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Transportation Science and theDynamics of
Critical Infrastructure Networks
Anna NagurneyJohn F. Smith Memorial ProfessorIsenberg School of Management
University of Massachusetts - Amherst
Civil and Environmental Engineering SeminarDecember 7, 2006
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Funding for our research has been provided by:
National Science Foundation
AT&T Foundation
John F. Smith Memorial Fund -University of Massachusetts atAmherst
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Outline of Presentation:
• Background• Brief History of the Science of Networks• Interdisciplinary Impact of Networks• The Braess Paradox• Methodological Tools• Some Interesting Critical Infrastructure Networks• The Time-Dependent (Demand-Varying) Braess Paradox• A New Network Performance/Efficiency Measure with
Applications to Critical Infrastructure Networks• New Challenges and Opportunities: Unification of Evolutionary
Variational Inequalities and Projected Dynamical Systems
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Components of Common PhysicalNetworks
Network System Nodes Links Flows
Transportation Intersections,Homes,Workplaces,Airports,Railyards
Roads,Airline Routes,Railroad Track
Automobiles,Trains, andPlanes,
Manufacturingand logistics
Workstations,DistributionPoints
Processing,Shipment
Components,Finished Goods
Communication Computers,Satellites,TelephoneExchanges
Fiber OpticCablesRadio Links
Voice,Data,Video
Energy PumpingStations,Plants
Pipelines,TransmissionLines
Water,Gas, Oil,Electricity
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US Railroad Freight Flows
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Internet Traffic Flows Over One 2Hour Period
from Stephen Eick, Visual Insights
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Electricity is Modernity
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The scientific study of networksinvolves:
• how to model such applications asmathematical entities,
• how to study the models qualitatively,
• how to design algorithms to solve theresulting models.
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The basic components ofnetworks are:
• Nodes
• Links or arcs
• Flows
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Nodes Links Flows
12 13 14 15
7 9
3
16
4
1817 19 20
8
1 2
6
5
10
11
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Brief History of the Science of Networks
1736 - Euler - the earliest paper on graph theory -Konigsberg bridges problem.
1758 - Quesnay in his Tableau Economiqueintroduced a graph to depict the circular flow offinancial funds in an economy.
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1781 - Monge, who had worked under NapoleonBonaparte, publishes what is probably the first paperon transportation in minimizing cost.
1838 - Cournot states that a competitive price isdetermined by the intersection of supply and demandcurves in the context of spatially separate markets inwhich transportation costs are included.
1841 - Kohl considered a two node, two routetransportation network problem.
1845 - Kirchhoff wrote Laws of Closed Electric Circuits.
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1920 - Pigou studied a transportation network system of tworoutes and noted that the decision-making behavior of theusers on the network would result in different flow patterns.
1936 - Konig published the first book on graph theory.
1939, 1941, 1947 - Kantorovich, Hitchcock, and Koopmansconsidered the network flow problem associated with theclassical minimum cost transportation problem and providedinsights into the special network structure of these problems,which yielded special-purpose algorithms.
1948, 1951 - Dantzig published the simplex method for linearprogramming and adapted it for the classical transportationproblem.
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1951 - Enke showed that spatial price equilibriumproblems can be solved using electronic circuits
1952 - Copeland in his book asked, Does money flowlike water or electricity?
1952 - Samuelson gave a rigorous mathematicalformulation of spatial price equilibrium andemphasized the network structure.
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1956 - Beckmann, McGuire, and Winsten in theirbook, Studies in the Economics of Transportation,provided a rigorous treatment of congested urbantransportation systems under different behavioralmechanisms due to Wardrop (1952).
1962 - Ford and Fulkerson publish Flows inNetworks.
1969 - Dafermos and Sparrow coined the terms user-optimization and system-optimization and developalgorithms for the computation of solutions thatexploit the network structure of transportationproblems.
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NetworksNetworks
management science/management science/operations researchoperations research
engineering/engineering/physicsphysics
appliedappliedmathematicsmathematics
computercomputersciencescience
publicpublicpolicypolicy biologybiology
economicseconomicsand financeand finance
Networks in Different Disciplines
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Interdisciplinary Impactof Networks
Networks
Energy
Manufacturing
Telecommunications
Transportation
Interregional Trade
General Equilibrium
Industrial Organization
Portfolio Optimization
Flow of FundsAccounting
Engineering
Computer Science
Routing Algorithms
Economics
Biology
DNA Sequencing
Targeted CancerTherapy
Sociology
Social Networks
OrganizationalTheory
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Characteristics of Networks Today
• large-scale nature and complexity of networktopology;
• congestion;• alternative behavior of users of the network, which
may lead to paradoxical phenomena;• the interactions among networks themselves such as
in transportation versus telecommunications;• policies surrounding networks today may have a
major impact not only economically but also socially,politically, and security-wise.
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• alternative behaviors of the users of thenetwork
– system-optimized versus
– user-optimized (network equilibrium),
which may lead to
paradoxical phenomena.
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Transportation science has historically been thediscipline that has pushed the frontiers interms of methodological developments forsuch problems (which are often large-scale)beginning with the work of Beckmann,McGuire, and Winsten (1956).
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The Braess (1968) ParadoxAssume a network with a singleO/D pair (1,4). There are 2paths available to travelers:p1=(a,c) and p2=(b,d).For a travel demand of 6, theequilibrium path flows are xp1
*
= xp2* = 3 and
The equilibrium path travel costisCp1
= Cp2= 83.
32
1
4
a
c
b
d
ca(fa)=10 fa cb(fb) = fb+50
cc(fc) = fc+50 cd(fd) = 10 fd
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Adding a LinkIncreases Travel Cost for All!
Adding a new link creates a new pathp3=(a,e,d).The original flow distribution pattern isno longer an equilibrium pattern, sinceat this level of flow the cost on path p3,Cp3=70.The new equilibrium flow patternnetwork is xp1
* = xp2* = xp3
*=2.The equilibrium path travel costs: Cp1 =Cp2 = Cp3
= 92.
32
1
4
a
c
b
d
e
ce(fe) = fe + 10
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The 1968 Braess article has been translated fromGerman to English and appears as
On a Paradox of Traffic Planning
by Braess, Nagurney, Wakolbinger
in the November 2005 issue of TransportationScience.
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The tools that we are using in ourDynamic Network research include:
• network theory• optimization theory• game theory• variational inequality theory• evolutionary variational inequality theory• projected dynamical systems theory• double-layered dynamics theory• network visualization tools.
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Dafermos (1980) showed that the transportationnetwork equilibrium (also referred to as user-optimization) conditions as formulated by Smith(1979) were a finite-dimensional variationalinequality.
In 1993, Dupuis and Nagurney proved that the set ofsolutions to a variational inequality problemcoincided with the set of solutions to a projecteddynamical system (PDS) in Rn.
In 1996, Nagurney and Zhang published ProjectedDynamical Systems and VariationalInequalities.
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VI Formulation of TransportationNetwork Equilibrium (Dafermos (1980),
Smith (1979))
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x0
A Geometric Interpretation of a Variational Inequalityand a
Projected Dynamical System (Dupuis and Nagurney(1993), Nagurney and Zhang (1996))
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Some Interesting Applications
• Telecommuting/Commuting Decision-Making• Teleshopping/Shopping Decision-Making• Supply Chain Networks with Electronic Commerce• Financial Networks with Electronic Transactions• Reverse Supply Chains with E-Cycling• Knowledge Networks• Energy Networks/Power Grids• Social Networks integrated with Economic
Networks
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Nagurney, Ke, Cruz, Hancock, Southworth, Environment and Planning B (2002)
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The Electric Power Supply Chain Network
Nagurney and Matsypura, Proceedings of the CCCT (2004)
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The Equivalence of Supply Chain Networksand Transportation Networks
Nagurney, Transportation Research E (2006)
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Copeland (1952) wondered whether moneyflows like water or electricity.
Liu and Nagurney have shown that moneyand electricity flow like transportationnetwork flows (Computational ManagementScience (2006)).
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The Transportation Network EquilibriumReformulation of the Financial NetworkEquilibrium Model with Intermediation
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The fifth chapter of Beckmann, McGuire, and Winsten’sbook, Studies in the Economics of Transportation(1956) describes some unsolved problems includinga single commodity network equilibrium problem thatthe authors imply could be generalized to captureelectric power networks.
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The Transportation Network EquilibriumReformulation of Electric Power Supply Chain
Networks
Electric Power Supply TransportationChain Network Network
Nagurney et al, to appear in Transportation Research E
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We have, hence, shown that money as well aselectricity flow like transportation and haveanswered questions posed fifty years ago byCopeland and Beckmann, McGuire, andWinsten, respectively.
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We are using evolutionary variational inequalities tomodel dynamic networks with:
• dynamic (time-dependent) supplies and demands
• dynamic (time-dependent) capacities
• structural changes in the networks themselves.
Such issues are important for robustness, resiliency,and reliability of networks (including supply chainsand the Internet).
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What happens if the demand is varied inthe Braess Network?
The answer lies in the solution of anEvolutionary (Time-Dependent)Variational Inequality.
Nagurney, Parkes, and Daniele, Computational Management Science (2006)
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Recall the Braess Networkwhere we add the link e. 32
1
4
a
c
b
d
e
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0
5
10
0 10 20Demand(t) = t
Equi
libriu
m P
ath
Flow
Paths 1 and 2Path 3
I II III
The Solution of an Evolutionary (Time-Dependent) Variational Inequality
for the Braess Network with Added Link (Path)
3.64 8.88
Braess Network withTime-DependentDemands
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In Demand Regime I, only the new path is used.In Demand Regime II, the Addition of a New Link (Path) Makes EveryoneWorse Off!In Demand Regime III, only the original paths are used.
0
40
80
120
160
0 5 10 15 20
Demand
Cos
t of U
sed
Path
s
Network 1
Network 2
I II III
Network 1 is the Original Braess Network - Network 2 has the added link.
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The new link is NEVER used after acertain demand is reached even if thedemand approaches infinity.
Hence, in general, except for a limitedrange of demand, building the new linkis a complete waste!
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• Recent disasters have demonstrated theimportance as well as the vulnerability ofcritical infrastructure networks.
• For example:– Hurricane Katrina, August 23, 2005– The biggest blackout in North America,
August 14, 2003– 9/11 Terrorist Attacks, September 11, 2001
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An Urgent Need for a NetworkEfficiency/Performance Measure
In order to be able to assess theperformance/efficiency of a network, it isimperative that appropriate measures be devised.
Appropriate network measures can assist in theidentification of the importance of networkcomponents, that is, nodes and links, and theirrankings. Such rankings can be very helpful in thecase of the determination of network vulnerabilitiesas well as when to reinforce/enhance security.
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The Network Efficiency Measureof Latora and Marchiori (2001)
• Latora and Marchiori (2001) proposed anetwork efficiency measure (the L-Mmeasure) as follows:
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The Network Efficiency Measureof Nagurney and Qiang (2006)
• Nagurney and Qiang (2006) proposed a networkefficiency measure (the N-Q measure) whichcaptures the demand and flow information underthe network equilibrium. It is defined as follows:
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Importance of a Network Component
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The Approach to Study the Importance ofNetwork Components
The elimination of a link is treated in the N-Qmeasure by removing that link while theremoval of a node is managed by removingthe links entering and exiting that node. In thecase that the removal results in no pathconnecting an O/D pair, we simply assign thedemand for that O/D pair to an abstract pathwith a cost of infinity.
Hence, our measure is well-defined even in thecase of disconnected networks.
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The L-M Measurevs.
the N-Q Measure
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Application I: the Braess (1968) Network
Assume a network with a single O/Dpair (1,4). There are 2 pathsavailable to travelers: p1=(a,c) andp2=(b,d).For a travel demand of 6, theequilibrium path flows are xp1
*=xp2
*=3.The equilibrium path travel cost isCp1=Cp2=83.
1
2 3
4
a b
c d
ca(fa)=10fa cb(fb)= fb+50
cc(fc)=fc+50 cd(fd)= 10fd
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Adding a Link Increases Travel Cost for All!
Adding a new link creates a new pathp3=(a,e,d).The original flow distribution pattern isno longer an equilibrium pattern, since atthis level of flow, the cost on path p3,Cp3=70.The new equilibrium flow patternnetwork is xp1
*= xp2*= xp3
*= 2.The equilibrium path travel cost isCp1=Cp2= Cp3= 92.
1
2 3
4
a b
c d
e
ce(fe)= fe+10
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Four Demand Ranges
• Demand Range I: dw∊[0, 80/31)– Only p1 and p2 are used and the Braess Paradox does not
occur
• Demand Range II: dw∊ [80/31,40/11]– Only p1 and p2 are used and the Braess Paradox occurs
• Demand Range III: dw∊ (40/11,80/9]– All paths are used and the Braess Paradox still occurs
• Demand Range IV: dw∊ (80/9, ∞ )– Only p1 and p2 are used and the Braess Paradox vanishes
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Importance and Ranking of Links andNodes in Demand Range I
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Importance and Ranking of Links andNodes in Demand Range II
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Importance and Ranking of Links andNodes in Demand Range III
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Importance and Ranking of Links andNodes in Demand Range IV
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Importance Ranking of Links in the Braess Network
0
1
2
3
4
a b c d e
Link
Ran
king
Importance Ranking inDemand Range IImportance Ranking inDemand Range IIImportance Ranking inDemand Range IIIImportance Ranking inDemand Range IV
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Importance Ranking of Nodes in the Braess Network
0
1
2
3
1 2 3 4
Node
Ran
king
Importance Ranking inDemand Range IImportance Ranking inDemand Range IIImportance Ranking inDemand Range IIIImportance Ranking inDemand Range IV
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Discussion
Links b and c are less important inDemand Range I than Demand RangeII, III and IV because they carry zeroflow in Demand Range I
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Application II: the “Coupled” BraessNetwork
1
2
3
4
a
bc
d
e
6
5
7
h
g
k
lm
dw1=2 dw2=6
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Importance and Ranking of Links
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Importance Ranking of Links in the Coupled Braess Network
0
1
2
3
4
5
6
7
a b c d e g h k l m
Link
Ran
king
ImportanceRanking ofLinks from theN-Q MeasureImportanceRanking ofLinks from theL-M Measure
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Importance and Ranking of Nodes
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Importance Ranking of Nodes in the Coupled Braess Network
0
1
23
4
5
6
1 2 3 4 5 6 7
Node
Ran
king
ImportanceRanking from theN-Q MeasureImportanceRanking from theL-M Measure
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Discussion
• Links l and g are the most important linksfrom the N-Q measure while they are only inthird place from the L-M measure becausethey carry a larger amount of flow.
• Links a and d are the most important linksfrom the L-M measure while they are only inthird place from the N-Q measure becausethey carry a less amount of flow.
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Application III: An Electric Power SupplyChain Network
Nagurney and Liu (2006) and Nagurney,Liu, Cojocaru and Daniele (2005) haveshown that an electric power supplychain network can be transformed intoan equivalent transportation networkproblem.
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Supernetwork Transformation
Example 1 from Nagurney, Liu, Cojocaru and Daniele, TRE (2005)
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Five Demand Ranges
• Demand Range I: dw∊ [0, 1]• Demand Range II: dw∊ (1,4/3]• Demand Range III: dw∊ (4/3,7/3]• Demand Range IV: dw∊ (7/3, 11/3]• Demand Range V: dw∊ (11/3, ∞ )
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Importance and Ranking of Links andNodes in Demand Range I
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Importance and Ranking of Links andNodes in Demand Range II
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Importance and Ranking of Links andNodes in Demand Range III
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Importance and Ranking of Links andNodes in Demand Range IV
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Importance and Ranking of Links andNodes in Demand Range V
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Importance Ranking of Links in the Electric Power Supply Chain
Network
0
1
2
3
4
a b c d e f
Link
Ran
king
Importance Ranking inDemand Range IImportance Ranking inDemand Range IIImportance Ranking inDemand Range IIIImportance Ranking inDemand Range IVImportance Ranking inDemand Range V
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Importance Ranking of Nodes in the Electric Power Supply Chain
Network
0
1
2
3
4
Power
Gen
erato
r 1Pow
er S
uppli
er 1
Power
Sup
plier
2Pow
er S
uppli
er 3
Deman
d Mar
ket 1
Node
Ran
king
Importance Ranking inDemand Range IImportance Ranking inDemand Range IIImportance Ranking inDemand Range IIIImportance Ranking inDemand Range IVImportance Ranking inDemand Range V
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Discussion
Links a and d are the most important linksand power supplier 1 is ranked thesecond due to the fact that path p1,which consists of links a and d andpower supplier 1 carry the largestamount of flow.
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New Challengesand Opportunities: TheUnification of EVIs and
PDSs
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Bellagio ResearchTeam Residency
March 2004
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Double-Layered Dynamics
The unification of EVIs and PDSs allows themodeling of dynamic networks over different timescales.
Papers:Projected Dynamical Systems and Evolutionary Variational Inequalities
via Hilbert Spaces with Applications (Cojocaru, Daniele, and Nagurney),Journal of Optimization Theory and Applications, vol. 127, no. 3, pp. 1-15, December 2005.
Double-Layered Dynamics: A Unified Theory of Projected DynamicalSystems and Evolutionary Variational Inequalities (Cojocaru, Daniele,and Nagurney), European Journal of Operational Research, in press.
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A Pictorial of theDouble-Layered Dynamics
x(t1)
t=T
t=0
x(t1,0)
x(t2, 0)
x(t2)
x(t1, τ)
x(t2, τ)
PDSt1
PDSt2EVI
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There are new exciting questions, boththeoretical and computational, arising fromthis multiple time structure.
In the course of answering these questions, anew theory is taking shape from the synthesisof PDS and EVI, and, as such, it deserves aname of its own; we call it double-layereddynamics.
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Thank you!
For more information, seehttp://supernet.som.umass.edu
The Virtual Center for Supernetworks