Vision Restoration, Neural Circuits, And Virtual Reality .
Vision Restoration, Neural Circuits, and Virtual RealityCenter for Visual ScienceDavid Williams
Three Concepts:Vision RestorationLarge Scale Recording of Neural ActivityUnderlying BehaviorVirtual and Augmented Reality
Vision tiveerrorcorrectionwww.shutterstock.com
Vision RestorationPotential synergies and expansion into Center of ock.com
Vision RestorationPotential synergies and expansion into Center of ExcelleKrystel Huxlin, FEIDujeTadin, BCSBogachanSahin, NeurologyAnimal modelsJude Mitchell, BCSTania Pasternak, NSCAniaMajewska, NSCBehavioralvisualrehabilitationAnd itsneuralsubstratesAdvanced retinalimagingAdvanced brainDavid Williams, OpticsimagingJennifer Hunter, FEIBrad Mahon, BCSMina Chung, FEIHuman electrophysiologyBill Merigan, FEIJohn Foxe,Neurosci.RichardAslin, BCS
Vision RestorationRetinaProtecting cells CorrectingRestoring lightReplacingfrom injurygenetic errorsdetectioncells & circuitswww.shutterstock.com
Vision RestorationRetinaProtecting cells CorrectingRestoring lightReplacingfrom injurygenetic errorsdetectioncells & circuitsRick LibbyLin Gan*Bill Merigan RuchiraSinghJesseSchallek Amy Kiernan *Jennifer Hunter(FEI)*Jennifer Hunter RuchiraSingh(FEI)*Bill Merigan(FEI)*David Williams(FEI)(Optics)*David Williams(Optics)*Audacious Goals InitiativeExample of large, collaborative project grant
National Eye InstituteAudacious Goals Initiative grant 3.8MBill Merigan, FEIJenniferHunter, FEIDavid Williams, PIBotondRoskaFriedrichMiescherInstitutefor Biomedical ResearchConnieCepkoHarvard Medical SchoolDavidGammUniv. Wisconsin
Recording neural activity in behavinganimalsLaurel CarneyGreg DeAngelisCharles DuffyBen HaydenKen HenryChris HoltKrystel HuxlinJohn MinkJude MitchellTania PasternakLiz RomanskiMarc SchieberIn vivo imaging of single brain cellsHandy GelbardSteve GoldmanJennifer HunterAnia MajewskaBill MeriganMaiken NedergaardKrishnan PadmanabhanJesse SchallekTakahiro TakanoDavid WilliamsOptical technique/probe developmentAndrew BergerEd BrownJimFineupTom FosterWayne KnoxTodd KraussBen MillerDuncan MooreJannickRollandLewis RothbergRomanSobolewskiJimZavislanData JieboLuoGuaravSharmaCenter for Imaging Science, RIT
Virtual and Augmented RealityIndustry is now driving arenaissance in multisensory scienceApple, Facebook (Oculus), GoogleMagicLeap, Samsung«
Optical technology15th century eyeglassesSide pieces for ears werenot invented until 1730Handheld
Optical technologyCrivelli (1352)15th century eyeglassesSide pieces for ears werenot invented until 1730Detail of Hugh of St. CheriCrivelli, 1352HandheldHeadmounted
Optical technologyCrivelli (1352)15th century eyeglassesSide pieces for ears werenot invented until 1730Detail of Hugh of St. CheriCrivelli, 1352HandheldHeadmountedBiointegrated
Optical technologyCrivelli (1352)15th century eyeglassesSide pieces for ears werenot invented until 1730Detail of Hugh of St. CheriCrivelli, 1352Digital technologyHandheldHeadmountedBiointegrated
Optical technologyCrivelli (1352)15th century eyeglassesSide pieces for ears werenot invented until 1730Detail of Hugh of St. CheriCrivelli, 1352Digital technologyHandheldHeadmountedBiointegrated
Optical technologyCrivelli (1352)15th century eyeglassesSide pieces for ears werenot invented until 1730Detail of Hugh of St. CheriCrivelli, 1352Digital technologyHandheldHeadmountedBiointegrated
Optical technologyCrivelli (1352)15th century eyeglassesSide pieces for ears werenot invented until 1730Detail of Hugh of St. CheriCrivelli, 1352HeadmountedBiointegratedDigital technologyHandheldThe Matrix
AS& E Deans OfficeDavid Williams, Dean of Research*HistoryMichael JarvisBrain and Cognitive SciencesGregoryDeAngelis, Chairman*Jude Mitchell*Robert JacobsBradford Mahon*Michele RucciDujeTadin*Institute of an MooreElectrical & Computer EngineeringMark Bocko, ChairmanGaurav SharmaZhuyaoDuanOrthopedicsDavid Mitten, MDNeuroscienceJohn Foxe*Computer Science/Institute of Data ScienceBradBerkHenryKautz, Director, Institute for Data Science Laurel Carney*JeiboLuoEdmundLalorEhsanHoqueRoss Maddox*Ji LiuMartina PolettiScottSteeleTania Pasternak*ChenliangXuMarc Schieber*EnglishGregoryHeyworthFlaum Eye InstituteKrystelHuxlin*GeunyoungYoonPhysics & AstronomyJohn Howell*NGPFaculty
Elements of a Plan: Faculty Hiring. Establish corporate partnerships through master agreements Define individual and collaborative research projects Graduate student and postdoctoral training Leverage CEIS. Seek Federal Funds (ERC or STC?) Host symposia (the Engineering the Eye Series) Create a new research platform (Anechoic chamber forMultisensory research?) Create a new center? Kick-off meeting: December 14, Genesee Valley Club, 9-1 pm
Advanced brain imaging Brad Mahon, BCS Advanced retinal imaging David Williams, Optics Jennifer Hunter, FEI Mina Chung, FEI Bill Merigan, FEI And its neural . Gregory Heyworth Flaum Eye Institute Krystel Huxlin* Geunyoung Yoon History Michael Jarvis Institute of Optics Jannick Rollan
Image restoration techniques are used to make the corrupted image as similar as that of the original image. Figure.3 shows classification of restoration techniques. Basically, restoration techniques are classified into blind restoration techniques and non-blind restoration techniques [15]. Non-blind restoration techniques
The New Anatomy and Physiology: The Physiology of Neural Circuits Neural circuits are capable of functioning in multiple different physiological states despite a single anatomical state Neural circuits interact with other neural circuits in different combinations of activity to add to the repertoire of functional states
Contemporary Electric Circuits, 2nd ed., Prentice-Hall, 2008 Class Notes Ch. 9 Page 1 Strangeway, Petersen, Gassert, and Lokken CHAPTER 9 Series–Parallel Analysis of AC Circuits Chapter Outline 9.1 AC Series Circuits 9.2 AC Parallel Circuits 9.3 AC Series–Parallel Circuits 9.4 Analysis of Multiple-Source AC Circuits Using Superposition 9.1 AC SERIES CIRCUITS
Image restoration techniques are used to make the degraded or corrupted image as similar as that of the original image. Fig. 1 shows classification of restoration techniques. Basically, restoration techniques are classified into blind restoration techniques and non-blind restoration technique. Non-blind restoration techniques are further
Neuroblast: an immature neuron. Neuroepithelium: a single layer of rapidly dividing neural stem cells situated adjacent to the lumen of the neural tube (ventricular zone). Neuropore: open portions of the neural tube. The unclosed cephalic and caudal parts of the neural tube are called anterior (cranial) and posterior (caudal) neuropores .
A growing success of Artificial Neural Networks in the research field of Autonomous Driving, such as the ALVINN (Autonomous Land Vehicle in a Neural . From CMU, the ALVINN [6] (autonomous land vehicle in a neural . fluidity of neural networks permits 3.2.a portion of the neural network to be transplanted through Transfer Learning [12], and .
Layout of the Vision Center Equipment needs for a Vision Center Furniture Drugs and consumables at a Vision Centre Stationery at Vision Centers Personnel at a Vision Center Support from a Secondary Center (Service Center) for a Vision Center Expected workload at a Vision Centre Scheduling of activities at a Vision Center Financial .
1 Introduction to RL and RC Circuits Objective In this exercise, the DC steady state response of simple RL and RC circuits is examined. The transient behavior of RC circuits is also tested. Theory Overview The DC steady state response of RL and RC circuits are essential opposite of each other: that is, once steady state is reached, capacitors behave as open circuits while inductors behave as .
