chapter 4 describes five key areas - home - department of ...longoria/ssec/leks/meeting_05.pdf ·...
TRANSCRIPT
![Page 1: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/1.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Chapter 4 describes five key areas
1. How we define and characterize stochastic process
2. The need and a framework for developing stochastic
linear system models
3. Forming models of linear differential or difference
equations
4. A way for describing measured systems outputs
5. Ways of building ‘practical system models’ to reflect
reality
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Agenda – Class Meeting 04
• Stochastic processes (Section 4.2) - pp. 133-139 (7p)
• Stationary stochastic processes and power-spectral density (Section 4.3) - pp.
139-145 (7p)
• System modeling (Section 4.4) - pp. 145-147 (3p)
• Frequency analysis and domain techniques - to be provided
• Response of lightly damped systems - to be provided
• Derivatives of random processes (from Bendat and Piersol handout)
In a 2nd meeting
• White Gaussian noise and Brownian motion (Section 4.5) - pp. 147-156
(10p)
• Sections 4.6, 4.7, 4.8 and 4.9
• Sections 4.10, 4.11 and 4.12
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Definitions
• Stochastic process
• Mean value function
• Covariance and cross-covariance
• Correlation and cross-correlation
• Independent and uncorrelated
• Strictly and wide-sense stationary
• Fourier transform
• Power-spectral density and cross-power
• Ergodic processes
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Stochastic process
: ( , )A tω ω ξ= ∈Ω ≤x
for any t an element of T and nR∈ξ are in the underling σ algebra.
is a stochastic process if sets of the form, ( , )⋅ ⋅x
For each point in the sample
space, there is an associated
‘sample’ stochastic process.
Discrete or continouous
1 1( , )t ωx
2 1( , )t ωx
3 1( , )t ωx
4 1( , )t ωx
![Page 5: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/5.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
The collection of all possible sample functions that a random
phenomenon might have produced is called a random or stochastic
process.
One sample record of data may be thought of as one physical
realization.Bendat and Piersol [3]
Maybeck [1]
![Page 6: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/6.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Stochastic process (cont.)
e.g., road profile
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
To characterize a CT stochastic process completely, you need to
know the joint probability distribution function or density function.
However, you’d
need 1st and 2nd order
moments, as well as
all higher order
functions for all t
values of interest.
This is not practical.
For Gaussian
processes, the first
two moments are
sufficient.
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Mean value function
The mean value function is defined for all t in T, being an average
value taken over the entire ensemble of samples from the process.
The covariance matrix gives an indication of the spread of values
from the mean at time t,
Covariance kernel – measure of how fast x(t) samples change over
time
Correlation matrix
Correlation kernel
Correlation matrix
( ) ( )x t E tm ≜ x
[ ][ ] ( ) ( ) ( ) ( ) ( )T
xx x xt E t t t t− −P m m≜ x x
[ ][ ] 1 2 1 1 2 2( , ) ( ) ( ) ( ) ( )T
xx x xt t E t t t t− −P m m≜ x x
( ) ( , )xx xx
t t tP P≜
1 2 1 2 1 2 1 2( , ) ( ) ( ) ( , ) ( ) ( )T T
xx xx x xt t E t t t t t t= +Ψ P m m≜ x x
( ) ( , ) ( ) ( )T
xx xxt t t E t t=Ψ Ψ≜ x x
Characterizing Stochastic Processes
![Page 9: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/9.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Cross-covariance kernel – relating two processes x(t) and y(t)
Cross-covariance matrix
Cross-correlation kernel
[ ] 1 2 1 1 2 2( , ) ( ) ( ) ( ) ( )T
xy x yt t E t t t t − − P m m≜ x y
1 2 1 2 1 2 1 2( , ) ( ) ( ) ( , ) ( ) ( )T T
xy xy x yt t E t t t t t t= +Ψ P m m≜ x y
( ) ( , )xy xy
t t tP P≜
![Page 10: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/10.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
![Page 11: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/11.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Independent, white, and uncorrelated processes Discussion(these notes need to be re-worked/cleaned up)
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Discussion
(these notes need to be re-worked/cleaned up)
![Page 13: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/13.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
A strictly stationary process is WSS iff it has finite second order
moments, and WSS does not imply SSS. A Gaussian WSS is SSS.
![Page 14: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/14.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
For WSS, diagonal terms of the correlation matrix are even
functions only of τ with a maximum value at τ = 0.
(add more here later)
![Page 15: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/15.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
For WSS processes, we can use Fourier transforms to generate
frequency domain characterizations of stochastic processes.
![Page 16: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/16.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Good question: what is it about stationary processes that enable
application of Fourier transforms?
![Page 17: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/17.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Mean-square value from PSD
2 1( ) (0) ( ) ( )
2xx xx xx
E t d f dfω ωπ
∞ ∞
−∞ −∞
= Ψ = Ψ = Ψ∫ ∫x
2(quantity)
PSD has units Hz
(0) mean-square value of ( )xx tΨ ≜ x
(a lot of practical use comes from this)
![Page 18: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/18.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
White
Exponentially
time-correlated
Random bias
From Maybeck Example 4.2
![Page 19: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/19.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
From Bendat and Piersol [3]
![Page 20: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/20.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
“A process is ergodic if any statistic calculated by averaging over all
members of the ensemble of samples at a fixed time can be
calculated equivalently by time-averaging over any single
representative member of the ensemble, except possibly a single
member out of a set of probability zero.”
No readily applied condition or test for ergodicity.
“In practice, empirical results for stationary processes are often
obtained by time-averaging of a single process sample, under the
assumption of ergodicity, such as:
[ ]
[ ]
[ ]
1( , ) lim ( , )
2
1( ) ( , ) ( , ) lim ( , ) ( , )
2
1( ) ( , ) ( , ) lim ( , ) ( , )
2
T
x iTT
T
xx i iTT
T
xy i iTT
m E t t dtT
E t t t t dtT
E t t t t dtT
ω
τ τ ω τ ω
τ τ ω τ ω
−→∞
−→∞
−→∞
= ⋅ =
Ψ ⋅ + ⋅ = +
Ψ ⋅ + ⋅ = +
∫
∫
∫
≜
≜
x x
x x x x
x y x y
![Page 21: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/21.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
![Page 22: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/22.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
This works by (seems obvious now):
1( ) ( )
2
Let:
1( ) ( )
2
So,
1( ) ( ) ( )
2
T R
T
T R
nn
V n t n t dtT
t
V n n dtT
V n n dt RT
τ
τ τ
ρ τ
ρ ρ τ τ
ρ ρ τ τ
∞
−∞
∞
−∞
∞
−∞
= − −
= −
= + −
= + =
∫
∫
∫
![Page 23: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/23.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
A random data analysis perspective [3]
Consider the mean (1st moment) of the ensemble computed at t1. This is estimated
by taking value at this time for each sample function and dividing sum by the
number of samples.
1 1
1
1( ) lim ( )
N
x kN
k
t x tN
µ→∞
=
= ∑
1 1 1 1
1
1( , ) lim ( ) ( )
N
xx k kN
k
t t x t x tN
τ τ→∞
=
Ψ + = +∑If both of these vary with time, the data is said to be
nonstationary. If these do not vary as t1 varies, the
process is said to be weakly stationary, or stationary in
the wide sense.
Weakly stationary random processes have constant mean
values and the autocorrelation function depends only on
τ. Verifying weak stationarity usually suffices for
justifying an assumption of strong stationarity (all
possible moments and joint moments are invariant).Bendat and Piersol [3]
![Page 24: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/24.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Refer to Bendat and Piersol, Chapter 5.
Good examples of calculating autocorrelation functions for
different types of signals.
![Page 25: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/25.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Example: Cross-correlation function for time-delay [3]
![Page 26: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/26.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Example: Cross-correlation function for time-delay [3] (cont.)
![Page 27: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/27.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
These notes need to be
cleaned up and
organized.
![Page 28: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/28.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Response of a linear system to stochastic input –
first, review frequency response analysis
![Page 29: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/29.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Key results for time and frequency response
![Page 30: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/30.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Now, calculating
some response
measures of
interest – time
domain
![Page 31: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/31.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Frequency domain response in terms
of PSD
![Page 32: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/32.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Getting the mean square response using PSD
![Page 33: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/33.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
These results are also used in system identification – to estimate
the system H(ω)
![Page 34: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/34.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
More on PSD – Another interpretation of its meaning
![Page 35: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/35.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
More on PSD – Another interpretation of its meaning (cont.)
![Page 36: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/36.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
More on PSD – Another interpretation of its meaning (cont.)
![Page 37: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/37.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Response of Lightly Damped Systems
![Page 38: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/38.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
![Page 39: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/39.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Example: response of a lifting surface
![Page 40: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/40.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
![Page 41: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/41.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
![Page 42: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/42.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
![Page 43: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/43.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Insert here additional examples, such as for a vehicle
traversing a terrain with stochastic elevation.
![Page 44: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/44.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
For the lifting surface example, the mean square value gives
you a good idea of expected RMS level, for example.
What other kind of response measures might you need if you
were assessing the design or control of this lifting surface?
![Page 45: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/45.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
For example, consider this problem:
From [3]
![Page 46: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/46.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Derivative random processes [3]
• Section 5.4 (Bendat and Piersol) – see handout
• Why would you care? Fatigue/failure, etc.
• Nice follow on to discuss how you take
derivatives, how you estimate zeros, etc.
• See Bendat and Piersol Problem 5.9 (expected
number of zero crossings)
• Also see Papoulis, Chapter 16, level-crossing
problem
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ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
1t
( )tξ 1( )tξ
2t
2( )tξ
2( )tx
1( )tx
( )tx
Later: add discussion on level-crossing problem
![Page 48: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/48.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
Problems
• 4.5 - Brownian motion and stochastic DE
• 4.9 - Modeling and variance response
• 4.10 - Response of linear system to stochastic
input - mean-square response
• 4.11 - Response of linear system to stochastic
input - autocorrelation response
![Page 49: Chapter 4 describes five key areas - Home - Department of ...longoria/ssec/leks/Meeting_05.pdf · Chapter 4 describes five key areas 1. ... Refer to Bendat and Piersol, Chapter 5](https://reader031.vdocument.in/reader031/viewer/2022022015/5b4f88b27f8b9a1b6e8c6e74/html5/thumbnails/49.jpg)
ME 384Q.7 – Prof. R.G. LongoriaStochastic Systems, Estimation and Control
Department of Mechanical EngineeringThe University of Texas at Austin
References
1. P.S. Maybeck, Stochastic Models, Estimation, and Control, Vol. 1,
Academic Press, Orlando, FL, 1979.
2. A. Papoulis, Probability, random variables, and stochastic processes, 3rd
edition, McGraw-Hill, New York, 1991.
3. J.S. Bendat and A.G. Piersol, Random data: analysis and measurement
procedures, Wiley-Interscience, New York, 1986.