Geometric Uncertainty in Truss Systems: An Interval Approach

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Geometric Uncertainty in Truss Systems: An Interval Approach

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Title: Geometric Uncertainty in Truss Systems: An Interval Approach

1
Geometric Uncertainty in Truss Systems An
Interval Approach

Rafi L. Muhanna and Ayse Erdolen
Georgia Institute of Technology

Robert L. Mullen Case Western Reserve
University
NSF Workshop on Modeling Errors and Uncertainty
in Engineering Computations February 22-24,
2006,Georgia Institute of Technology, Savannah,
USA
2
Outline

Introduction
Interval Finite Elements
Geometric Uncertainty
Examples
Conclusions

3
Center for Reliable Engineering Computing (REC)
We handle computations with care
4
Introduction- Uncertainty

Uncertainty is unavoidable in engineering system
structural mechanics entails uncertainties in
material, geometry and load parameters

5
Introduction- Engineering Systems

Engineering systems are usually designed with a
pre-described geometry in order to meet the
intended function for which they are designed

6
Introduction- Uncertainty

Geometric uncertainty due to fabrication and/or
thermal changes in engineering systems
tolerances (geometrical uncertainty)
uncertainty in the components' length

7
Introduction- Truss Systems
8
Introduction- Uncertainty
9
Introduction- Uncertainty
10
Introduction- Uncertainty
11
Introduction- Uncertainty

Interval number represents a range of possible
values within a closed set
L ?L,
Represents an uncertain quantity by giving a
range of possible values
L Lo ? ?L, Lo ?L
How to define bounds on the possible ranges of
uncertainty?
experimental data, measurements, statistical
analysis, expert knowledge

12
Introduction- Why Interval?

Simple and elegant
Conforms to practical tolerance concept
Describes the uncertainty that can not be
appropriately modeled by probabilistic approach
Computational basis for other uncertainty
approaches (e.g., fuzzy set, random set)

Provides guaranteed enclosures

13
Introduction- Finite Element Method

Finite Element Method (FEM) is a numerical method
that provides approximate solutions to partial
differential equations

14
Interval arithmetic

Interval number
Interval vector and interval matrix, e.g.,
Notations

15
Interval Finite Elements

Local and global coordinate systems for a truss
bar element
ccos? and ssin?

16
Interval Finite Elements

Interval axial forces for bar element
E modulus of elasticity
A cross sectional aria
?L -?L, ?L interval deviation from the
nominal value of the bar s length
?L -?T, ?T interval of the temperature
change
? coefficient of thermal expansion

17
Interval Finite Elements

Nodal forces induced by a given bar due
fabrication error or temperature change
P0i Interval vector of nodal forces obtained as
a result of missfitting problem

18
Interval Finite Elements

In the absence of external loading the final
interval finite element system of equations
K stiffness matrix of the system
U vector of interval displacements

19
Interval Finite Elements
20
Interval Finite Elements
21
Interval Finite Elements

In the absence of external loading the final
interval finite element system of equations
M a matrix that relates the system s degrees
of freedom with elements loads

22
Interval Finite Elements