1. Oceanography 569A�Oceanographic Data Analysis Laboratory Kathie Kelly
Applied Physics Laboratory
561 Henderson Hall
class web site: kkelly.apl.washington.edu/classes/ocean569_2010
2. Organization 1 lecture, 1 lab period (2 hrs) per week
Exercise assigned on Monday, finish in Friday lab (open lab hours during week)
Presentation of solution in Monday class
Working groups for exercises - everyone is to write Matlab code
One class project: working group discussion and
methodology, but each student writes a paper (GRL-style)
Grade based on presentations and paper
Office hours?
3. Materials All materials available on class web site
Schedule and deadlines also on web site
Handouts will be discussed in lecture
Exercise files to be downloaded from web site
General purpose mfiles also on web site
Solutions will be posted the following week (for your reference)
4. Exercise 1: Merging data
5. Exercise 1: Merging data
6. Exercise 1: Merging data
7. Exercise 1: Merging data
8. Exercise 1: Merging data
9. Exercise 1: Merging data
10. Matlab functions
11. Periodic Signals
12. Introduction to Statistics
13. Characterize Observations
14. Normal Distribution
15. Central Limit Theorem
16. Error Estimates and Propagation
17. Error Estimates for Differences or Derivatives
18. More General Error Estimates
19. Multiple Error Sources
20. Exercise 2
21. Exercise 2
22. Analysis of Variance (ANOVA)
23. More Statistical Concepts
24. Covariance and Correlation
25. Autocovariance
26. Covariance and Errors
27. Autocorrelation
28. Decorrelation Times
29. Integral Time Scale
30. Significance of a Correlation
31. Using Correlations to Evaluate Observations
32. Taylor Diagram
33. Vector Correlations
34. Lowpass Filter
35. Other Filters
36. Linear Estimators
37. Evaluating a Model
38. Linear Algebra Review (1)
39. Linear Algebra Review (2)
40. Linear Algebra Review (3)
41. Linear Algebra Review (4)
42. Linear Regression
43. Linear Regression (contd)
44. Significance of Linear Regression
45. Another Significance Test
46. Linear Regression: SST Hindcasts
47. Linear Regression: SST Forecasts
48. Linear Regression: Wind Hindcasts
49. Linear Regression: Wind Forecasts
50. Principal Component Analysis � Or Empirical Orthogonal Functions (EOFs)
51. Singular Value Decomposition�original method for computing EOFs
52. Singular Value Decomposition�EOFs on nonseasonal SSH in Gulf Stream region
53. Covariance Matrix Eigenvectors�conventional method for computing EOFs
54. Covariance Matrix Eigenvectors�conventional method for nonseasonal EOFs on wind vectors
55. Equivalence of EOF Methods
56. Significant EOF Modes
57. Different Results from EOFs
58. Asymmetry in SVD for Covariance Method
59. Applying Analysis Tools �practice exercise for your project
60. Sea Level Variability in the Eastern Mediterranean Sea
61. Sea Level Variability in the Eastern Mediterranean Sea
62. Sea Level Variability in the Eastern Mediterranean Sea
63. Applying Analysis Tools
64. What Causes SST Variability in the Gulf Stream?
65. What Causes SST Variability in the Gulf Stream?
66. Writing Up Results
67. Optimal Interpolation or Objective Mapping
68. Linear Combination of Nearby Data
69. Minimize Squared Error
70. Coefficients Based on Data Covariances
71. Estimate Mean and Map Anomalies
72. Expected Errors for Maps
73. Estimating a Covariance Function
74. Estimating a Covariance Function
75. Project Solution: Observations & Fields
76. Project Solution: Heating Model Errors
77. Project Solution: dT/dt and MLD correction
78. Project Solution:�Correlations of dT/dt residual
