model-based approach to multi-sensory mechanisms Amir Kheradmand and Jorge Otero-Millan 16. Theoretical framework for "unexplained" dizziness in the elderly: The role of small vessel disease Diego Kaski, Heiko M. Rust, Richard Ibitoye, Qadeer Arshad, John H.J. Allum and Adolfo M. Bronstein 17. The functional head impulse test: Comparing gain and percentage of correct answers Maurizio Versino, Silvia Colnaghi, Giulia Corallo, Marco Mandalà and Stefano Ramat 18. Vestibular roll tilt thresholds partially mediate age-related effects on balance Sinem Balta Beylergil, Faisal Karmali, Wei Wang, Maria Carolina Bermúdez Rey and Daniel M. Merfeld 19. The velocity storage time constant balances between accuracy and precision Faisal Karmali 20. Toward dynamic modeling of visual-vestibular conflict detection Isabelle T. Garzorz and Paul R. MacNeilage 21. A conceptual model of the visual control of posture Adolfo M. Bronstein 22. Computational neurology of gravity perception involving semicircular canal dysfunction in unilateral vestibular lesions Stefan Glasauer, Marianne Dieterich and Thomas Brandt 23. Effect of motor and sensory noise in the control of upright standing Amel Cherif, Ian Loram and Jacopo Zenzeri 24. Model of optokinetic responses involving two different visual motion processing pathways Kenichiro Miura, Aya Takemura, Masakatsu Taki and Kenji Kawano