Presentation is loading. Please wait.

Presentation is loading. Please wait.

Geology 5670/6670 Inverse Theory 21 Jan 2015 © A.R. Lowry 2015 Read for Fri 23 Jan: Menke Ch 3 (39-68) Last time: Ordinary Least Squares Inversion Ordinary.

Published byGeorgina Knight Modified over 9 years ago

Similar presentations

Presentation on theme: "Geology 5670/6670 Inverse Theory 21 Jan 2015 © A.R. Lowry 2015 Read for Fri 23 Jan: Menke Ch 3 (39-68) Last time: Ordinary Least Squares Inversion Ordinary."— Presentation transcript:

1 Geology 5670/6670 Inverse Theory 21 Jan 2015 © A.R. Lowry 2015 Read for Fri 23 Jan: Menke Ch 3 (39-68) Last time: Ordinary Least Squares Inversion Ordinary Least Squares (OLS) solves for parameters m that minimize the L 2 -norm of misfit residuals Solution for an overdetermined ( N > M ) linear problem is given by: The matrix is the pseudoinverse of G The misfit residual provides some intuitive insight into measurement error… *****

2 What does this tell us about uncertainty? First, if #obs N is “large enough” relative to M, misfit tells us something about errors in measurements! We use that to estimate parameter uncertainties. Statistical Properties: First denote pseudoinverse: And recall. Thus, Inverse Theory : Goals include (1) Solve for parameters from observational data ; (2) Determine the range of models that fit the data within uncertainties

3 Quick review of Gaussian distributions & statistics : Central Limit Theorem : The sum of N independent, random variables approaches a Gaussian distribution for N sufficiently large. Univariate case: Where we define: Mean :, the expected value of x Variance : is the Probability Density Function

4 For the multivariate case, the probability density function is Mean : Data Covariance Matrix : (Note outer product yields a matrix!) Independent random variables: Uncorrelated random variables: (Strong condition)

5 Based on these definitions, (1) If we assume errors are zero-mean, (i.e., if measurements are unbiased, the model parameters are unbiased) (2) The model covariance matrix *****

6 For the ordinary least squares case, (Note because it is symmetric, and for symmetric A If measurement errors are uncorrelated, constant variance: and *****

7 So we can estimate a parameter variance for each model parameter: And we write

Download ppt "Geology 5670/6670 Inverse Theory 21 Jan 2015 © A.R. Lowry 2015 Read for Fri 23 Jan: Menke Ch 3 (39-68) Last time: Ordinary Least Squares Inversion Ordinary."

Similar presentations

The Simple Linear Regression Model Specification and Estimation Hill et al Chs 3 and 4.

The Simple Linear Regression Model Specification and Estimation Hill et al Chs 3 and 4.
Modeling of Data. Basic Bayes theorem Bayes theorem relates the conditional probabilities of two events A, and B: A might be a hypothesis and B might.

Modeling of Data. Basic Bayes theorem Bayes theorem relates the conditional probabilities of two events A, and B: A might be a hypothesis and B might.
Let X 1, X 2,..., X n be a set of independent random variables having a common distribution, and let E[ X i ] = . then, with probability 1 Strong law.

Let X 1, X 2,..., X n be a set of independent random variables having a common distribution, and let E[ X i ] = . then, with probability 1 Strong law.
General Linear Model With correlated error terms  =  2 V ≠  2 I.

General Linear Model With correlated error terms  =  2 V ≠  2 I.
A. The Basic Principle We consider the multivariate extension of multiple linear regression – modeling the relationship between m responses Y 1,…,Y m and.

A. The Basic Principle We consider the multivariate extension of multiple linear regression – modeling the relationship between m responses Y 1,…,Y m and.
The Simple Regression Model

The Simple Regression Model
Environmental Data Analysis with MatLab Lecture 8: Solving Generalized Least Squares Problems.

Environmental Data Analysis with MatLab Lecture 8: Solving Generalized Least Squares Problems.
Ch11 Curve Fitting Dr. Deshi Ye

Ch11 Curve Fitting Dr. Deshi Ye
The General Linear Model. The Simple Linear Model Linear Regression.

The General Linear Model. The Simple Linear Model Linear Regression.
The Simple Linear Regression Model: Specification and Estimation

The Simple Linear Regression Model: Specification and Estimation
1-1 Regression Models  Population Deterministic Regression Model Y i =  0 +  1 X i u Y i only depends on the value of X i and no other factor can affect.

1-1 Regression Models  Population Deterministic Regression Model Y i =  0 +  1 X i u Y i only depends on the value of X i and no other factor can affect.
Sampling Distributions

Sampling Distributions
Simple Linear Regression

Simple Linear Regression
AGC DSP AGC DSP Professor A G Constantinides© Estimation Theory We seek to determine from a set of data, a set of parameters such that their values would.

AGC DSP AGC DSP Professor A G Constantinides© Estimation Theory We seek to determine from a set of data, a set of parameters such that their values would.
SUMS OF RANDOM VARIABLES Changfei Chen. Sums of Random Variables Let be a sequence of random variables, and let be their sum:

SUMS OF RANDOM VARIABLES Changfei Chen. Sums of Random Variables Let be a sequence of random variables, and let be their sum:
Probability theory 2011 The multivariate normal distribution  Characterizing properties of the univariate normal distribution  Different definitions.

Probability theory 2011 The multivariate normal distribution  Characterizing properties of the univariate normal distribution  Different definitions.
Probability & Statistics for Engineers & Scientists, by Walpole, Myers, Myers & Ye ~ Chapter 11 Notes Class notes for ISE 201 San Jose State University.

Probability & Statistics for Engineers & Scientists, by Walpole, Myers, Myers & Ye ~ Chapter 11 Notes Class notes for ISE 201 San Jose State University.
Estimation and the Kalman Filter David Johnson. The Mean of a Discrete Distribution “I have more legs than average”

Estimation and the Kalman Filter David Johnson. The Mean of a Discrete Distribution “I have more legs than average”
The moment generating function of random variable X is given by Moment generating function.

The moment generating function of random variable X is given by Moment generating function.
The Simple Regression Model

The Simple Regression Model

Similar presentations

Ads by Google