D'Alembert-Lagranges Principal Equations, Their Origin and ...
Transcript of D'Alembert-Lagranges Principal Equations, Their Origin and ...
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D'Alembert-Lagrange!s Principal Equations, Their Origin and Applications
K. C. Park, Carlos A. Felippa
Center for Aerospace Structures
University of Colorado at Boulder
Boulder, CO 80309
Roger Ohayon
Structural Mechanics and Coupled Systems Laboratory
Conservatoire National des Arts et Metiers (CNAM)
Paris, France.
USNCCM9
San Francisco, 23-26 July 2007
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Traité de Dynamique (1758) Méchanique Analytique (1788)
D’Alembert’s Principle was
reported to Académie des
Sciences in 1742.
Lagrange came to Paris from
Turin in 1787 and published
his book in 1788.
Principal Figures for Today’s Talk
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Developments in the Formulation of Dynamical Systems
! It began with a single, free and rigid body
with a point mass;
! Then, a rigid body with the rotational inertia properties;
! A rigid-link with joints;
! Lumped mass-spring models
! Continuum (flexible) models
! FEM/Rigid models with joints and constraints;
! And, the race for complex models is on!
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Theme of Today’s Talk
As a result of the race for ever more complex modeling
and analysis, often physical insight with simplicity
in modeling is lost or abandoned on the wayside?
And, we are left in the thick flood of numbers and
gigabit analysis data.
“One always returns to where one has started.”
--Denise Levertov(1923-1997)
Hence, in dynamics, we may return to the simplicity and
fundamental form of d’Alembert and Lagrange’s
Principal Equations.
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What are D’Alembert-Lagrange Principal Equations?
Definition:
For a N-degree of freedom system,
regardless whether it is rigid or flexible,
d’Alembert-Lagrange’s principal equations
are obtained by summing all the forces and
all the moments(with respect to a point) in the system.
Symbolic Expressions:
Sum of forces (3 equations at most): ! (fi - mi ai ) = 0
Sum of moments (3 equations at most): ! {Mi + ri x (fi - mi ai )} = 0
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Semantic Questions related to
the d’Alembert-Lagrange Principal Equations:
Is a floating structure in an equilibrium condition?
Or
Is a free-free substructure, partitioned from an assembled
system, in its equilibrium state?
The answer is not in the blowing wind,
but in the mathematical expressions of the d’Alembert-
Lagrange Principal Equations and their physical meaning.
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A bottom-up approach to
D’Alembert-Lagrange’s Principal Equations
***Warning: This model does not capture the boomerang motions!
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Equations of Motion for 6-DOF Boomerang Model
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Definition of d’Alembert’s Forces
Note that the inertia forces are associated with the
negative sign (-) which means: they are resisting forces
in equilibrium equations.
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Sum of x-direction forces:
Note that uc changes with time in general for flexible structures.
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Sum of y-direction forces
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Sum of moments around (x1 , y1 )
Come on, K. C.! Every undergraduate knows this stuff . .
And don’t waste my time here in a nice place, please.
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A top-down generalization via
Operational Form of Previous Equations(We do not teach undergraduates this way!)
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D’Alembert-Lagrange Principal Equations
for 6-DOF Boomerang Model
What are they?
Where does one utilize them for?
What added value do they offer, if any?
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What are they?
The transposition of the summation operator below
consists of three rigid-body modes.
Mathematically, ST fD = 0 is a projection of d’Alembert’s
forces onto the rigid-body modes.
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What are they? - Cont’d
The d’Alembert-Lagrange principal equations,
ST fD = 0,
represent the mean motions of flexible dynamical systems
for which the instantaneous mass center of the total system
is given, for the example problem, by
uc = (m1 u1 + m2 u2 + m3 u3 )/M, M = (m1 + m2 + m3)
so that the corresponding x-direction equation is given by
STx
fxD
= fx
- M (d2 / d t2)uc = 0
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What are they? - Concluded
Physically, the three D’Alembert-Lagrange
Principal Equations given by
are self-equilibrium equations, and
ST is the self-equilibrium operator whose transposition,
S, in turn consists of the rigid-body modes, R, of the system.
R = S
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Variational Representation of D’Alembert-Lagrange
Principal Equations
Introduce the self-equilibrium displacement
which clearly reveals that
ST, in fact, is the self-equilibrium operator of the system.
so that one obtains the following variational statement:
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What are they in partitioned mechanical systems?
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What are they in partitioned systems?
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For the partitioned modeling of flexible mechanical systems,
ST fD = 0 provides self-equilibrium condition for each partition.
What are they in partitioned systems? - Concluded.
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Examples for which self-equilibrium conditions are important:
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Where does one utilize them for?
1. If the applied forces are known, they provide the mean
motions of the system.
2. If part or all of the forcing functions are unknown and the
mean motions are measured, they provide a least-squares
solution of the applied forces and moments. For the
example problem, they can provide a least-squares estimate
of aerodynamic forces acting on the boomerang.
3. From the theoretical point of view, the d’Alembert-
Lagrange principal equations provide the solvability
conditions for completely free or partially constrained
flexible systems, either quasi-static or dynamic. We will
examine this aspect later in the talk.
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What added value do they offer, if any?
1. In the modeling of multi-physics problems, they provide
the principal (rigid-body modes) interface forces and moments,
viz., average interface forces and moments.
2. In multi-body dynamics, if properly formulated and
implemented, they provide the fundamental rigid-body motions
and the corresponding joint forces that can aid first-hand
physical insight for subsequent optimization, control and
baseline solutions for detailed analysis.
3. They facilitate the divide-and-conquer paradigm for the
modeling and solution of complex systems: a key property for
partitioned modeling and analysis.
4. In the iterative solution of large-scale problems, they provide a
crucial starting vector and subsequent filtering of residuals for
faster iterative convergence.
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D’Alembert-Lagrange Principal Equations for General 3-D
Systems (Let’s get serious on their usage)
Step 1: Variational Statement of the d’Alambert-Lagrange Principal Equations:
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The preceding variational observation allows us to decompose the displacement as
Step 2: The summation operator for 3-dimensional problem:
For each discrete nodal point we have
Let’s get serious on their usage - cont’d
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Variational formulation of partitioned system
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And B extracts the interface degrees of freedom for each partition.
Partition Interface constraint functional
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Variational Statement for Partitioned Systems
Introduce the decomposition of the displacement into deformation
and rigid-body(D’Alembert-Lagrange principal) modes:
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Four-Variable Variational Formulation
for Partitioned Systems
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D’Alembert-Lagrange Principal Equations for
Partitioned Systems
This equation provides the mean gross motions of the total system!
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Application 1: mass properties of complex structures
(Example - Bar element)
It is not trivial at all for computing the rotatory inertia and
its coupling matrix with the translational mass properties!
Translational mass matrix of a bar element:
Summation operator for the case when the moment is computed
around node 1
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Application 1: mass properties of complex structures - Cont’d
(Bar element example)
The above matrix correctly captures the rotatory inertia
when the rotational motion is measured with respect to
node 1 and the corresponding coupling matrix with the
Translational mass. Complex cases yield the correct mass
properties. Computations of the rotatory inertia for
complex systems, e.g., automobile, satellites, etc.,
with the present procedure is straightforward and consistent.
All one needs for computing the inertia properties of
complex systems are the translational mass matrix and
the moment summation operator!
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Small application: Generation of Diagonal Mass Matrix
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Application 2: Solvability for unconstrained systems
under quasi-static equilibrium states
This equation is indefinite and consequently requires a delicate
care for its solution!
Partitioned equations of motion for structures:
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Application 2: Solvability for unconstrained systems
under quasi-static equilibrium states
Eliminate q to obtain:
This equation is regular and consequently can be solved
in a routine manner!
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Application 3: Consistent starting vector for
an iterative solution of partitioned system equations
Step 1: Solve for a least-square value of the interface forces:
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Application 3: Consistent starting vector for
an iterative solution of partitioned system equations
Step 2: Project the new iterate to be orthogonal to the interface
rigid-body modes:
in order to minimize the residual:
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Future Potential Applications
A. Least-squares nominal interface forces that may
provide a preliminary design modification or control
strategy for systems with constraints.
B. Augmented solution of (q, ") for dual control
strategy development, i.e., for principal motions
and deformational motions in tandem.
C. Filtering of mean motion signals from output signals.
D. Advanced multi-physics modeling
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Discussions
1. The d’Alembert-Lagrange principal equations consists of 6 rigid-body motions
regardless how large the flexible mechanical structural systems may be, and
they provide the mean motions of the overall system dynamics.
2. The rotatory inertia and its coupling terms with the translational mass
properties are obtained as part of the derivational process of the d’Alembert-
Lagrange principal equations presented herein.
3. The d’Alembert-Lagrange principal equations constitute the key solvability
condition for systems partially constrained or in completely free-free state.
4. For an iterative solution of coupled multi-physics problems, the solution of the
d’Alembert-Lagrange principal equations provides a consistent starting vector,
thus accelerating the iterative process.
5. There remains a challenge to expand the usage of the d’Alembert-Lagrane
principal equations, some of which have been outlined herein.
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Viva la dynamique élémentaire!
Fin!
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Question:
Can you readily get the necessary physical
insight from 108-DOF simulation results?
Wisdom from Native American Culture:
I can count five from the right fingers, and
I can count another five from the left fingers.
And, I don’t know how to count further!