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4 Pages
Student Grade (All Class)(1)
Course: CIE 337, Fall 2008School: Syracuse
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337 CIE (All Class, 45 Students) Student Name Andreassen, Richard James Blake II, James Stansbury Brosnihan, Deirdre Wynne Cardillo, Greig Edward Conden, Robert Allen Cusick, Brendan P Daggett, James Donald Degracia, Matthew A Degueldre, Lindsay R Dumpert,James W Ewert, Michelle B Flagg, Jason B Floroff, Paul Fontaine Jr., Gary Robert Hare, David R Jezerski,Jeremiah Ketola, Deborah A King, Nathan D King, Thomas...
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337 CIE (All Class, 45 Students)
Student Name Andreassen, Richard James Blake II, James Stansbury Brosnihan, Deirdre Wynne Cardillo, Greig Edward Conden, Robert Allen Cusick, Brendan P Daggett, James Donald Degracia, Matthew A Degueldre, Lindsay R Dumpert,James W Ewert, Michelle B Flagg, Jason B Floroff, Paul Fontaine Jr., Gary Robert Hare, David R Jezerski,Jeremiah Ketola, Deborah A King, Nathan D King, Thomas Kenneth Kwasnowski, Andrew J Lee, Jennifer Macieijewski,Jeffrey J Maisonave, Joseph Anthony Makarchuk,Viktor Metzger, Jacob Charles Miller, Matthew Adam Mirabello, Stephen A Mokey, Matthew J Murphy, Joseph Paul Nesbitt, Marissa J O'Connor III, Cornelius J
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Grades Assignment 1 71 67 78 67 80 84 78 75 72 71 68 81 83 71 77 86 83 58 68 59 72 57 83 86 65 56 89 67 61 72 65 Assignment 2
Petrie, Adam Douglas Ross, James E Ryan, Jeremy Joseph Savas, Paul J Scirri, Daniel Paul Smith, David Gregory Tether, Melanie Jane Thibert, Michael D V...
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Syracuse - CIE - 337
CIE337 Homework GradesSU ID 508865480 419158889 949237851 422912223 825665192 238554677 261500057 102522963 303007260 857139754 659567892 106134909 886093677 671250464 106136692 244079589 429328167 876430555 886223723 933048114 465503996 743083999 4
Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Syracuse - CIE - 337
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Georgia Tech - CS - 6400
QUIZ 1 (Feb 16th 2006) NOTES Quiz in class Thursday Feb 16th: The quiz will cover Chapters 1-6 and Chapter 29. (some parts of Ch 6 will be omitted based on how far we get in class by Feb 14th). Chapters 1,2,5 will be mostly covered by multiple choice
UCSC - CMPS - 290
A Multifocus Method for Controlling Depth of FieldA Multifocus Method for Controlling Depth of FieldPaul Haeberli Oct 1994IntroductionWhen a photograph is taken with a camera, the lens is focused at a particular distance. Objects nearer or fart
UCSC - CMPS - 290
To appear in the SIGGRAPH 2000 Conference ProceedingsAcquiring the Reflectance Field of a Human FacePaul Debevec Tim HawkinsChris Tchou Haarm-Pieter Duiker and Mark SagarWestley SarokinUniversity of California at Berkeley LifeF/X, Inc.
UCSC - CMPS - 290
Image-Based BRDF Measurement Including Human SkinStephen R. Marschner* Stephen H. Westin Eric P. F. Lafortune Kenneth E. Torrance Donald P. GreenbergProgram of Computer Graphics Cornell UniversityAbstract: We present a new image-based process for
UCSC - CMPS - 290
Environment Matting and CompositingDouglas E. Zongker11Dawn M. Werner1Brian Curless12David H. Salesin1,2University of WashingtonMicrosoft ResearchAbstractThis paper introduces a new process, environment matting, which captures not jus
Brookdale - DOCS - 0809
Division of Medical EducationF A C U L T YD E V E L O S P K M I EC O M M U N I C A T I O NApril 2009Tuesday, April 7/09 1:00 4:00pmQualitative Research Part II Data Collection & AnalysisWith Dr. Joan Evans, Director, Communication Skills
UCSC - CMPS - 290
Machine Vision and Applications (1988) 1:127-152Machine Vision and Applications9 1988 Springer-VerlagNew York Inc.Active, Optical Range Imaging SensorsPaul J. BeslComputer Science Department, General Motors Research Laboratories, Warren, Michi
UCSC - CMPS - 290
IEEE TRANSACTIONS ON PATTERN ANALYSIS AND MACHINE INTELLIGENCE,VOL. 27, NO. 2,FEBRUARY 20051Spacetime Stereo: A Unifying Framework for Depth from TriangulationJames Davis, Member, IEEE, Diego Nehab, Ravi Ramamoorthi, and Szymon Rusinkiewicz,
UCSC - CMPS - 290
To appear in the SIGGRAPH 2000 conference proceedingsSurface Light Fields for 3D PhotographyDaniel N. Wood1 Daniel I. Azuma1 Ken Aldinger1 Brian Curless1 Tom Duchamp1 David H. Salesin1,2 Werner Stuetzle11University of Washington2Microsoft R
UCSC - CMPS - 290
Stanford Tech Report CTSR 2005-02Light Field Photography with a Hand-held Plenoptic CameraRen Ng Marc LevoyMathieu Br dif e Gene Duval Mark Horowitz Stanford University Duval DesignPat HanrahanAbstractThis paper presents a camera that sam
UCSC - CMPS - 290
High Performance Imaging Using Large Camera ArraysBennett Wilburn1 Neel Joshi2 Vaibhav Vaish2 Eino-Ville Talvala1 Emilio Antunez1 Adam Barth2 Andrew Adams2 Mark Horowitz1 Marc Levoy21 ElectricalEngineering Department Stanford University2 Comput
UCSC - CMPS - 290
Linear Light Source ReectometryAndrew Gardner Chris Tchou Tim Hawkins Paul Debevec University of Southern California Institute for Creative Technologies Graphics Laboratory 1ABSTRACTThis paper presents a technique for estimating the spatially-var
UCSC - CMPS - 290
An Autostereoscopic DisplayKen Perlin, Salvatore Paxia, Joel S. Kollin Media Research Laboratory*, Dept. of Computer Science, New York UniversityABSTRACTWe present a display device which solves a long-standing problem: to give a true stereoscopic
UCSC - CMPS - 290
The Two-User Responsive Workbench: Support for Collaboration Through Individual Views of a Shared SpaceManeesh Agrawala Andrew C. Beers Ian McDowally Stanford UniversityBernd Fr hlich o Mark Bolasy Inc. Mountain View, CAyFakespace,Pat Hanrahan
UCSC - CMPS - 290
Picture Pairs Varying Camera SettingsSteven Scher sscher@ucsc.edu UCSC cs 290b, Fall 2005 Focus depth near vs farBright vs DarkZoomedIn shots of details12x Zoom (35mm420mm)
W. Alabama - ME - 269
ReviewChap. 1DC MachinesChap. 21Basics of Electric CircuitsOhms Law , Resistor, KVL KCL Chap. 1Principles of DC MachinesME269 winter 2007 Outline Flowchart5Development of MMF, EMF, Basics of Motor and Generator Chap. 4Chap. 7Tra
W. Alabama - ME - 269
Tutorial # 11.(a) i2 = 30/10 = 3 A, v1 = 3(3+10+5) = 54 V, i 1 = 54/6 = 9 A (b) KCL: KVL ig = i l + i 2 = 12 A, v g = 12(1+0.5) + 54 = 72 V(c) Pg = v g ig = (72)(12) = 864 W(delivered)2.(a) KCL:i3 + i6 = 12 A,v s = 3 i3 = 6 i6 .'. i3 = 8 A,
W. Alabama - ME - 269
Amirhossein Hajimiragha (Amir) ahajimir at uwaterloo.caProblem 2: If the flux density along the left-hand leg of the magnetic circuit shown in the above figure is B A =0.5 [T], find the coil current (I). The B-H curve of the magnetic material is as
W. Alabama - ME - 269
Tutorial #54.7. A series motor takes 40A at 460V while hoisting a load at 6m/s. The armature plus field resistance is 0.48 . Determine the resistance to be placed in series with the motor to slow the hoisting speed to 4m/s. Assume linear operation
W. Alabama - ME - 269
TAt oria'l + 5u-7.S e t ^ r 'felr, l o r i f , ' 1 o f t A 4 6 " / ikq'6-'/s'rtn*frF' o't/5,;z' ftto*o l, + I' a *'/t'ofr'rn Caf t/ Lf,or^r naX,"elt ao V'Et +I,(Rg+ Kf) n " .4 6 o = F , + 9 " ( r , / E ) = ,=el4o'8 V-+ .\l,/-o : ,F '
W. Alabama - ME - 269
Tutorial # 6Q1At what speed must an eight-pole synchronous generator rotate in order to generate a voltage with a frequency of 60 Hz?Q.2 A dc motor is used as a prime mover for a synchronous generator in order to obtain a variable-frequency sup
W. Alabama - ME - 269
Tutorial # 81. A single-phase transformer has 400 primary turns and 800 secondary turns. The net iron cross sectional area of the core is 40 cm2. If the primary winding is connected to a 60 Hz supply at 600 V. Calculate: (a) The maximum value of the
W. Alabama - ME - 269
4.POUT 10,000 0.8 = 100 = 94.0% Pin 10,000 0.8 + 340 + 168 b. Maximum efficiency occurs when : copper loss=core lossa. = then : copper loss=168 W. This occurs at a load smaller than full load. The load current will be : I 2 Req 340 = I ' = I
W. Alabama - ME - 269
T,ttoFr,a"( 8 #8.t, p= lz ) { ' t , 1 1 7 )n,t'$ to'o(llc :tt (o fpjr-.t_,tll"/, (" l7.{ootPTn") A5qtr = -t(i-f)' d."(1'u'od)=5/4rfet'6'3'a s t l 1 . o r 'v ? * '4,^r'll(e) {=6"H8'("1 f(b) f ,^
W. Alabama - ME - 269
Lecture Notes ME 269Chapter 2Single Phase CircuitsAli Naderian1/8/2007ME 269. Introduction1Single Phase Circuit (AC)Review Single phase circuit components: Voltage or current sources V Impedances (resistance, inductance, and capacita
W. Alabama - ME - 269
Lecture Notes ME 269Chapter 5DC MachinePart 1Basic principles and physical constructionAli Naderian1/8/2007 ME 269 DC Machine1Direct Current (DC) Machines Fundamentals Generator action: An emf (voltage) is induced in a conductor if it mo
W. Alabama - ME - 269
Question 1A separately excited DC motor has the following parameters: field resistance = 250 R, armature resistance = 0.03 R , terminal voltage = 250 V and field voltage = 250 V. Initially the machine runs at 1000 rpm with the terminal voltage = 250
W. Alabama - ME - 269
ME 269Laboratory InstructionsIMPORTANT SAFETY NOTE: All the students must strictly follow all the safety instructions given below. In case of any question or concern, please contact the LAB INSTRUCTOR. If you fail to follow the safety instructions,
W. Alabama - ME - 269
ME 269LAB SCHEDULENo. of hardware experiments: Broken into 6 to accommodate the scheduling. Groups: A group will have two students. Lab signup: Note: Students without signing up are not allowed to conduct experiment. Choose the lab partners, date a
W. Alabama - ME - 269
ME 269 Laboratory Manual Winter 2007 University of WaterlooLaboratory Room: CPH-1333Course Instructor Ali Naderian Jahromianaderia@uwaterloo.cax33188 CPH 2396GLab Instructor . Gannayya Bommali . Ed Spike (alternate)gbommali@uwaterloo.ca s
W. Alabama - ME - 269
Table 1.1 Component values measurementLoadNominal Measured R in ohms L in mH C in uFTable 1.2Load Nominal MeasuredComponent value calculationsR in ohms L in mH C in uF100 100.5959 Given30 Given100 100.5959 95930 30Only measure t
W. Alabama - ME - 269
ME 269Lab #2: THREE-PHASE CIRCUITSGroup # Station # First Name Last Name UserID @uwaterloo.caDate of Experiment _NOTE: 1. All the students must strictly follow all the safety precautions. 2. In case of any question or concern, please contact LA
W. Alabama - ME - 269
UNIVERSITY OF WATERLOO ELECTRICAL & COMPUTER ENGINEERING DEPARTMENT ME 269: ELECTROMECHANICAL DEVICES AND POWER PROCESSING.EXPERIMENT# 3: DIRECT CURRENT MACHINESPre-lab Questions for DC Machines.Total 20 marks1. What will happen if a current-
W. Alabama - ME - 269
Pre-lab Questions for Synchronous Generators1. With the help of waveforms, show how the voltage, current and the power vary as a function of time (for one period) in a single-phase circuit, assuming that the load is resistive. Comment on the power w
W. Alabama - ME - 269
Name:Pre-lab6 Questions for Induction MotorsRead lab manual to answer some questions.1. Explain what is meant by a "rotating magnetic field (RMF)". 2. What are the two basic features of RMF? 3. How would you reverse direction of rotation of RMF?
Michigan - EECS - 484
Cornell College - JBITTER - 131
Jeff Bitter Computer Practice and Perspectives, CSC131 Question 2.26A.I believe that a database containing the names of convicted shoplifters for reference to store owners that subscribe is not a problem. First of all, the shoplifters have alread
Cornell College - JBITTER - 131
CSC1131 Computing Practice and Perspectives Exam 1 September 10, 2005 _Jeffrey R. Bitter_ name The only software you may use while completing this exam is Microsoft Word and the only document you may open is this one. You may save this document to e
Cornell College - KCOX - 131
H ank A Cl own aron was 1 s in t he N e 8 years ol d gro A meri c when he p an L e l ague. ayed f or t h e I nd i anaes Brav on Bost onl y e by t h he had r t yea Aaron a at t h ui red ht . boug ves acq sed gri p en as t h t he Bra a rever w aron .
UWO - SS - 3861
1Statistical Sciences 3861BToday's Topics1. Review 2. Types of a time series 3. Information contained in a time series Review What is a time series? Examples Some R codesTypes of a time series A time series is discrete A time series is c
UWO - SS - 3861
1Statistical Sciences 3861BToday's Topics1. Review 2. Stationarity (continuing) 3. More Statistical Definitions Review Objectives of time series analysis Description (plotting,. . . ) Explanation (modelling) Prediction (forecasting) Control S
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1Statistical Sciences 3861BToday's Topics 1. Review 2. More Statistical Definitions 3. Time Series with Trend and Seasonal Components Review Weak stationarity (Second order): stationarity in mean and covariance Autocorrelation k = k /0 at lag k; a
UWO - SS - 3861
1Statistical Sciences 3861B1. Review Today's Topics2. Time Series with Trend and Seasonal Components 3. Wold Theorem and Linear Time Series Models 4. Spectral Analysis 5. Ch3: Stationary Nonseasonal Models Review Memory: M = t=- |t | M < - sh
UWO - SS - 3861
1Statistical Sciences 3861BTodays Topics 1. Review 2. Ch3: Stationary Nonseasonal Models 3. Autoregressive Processes Review Time Series with Trend and Seasonal Components Use k Xt to remove (polynomial) trend Use dXt to remove seasonality Spect
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1Statistical Sciences 3861BTodays Topics 1. Review 2. Autoregressive Processes Review Chapter 3 Main objects: stationary linear noseasonal processes Three models: AR, MA, ARMA {Xt} is AR(1): Xt = 1Xt1 + at, 2 where 1 is the AR parameter and {at