van kampen expansion: its exploitation in some social and economical problems horacio s. wio...
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Van Kampen Expansion: Its exploitation in some social and
economical problems
Horacio S. Wio Instituto de Fisica de Cantabria, UC-CSIC, Santander, SPAIN
(A) Electronic address: [email protected] URL: http://www.ifca.unican.es/~wio/
IN COLLABORATION WITH:
J.R. Iglesias (UFRGS, Brazil)
I. Szendro (Dresde)
M.S. de la Lama (IFCA-UC, Spain)
• Van Kampen's expansion approach in an opinion formation
model, M.S. de la Lama, I.G. Szendro, J.R. Iglesias and
H.S. Wio, Eur. Phys. J. B 51 435-442 (2006); and
ERRATUM, Eur. Phys. J. B 58 221 (2007).
Sketch of the talk:
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
► Macroscopic and Fokker-Planck Equation for
Fluctuations;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
► Macroscopic and Fokker-Planck Equation for
Fluctuations;
► Some results;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
► Macroscopic and Fokker-Planck Equation for
Fluctuations;
► Some results;
► Inclusion of “Fanatics”;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
► Macroscopic and Fokker-Planck Equation for
Fluctuations;
► Some results;
► Inclusion of “Fanatics”;
► Other Cases;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
► Macroscopic and Fokker-Planck Equation for
Fluctuations;
► Some results;
► Inclusion of “Fanatics”;
► Other Cases;
► Failure and Extension of the -expansion;
Sketch of the talk:
► Introduction: brief description of van Kampen’s
-expansion;
► The Model: Inclusion of Undecided Agents;
► Macroscopic and Fokker-Planck Equation for
Fluctuations;
► Some results;
► Inclusion of “Fanatics”;
► Other Cases;
► Failure and Extension of the -expansion;
► Conclusions.
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Aim: avoid the inconsistencies that arise when obtaining, through a naïve approach, the macroscopic equation for a system described by a Master Equation. Exploiting a perturbative-like approach, the dominant order gives the macroscopic eq., while the following one yields a Fokker-Planck equation for the fluctuations.
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Aim: avoid the inconsistencies that arise when obtaining, through a naïve approach, the macroscopic equation for a system described by a Master Equation. Exploiting a perturbative-like approach, the dominant order gives the macroscopic eq., while the following one yields a Fokker-Planck equation for the fluctuations.
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Aim: avoid the inconsistencies that arise when obtaining, through a naïve approach, the macroscopic equation for a system described by a Master Equation. Exploiting a perturbative-like approach, the dominant order gives the macroscopic eq., while the following one yields a Fokker-Planck equation for the fluctuations.
The approach requires to identify , a system’s parameter, so large that allows to make expansions in its inverse. The original variable is transformed according to
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Aim: avoid the inconsistencies that arise when obtaining, through a naïve approach, the macroscopic equation for a system described by a Master Equation. Exploiting a perturbative-like approach, the dominant order gives the macroscopic eq., while the following one yields a Fokker-Planck equation for the fluctuations.
The approach requires to identify , a system’s parameter, so large that allows to make expansions in its inverse. The original variable is transformed according to
= macroscopic + fluctuations
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Using a step operator , defined through
the master eq. could be (formally) written as
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Using a step operator , defined through
the master eq. could be (formally) written as
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Using a step operator , defined through
the master eq. could be (formally) written as
Assuming is very large, and jumps are small, we can expand
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Changing variables in the pdf
we have that the lhs of the master equation changes to
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Changing variables in the pdf
we have that the lhs of the master equation changes to
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Changing variables in the pdf
we have that the lhs of the master equation changes to
Replacing everything into de master equation we obtain a complicated equation with terms of different order in
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Collecting terms of the same order in we obtain for the different contributions:
up to
that corresponds to the macroscopicmacroscopic equation.
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Collecting terms of the same order in we obtain for the different contributions:
up to
that corresponds to the macroscopicmacroscopic equation. Stability condition
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Collecting terms of the same order in we obtain for the different contributions:
up to
that corresponds to the macroscopicmacroscopic equation. Stability condition
The following order, , gives a “linear” Fokker-Planck eq.
describing the behavior of fluctuations around the macroscopic one.
INTRODUCTION
Van Kampen Expansion of the Master Equation:
As the FPE is linear, we only need to calculate the mean value
the dispersion
The general solution will have the Gaussian form
INTRODUCTION
The previous Fokker-Planck eq. has a related Langevin eq. :
INTRODUCTION
Van Kampen Expansion of the Master Equation:
Meaning:
The Model: Undecided Agents
The original model consist of only two groups, say A and B, with some rules that allows agents or members of one group, to convince the agents or members of the other. Here we consider that agents of group A don’t interact directly to agents of group B, but we include an intermediate group I, formed by “undecided” agents that mediates the interaction between A and B (Redner et al.) Members of groups A and B, could convince the members of group I. Also, we also assume that there is the possibility of an spontaneous change of opinion from group A to I or from B to I and vice versa. This implies some form of “social temperature”.
The Model: Undecided Agents
The different process we are going to consider are:
Convincing rules:
Spontaneous changes
The Model: Undecided Agents
The Master Equation looks as
The Model: Undecided Agents
According to the method, the original variables and
transforms into
As indicated before, we should introduce the new variables
into the Master Equation.
Macroscopic and Fokker-Planck Equation
Collecting terms corresponding to the different orders in
we obtain, for the macroscopic equations (order )
Asymptotically, this set of eqs. has only one solution (or
attractor)
Macroscopic and Fokker-Planck Equation
The following order ( ) give us a Fokker-Planck equation
for the pdf of
fluctuations
and
Macroscopic and Fokker-Planck Equation
Using the Fokker-Planck equation we can obtain information
about the dynamics of fluctuations.
We define mean values and correlations as
Macroscopic and Fokker-Planck Equation
Using the Fokker-Planck equation we can obtain information
about the dynamics of fluctuations.
We define mean values and correlations as
As the FPE is linear (Ornstein-Uhlenbeck-like) this is all the
information we need to completely define the pdf
Macroscopic and Fokker-Planck Equation
We use as our reference state the symmetric case
Macroscopic and Fokker-Planck Equation
Similar eqs. for the mean values of fluctuations, while for the
correlations
Some results:
Some results considering the symmetric case as well as some
departures from it
Some results:
Some results:
Some results:
Some results:
Some results:
The approach also allows to obtain information about the
relaxation time around the stationary state.
For the symmetric case we have
Inclusion of “Fanatics”
Inclusion of “fanatics” (or inflexible agents) transform our
variables according to
and
Inclusion of “Fanatics”
Inclusion of “fanatics” (or inflexible agents) transform our
variables according to
and
Without details, for the macoscopic equations we obtain
Inclusion of “Fanatics”
Other Cases
Another possibilities we are exploring regards some financial aspects related with the “herding effect”, and the “stylized facts” in finance, and also with lenguage competition. In particular we are analyzing a model discussed by Alfano & Milakovic (2007), Lux (2006), Pietronero et al. (2008). Such a model can be mapped into our scheme, if some kind of intermediate agents (in addition to bullish & bearish, fundamentalists & chartists, buyers & sellers, etc) is included. The point here is to reinterpret the results in terms, or the lenguage, adequate to the new context. Oscillatory behaviour in a single realization (McKane & Newman, Risau-Guzman & Abramson, etc).
Failure and extension of the -expansion
The inclusion of the intermediate group avoids a problem that could occur within the van Kampen’s approach: the case when the macroscopic contribution is multivalued. Without such an intermediate group it could happen that
there is more than one solution for the macroscopic equation, a fact associated to the breaking of the stability condition, that occurs when
Failure and extension of the -expansion
The inclusion of the intermediate group avoids a problem that could occur within the van Kampen’s approach: the case when the macroscopic contribution is multivalued. Without such an intermediate group it could happen that
there is more than one solution for the macroscopic equation, a fact associated to the breaking of the stability condition, that occurs when
Failure and extension of the -expansion
The inclusion of the intermediate group avoids a problem that could occur within the van Kampen’s approach: the case when the macroscopic contribution is multivalued. Without such an intermediate group it could happen that there is more than one solution for the macroscopic equation, a fact associated to the breaking of the stability condition, that occurs when
Problem: if the deterministic eq. is zero, as well as several of its derivatives. However, it is possible to overcome this drawback: after a transient, the highest order (macroscopic) doesn’t exists. The following order, indicating a time scale slower than before by a factor , and leads us to a Fokker- Planck eq. for the pdf of fluctuations.
Failure and extension of the -expansion
The possibility of spatial extension could be also included: dividing the system into cells, and defining a space (or cell) dependent pdf as
Failure and extension of the -expansion
The possibility of spatial extension could be also included: dividing the system into cells, and defining a space (or cell) dependent pdf as
The analysis of these and other related situations is possible, and is currently under way.
Conclusions
Conclusions
The -expansion is a versatile and powerful method of analysis.
Conclusions
The -expansion is a versatile and powerful method of analysis. It offers the possibility of obtainig, in a clear, unambiguous, and controlable way, not only the macroscopic eq. but also the dynamics of fluctuations.
Conclusions
The -expansion is a versatile and powerful method of analysis. It offers the possibility of obtainig, in a clear, unambiguous, and controlable way, not only the macroscopic eq. but also the dynamics of fluctuations. It also offers the possibility of studying (analitically) several of the models that have been recently discussed in the literature, gaining insight into the model dynamics, and complementing numerical simulations.
Conclusions
The -expansion is a versatile and powerful method of analysis. It offers the possibility of obtainig, in a clear, unambiguous, and controlable way, not only the macroscopic eq. but also the dynamics of fluctuations. It also offers the possibility of studying (analitically) several of the models that have been recently discussed in the literature, gaining insight into the model dynamics, and complementing numerical simulations. It is a method worth to be exploited in the research area of socio- and econophysics.
Thanks for your attention!