Dynamical system - Knowledge (XXG)

50: 6601: 4956: 6593: 107: 3953:) = 0); or the patches may become smaller and smaller as some point is approached. The more subtle reason is a global constraint, where the trajectory starts out in a patch, and after visiting a series of other patches comes back to the original one. If the next time the orbit loops around phase space in a different way, then it is impossible to rectify the vector field in the whole series of patches. 3703: 4292:. At the bifurcation point the structure may change its stability, split into new structures, or merge with other structures. By using Taylor series approximations of the maps and an understanding of the differences that may be eliminated by a change of coordinates, it is possible to catalog the bifurcations of dynamical systems. 3695: ≠ 0 will change exponentially in most cases, either converging exponentially fast towards a point, or diverging exponentially fast. Linear systems display sensitive dependence on initial conditions in the case of divergence. For nonlinear systems this is one of the (necessary but not sufficient) conditions for 3133: 2582:) shows that for a large class of systems it is always possible to construct a measure so as to make the evolution rule of the dynamical system a measure-preserving transformation. In the construction a given measure of the state space is summed for all future points of a trajectory, assuring the invariance. 4373:

In many dynamical systems, it is possible to choose the coordinates of the system so that the volume (really a ν-dimensional volume) in phase space is invariant. This happens for mechanical systems derived from Newton's laws as long as the coordinates are the position and the momentum and the volume

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The measure theoretical definition assumes the existence of a measure-preserving transformation. Many different invariant measures can be associated to any one evolution rule. If the dynamical system is given by a system of differential equations the appropriate measure must be determined. This makes

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as the founder of dynamical systems. Poincaré published two now classical monographs, "New Methods of Celestial Mechanics" (1892–1899) and "Lectures on Celestial Mechanics" (1905–1910). In them, he successfully applied the results of their research to the problem of the motion of three bodies and

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The type of trajectory may be more important than one particular trajectory. Some trajectories may be periodic, whereas others may wander through many different states of the system. Applications often require enumerating these classes or maintaining the system within one class. Classifying all

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For non-linear autonomous ODEs it is possible under some conditions to develop solutions of finite duration, meaning here that from its own dynamics, the system will reach the value zero at an ending time and stays there in zero forever after. These finite-duration solutions cannot be analytical

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is a loop in phase space and smooth deformations of the phase space cannot alter it being a loop. It is in the neighborhood of singular points and periodic orbits that the structure of a phase space of a dynamical system can be well understood. In the qualitative study of dynamical systems, the

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The systems studied may only be known approximately—the parameters of the system may not be known precisely or terms may be missing from the equations. The approximations used bring into question the validity or relevance of numerical solutions. To address these questions several notions of

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In a Hamiltonian system, not all possible configurations of position and momentum can be reached from an initial condition. Because of energy conservation, only the states with the same energy as the initial condition are accessible. The states with the same energy form an energy shell Ω, a

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it difficult to develop ergodic theory starting from differential equations, so it becomes convenient to have a dynamical systems-motivated definition within ergodic theory that side-steps the choice of measure and assumes the choice has been made. A simple construction (sometimes called the

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This is known as the conjugation equation. Finding conditions for this equation to hold has been one of the major tasks of research in dynamical systems. Poincaré first approached it assuming all functions to be analytic and in the process discovered the non-resonant condition. If

355:, finding an orbit required sophisticated mathematical techniques and could be accomplished only for a small class of dynamical systems. Numerical methods implemented on electronic computing machines have simplified the task of determining the orbits of a dynamical system. 4645:

it becomes possible to classify the ergodic properties of Φ. In using the Koopman approach of considering the action of the flow on an observable function, the finite-dimensional nonlinear problem involving Φ gets mapped into an infinite-dimensional linear problem

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deals with the long-term qualitative behavior of dynamical systems. Here, the focus is not on finding precise solutions to the equations defining the dynamical system (which is often hopeless), but rather to answer questions like "Will the system settle down to a

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are precisely defined dynamical systems that exhibit the properties ascribed to chaotic systems. In hyperbolic systems the tangent space perpendicular to a trajectory can be well separated into two parts: one with the points that converge towards the orbit (the

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Simple nonlinear dynamical systems and even piecewise linear systems can exhibit a completely unpredictable behavior, which might seem to be random, despite the fact that they are fundamentally deterministic. This seemingly unpredictable behavior has been called

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is a function that to each point of the phase space associates a number (say instantaneous pressure, or average height). The value of an observable can be computed at another time by using the evolution function φ. This introduces an operator

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developed many important approximation methods. His methods, which he developed in 1899, make it possible to define the stability of sets of ordinary differential equations. He created the modern theory of the stability of a dynamical system.

4942: 316:. There, as in other natural sciences and engineering disciplines, the evolution rule of dynamical systems is an implicit relation that gives the state of the system for only a short time into the future. (The relation is either a 3833:. The solutions for the map are no longer curves, but points that hop in the phase space. The orbits are organized in curves, or fibers, which are collections of points that map into themselves under the action of the map. 2695: 402:

The trajectories of the system may appear erratic, as if random. In these cases it may be necessary to compute averages using one very long trajectory or many different trajectories. The averages are well defined for

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In general, in the neighborhood of a periodic orbit the rectification theorem cannot be used. Poincaré developed an approach that transforms the analysis near a periodic orbit to the analysis of a map. Pick a point

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For simple dynamical systems, knowing the trajectory is often sufficient, but most dynamical systems are too complicated to be understood in terms of individual trajectories. The difficulties arise because:

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involving time derivatives". In order to make a prediction about the system's future behavior, an analytical solution of such equations or their integration over time through computer simulation is realized.

4832: 4462: 1810: 2751: 372:. The stability of the dynamical system implies that there is a class of models or initial conditions for which the trajectories would be equivalent. The operation for comparing orbits to establish their 1580: 2219:

Dynamical systems are usually defined over a single independent variable, thought of as time. A more general class of systems are defined over multiple independent variables and are therefore called

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is central to the theory of dynamical systems as seen in the previous sections: the basic reason for this fact is that the starting motivation of the theory was the study of time behavior of

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the dynamics of a point in a small patch is a straight line. The patch can sometimes be enlarged by stitching several patches together, and when this works out in the whole phase space

1151: 4471:, given a coordinate it is possible to derive the appropriate (generalized) momentum such that the associated volume is preserved by the flow. The volume is said to be computed by the 3559: 2786: 733: 4237:. Small changes in the vector field will only produce small changes in the Poincaré map and these small changes will reflect in small changes in the position of the eigenvalues of 3461: 1908: 1477: 771: 5020: 3786: 1679: 5362: 3128:{\displaystyle {\dot {\boldsymbol {x}}}-{\boldsymbol {v}}(t,{\boldsymbol {x}})=0\qquad \Leftrightarrow \qquad {\mathfrak {G}}\left(t,\Phi (t,{\boldsymbol {x}}_{0})\right)=0} 1976: 1940: 1858: 1834: 4266:

it is derived from) depends on a parameter μ, the structure of the phase space will also depend on this parameter. Small changes may produce no qualitative changes in the

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functions on the whole real line, and because they are non-Lipschitz functions at their ending time, they are not unique solutions of Lipschitz differential equations.

328:.) To determine the state for all future times requires iterating the relation many times—each advancing time a small step. The iteration procedure is referred to as 5725: 4726:

has been known for years to involve complex—even chaotic—behavior. Chaos theory has been so surprising because chaos can be found within almost trivial systems. The

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where the qualitative behavior of the dynamical system changes. For example, it may go from having only periodic motions to apparently erratic behavior, as in the

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The qualitative properties of dynamical systems do not change under a smooth change of coordinates (this is sometimes taken as a definition of qualitative): a

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The behavior of trajectories as a function of a parameter may be what is needed for an application. As a parameter is varied, the dynamical systems may have

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is a set of functions from an integer lattice (again, with one or more dimensions) to a finite set, and Φ a (locally defined) evolution function. As such

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Linear dynamical systems can be solved in terms of simple functions and the behavior of all orbits classified. In a linear system the phase space is the

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In the late 20th century the dynamical system perspective to partial differential equations started gaining popularity. Palestinian mechanical engineer

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approach is to show that there is a change of coordinates (usually unspecified, but computable) that makes the dynamical system as simple as possible.

2646: 336:. If the system can be solved, then, given an initial point, it is possible to determine all its future positions, a collection of points known as a 4245: 2616:

of the dynamical system; they behave physically under small perturbations; and they explain many of the observed statistics of hyperbolic systems.

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are studied. For continuous dynamical systems, the map Φ is understood to be a finite time evolution map and the construction is more complicated.

6600: 6360: 4665:. This idea has been generalized by Sinai, Bowen, and Ruelle (SRB) to a larger class of dynamical systems that includes dissipative systems. 4336:

on the unit circle. For a flow, it will occur when there are eigenvalues on the imaginary axis. For more information, see the main article on

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and the invariant measures must be singular with respect to the Lebesgue measure. A small region of phase space shrinks under time evolution.

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possible trajectories has led to the qualitative study of dynamical systems, that is, properties that do not change under coordinate changes.

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gives the conditions for the existence of a continuous function that maps the neighborhood of the fixed point of the map to the linear map

6553: 4472: 2586: 71: 3141: 2935: 2609: 6500: 5386: 2304: 437:, which states that certain systems will, after a sufficiently long but finite time, return to a state very close to the initial state. 6833: 4513:

One of the questions raised by Boltzmann's work was the possible equality between time averages and space averages, what he called the

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is reached. At this point the phase space changes qualitatively and the dynamical system is said to have gone through a bifurcation.

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sub-manifold of the phase space. The volume of the energy shell, computed using the Liouville measure, is preserved under evolution.

4388: 2268:. Although we lose the differential structure of the original system we can now use compactness arguments to analyze the new system ( 1769: 385: 7068: 5543: 5472: 5314: 2701: 498: 93: 5306: 3945:. In most cases the patch cannot be extended to the entire phase space. There may be singular points in the vector field (where 2593:, chosen over other invariant measures, such as the measures supported on periodic orbits of the Hamiltonian system. For chaotic 452: 6750: 4752: 3926:

where the vector field becomes a series of parallel vectors of the same magnitude. This is known as the rectification theorem.

1510: 5000: 4021:. Not all these points will take the same amount of time to come back, but the times will be close to the time it takes 225:

of the dynamical system is a function that describes what future states follow from the current state. Often the function is

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Gintautas, V.; et al. (2008). "Resonant forcing of select degrees of freedom of multidimensional chaotic map dynamics".

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they will be resonant if one eigenvalue is an integer linear combination of two or more of the others. As terms of the form

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that jumpstarted significant research in dynamical systems. He also outlined a research program carried out by many others.

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is the domain for time – there are many choices, usually the reals or the integers, possibly restricted to be non-negative.

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does not need to have any special symmetries, its eigenvalues will typically be complex numbers. When the eigenvalues of

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the position vector. The solution to this system can be found by using the superposition principle (linearity). The case

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The solution can be found using standard ODE techniques and is denoted as the evolution function already introduced above

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systems. His pioneering work in applied nonlinear dynamics has been influential in the construction and maintenance of

6100: 4356: 2051: 229:, that is, for a given time interval only one future state follows from the current state. However, some systems are 6828: 433:

studied in detail the behavior of solutions (frequency, stability, asymptotic, and so on). These papers included the

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and a series of other ergodic-like properties were introduced to capture the relevant aspects of physical systems.

7167: 6353: 4559: 3724: 3596: 3579: = 0, then the orbit remains there. For other initial conditions, the equation of motion is given by the 3362:) satisfy the differential equation for the vector field (but not necessarily the initial condition), then so will 3209:

Many of the concepts in dynamical systems can be extended to infinite-dimensional manifolds—those that are locally

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it is possible to determine if an initial point will converge or diverge to the equilibrium point at the origin.

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or can be a more general algebraic object, losing the memory of its physical origin, and the space may be a

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the choice of invariant measure is technically more challenging. The measure needs to be supported on the

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by allowing different choices of the space and how time is measured. Time can be measured by integers, by

131: 4329:) computed at the bifurcation point. For a map, the bifurcation will occur when there are eigenvalues of 1883: 1434: 738: 6998: 6905: 6703: 6530: 6465: 6440: 6346: 6174: 4691: 4658: 4654: 4529: 4468: 3720: 3395: 3271: 3008: 2637: 2511:

The map Φ embodies the time evolution of the dynamical system. Thus, for discrete dynamical systems the

2358: 1755: 482: 448: 412: 408: 317: 245: 6760: 3733: 3286: 411:. Understanding the probabilistic aspects of dynamical systems has helped establish the foundations of 6276: 4031:

The intersection of the periodic orbit with the Poincaré section is a fixed point of the Poincaré map

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in the orbit γ and consider the points in phase space in that neighborhood that are perpendicular to

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The results on the existence of a solution to the conjugation equation depend on the eigenvalues of

1957: 1921: 1839: 1815: 6968: 6925: 6910: 6755: 6708: 6693: 6678: 6578: 6510: 6485: 6470: 6455: 6316: 4970: 4653:

The Liouville measure restricted to the energy surface Ω is the basis for the averages computed in

4537: 4352: 3981: 3281: 3242: 3227: 2629: 2374: 2075: 2047: 1600: 325: 321: 313: 167: 6225: 4937:{\displaystyle y(x)={\frac {1}{4}}\left(1-{\frac {x}{2}}+\left|1-{\frac {x}{2}}\right|\right)^{2}} 795: 7146: 7013: 6843: 6730: 6725: 6617: 6495: 6397: 6303: 5719: 5519: 5443: 5258: 5200: 5174: 4657:. An average in time along a trajectory is equivalent to an average in space computed with the 4528:

The ergodic hypothesis turned out not to be the essential property needed for the development of

4514: 4337: 4257: 3580: 3387: 2594: 2590: 2088: 2003: 1167: 525: 474: 456: 440: 392: 365: 289: 244:

is described as a "particle or ensemble of particles whose state varies over time and thus obeys

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More commonly there are two classes of definitions for a dynamical system: one is motivated by

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is measured in units of (position) × (momentum). The flow takes points of a subset

4348: 3820: 3338:-dimensional Euclidean space, so any point in phase space can be represented by a vector with 2512: 2334: 2251: 2200: 617: 509:

in 1964. One of the implications of the theorem is that if a discrete dynamical system on the

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Nonlinear dynamics and chaos: with applications to physics, biology chemistry and engineering

4169:– Σ (multiples of other eigenvalues) occurs in the denominator of the terms for the function 3851:, with a real eigenvalue smaller than one, then the straight lines given by the points along 7126: 7038: 6988: 6885: 6813: 6765: 6642: 6622: 6417: 5599: 5435: 5300: 5192: 5139: 4980: 4507: 3296: 2602: 2292: 2224: 1695: 1587: 1491: 1240: 1207: 344: 202: 147: 139: 111: 4343:

Some bifurcations can lead to very complicated structures in phase space. For example, the

3870:, is an invariant curve of the map. Points in this straight line run into the fixed point. 7058: 6953: 6880: 6713: 6525: 6515: 6320: 6307: 6190: 5992: 5618: 5460: 5025: 4975: 4533: 3266: 2613: 2248: 2244: 2192: 2184: 1996: 549: 466: 163: 7048: 6993: 5363:

Dynamical systems on monoids: Toward a general theory of deterministic systems and motion

4517:. The hypothesis states that the length of time a typical trajectory spends in a region 3999: 3572: ≠ 0 the origin is an equilibrium (or singular) point of the flow, that is, if 30:

This article is about the general aspects of dynamical systems. For the study field, see

5188: 5135: 7141: 7108: 7103: 7098: 6900: 6790: 6785: 6683: 6632: 6548: 6422: 5765: 5653: 5623: 5566:

Dynamics Beyond Uniform Hyperbolicity: A Global Geometric and Probabilistic Perspective

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Holmes, Philip. "Poincaré, celestial mechanics, dynamical-systems theory and "chaos"."

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This equation is useful when modeling mechanical systems with complicated constraints.

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appear to be the natural choice. They are constructed on the geometrical structure of

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A dynamical system may be defined formally as a measure-preserving transformation of a

1915: 1751: 569: 514: 478: 465:. Birkhoff's most durable result has been his 1931 discovery of what is now called the 404: 183: 175: 159: 6216:. George D. Birkhoff's 1927 book already takes a modern approach to dynamical systems. 461: 388:

are examples of dynamical systems where the possible classes of orbits are understood.

7161: 7136: 7093: 7083: 7078: 6978: 6958: 6818: 6740: 6637: 6445: 6235: 6231: 6213: 6074: 6018: 6014: 5812: 5808: 5583: 4731: 4503: 2858:

There is no need for higher order derivatives in the equation, nor for the parameter

2848: 2350: 2346: 2310: 2288: 2114: 2039: 2020: 521: 492: 488: 301: 293: 143: 115: 5604: 5587: 5447: 4669:

replace the Boltzmann factor and they are defined on attractors of chaotic systems.

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and when the eigenvalues are on the unit circle and complex, the dynamics is called

3823:, the origin is a fixed point of the map and the solutions are of the linear system 7088: 7053: 6963: 6920: 6775: 6770: 6369: 6259: 6184: 6178: 6120: 6096: 6070: 5674: 5204: 5100: 4727: 4719:?" or "Does the long-term behavior of the system depend on its initial condition?" 4712: 4686: 4678: 4510:'s derivation of the increase in entropy in a dynamical system of colliding atoms. 4263: 3696: 3210: 3011:

shown above gives a more general form of equations a dynamical system must satisfy

2877:

Depending on the properties of this vector field, the mechanical system is called

2820: 2136: 2043: 416: 285: 281: 273: 256:, which has applications to a wide variety of fields such as mathematics, physics, 218: 214: 106: 6735: 3276: 5058:

Nonlinear Dynamics and Chaos: with Applications to Physics, Biology and Chemistry

7073: 7063: 6948: 6698: 6520: 6427: 5644: 5330: 5122:

Melby, P.; et al. (2005). "Dynamics of Self-Adjusting Systems With Noise".

5005: 4723: 4707: 4666: 4310: 4267: 3681: 2874:), because these can be eliminated by considering systems of higher dimensions. 2024: 1288: 565: 561: 533: 265: 179: 123: 6261:, SUNY Stony Brook. Lists of conferences, researchers, and some open problems. 5427: 4482:

For systems where the volume is preserved by the flow, Poincaré discovered the

2690:{\displaystyle {\dot {\boldsymbol {x}}}={\boldsymbol {v}}(t,{\boldsymbol {x}})} 7131: 7028: 6475: 5391:

Methods, models, simulations and approaches towards a general theory of change

5367:

Methods, models, simulations and approaches towards a general theory of change

5196: 4951: 3897:) = 0) will remain a singular point under smooth transformations; a 3673: 3256: 1496: 577: 541: 396: 338: 170:. The most general definition unifies several concepts in mathematics such as 6222:. An introduction to dynamical systems from the periodic orbit point of view. 6193:

provides definitions, explanations and resources related to nonlinear science

3910:

A flow in most small patches of the phase space can be made very simple. If

1942:

into the space of diffeomorphisms of the manifold to itself. In other terms,

7043: 7003: 6745: 6407: 6392: 5439: 4716: 4347:

describes how a periodic orbit bifurcates into a torus and the torus into a

3342:

numbers. The analysis of linear systems is possible because they satisfy a

2598: 2284: 2280: 1864:, i.e. locally a Banach space or Euclidean space, or in the discrete case a 557: 529: 510: 352: 269: 261: 6168: 5151: 3922:) ≠ 0, then there is a change of coordinates for a region around 2636:

must be solved before it becomes a dynamic system. For example consider an

517:

of period 3, then it must have periodic points of every other period.

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determine the structure of the phase space. From the eigenvalues and the

1918:

of the manifold to itself. So, f is a "smooth" mapping of the time-domain

364:

stability have been introduced in the study of dynamical systems, such as

233:, in that random events also affect the evolution of the state variables. 6780: 6171:

has daily submissions of (non-refereed) manuscripts in dynamical systems.

5560:) has a sub-series on dynamical systems with reviews of current research. 4173:, the non-resonant condition is also known as the small divisor problem. 3316: 3203:

from the set of evolution functions to the field of the complex numbers.

2832: 2789: 2132: 2035: 1861: 573: 537: 277: 187: 155: 17: 6203: 5302:

IUTAM Symposium on Exploiting Nonlinear Dynamics for Engineering Systems

2096:

is restricted to the non-negative reals, then the dynamical system is a

6450: 6402: 5821:

Differential Equations, dynamical systems, and an introduction to chaos

2492:

to itself, it is Σ-measurable, and is measure-preserving. The triplet (

2188: 553: 481:, this theorem solved, at least in principle, a fundamental problem of 470: 257: 237: 5484:

Introduction to the Theory of Infinite-Dimensional Dissipative Systems

5143: 2257:, it is often useful to study the continuous extension Φ* of Φ to the 7023: 4280:

Bifurcation theory considers a structure in phase space (typically a

609: 6326: 3192:{\displaystyle {\mathfrak {G}}:{{(T\times M)}^{M}}\to \mathbf {C} } 2986:{\displaystyle {\boldsymbol {x}}(t)=\Phi (t,{\boldsymbol {x}}_{0})} 491:

made significant advances as well. His first contribution was the

6264: 5179: 4285: 3701: 3691:

The distance between two different initial conditions in the case

2836: 593: 545: 210: 105: 6247: 4241:

in the complex plane, implying that the map is still hyperbolic.

2558:{\displaystyle \Phi ^{n}=\Phi \circ \Phi \circ \dots \circ \Phi } 935:{\displaystyle \Phi (t_{2},\Phi (t_{1},x))=\Phi (t_{2}+t_{1},x),} 459:, a result that made him world-famous. In 1927, he published his 5954:

Introduction to Modern Dynamics: Chaos, Networks, Space and Time

3799:

a vector. As in the continuous case, the change of coordinates

3486: = 0 is just a straight line in the direction of 2155:

is restricted to the non-negative integers we call the system a

135: 6342: 6338: 5497:

Infinite-Dimensional Dynamical Systems in Mechanics and Physics

5299:

Rega, Giuseppe (2019). "Tribute to Ali H. Nayfeh (1933–2017)".

4502:

infinitely often. The Poincaré recurrence theorem was used by

4486:: Assume the phase space has a finite Liouville volume and let 4457:{\displaystyle \mathrm {vol} (A)=\mathrm {vol} (\Phi ^{t}(A)).} 4355:

describes how a stable periodic orbit goes through a series of

4288:) and studies its behavior as a function of the parameter 3836:

As in the continuous case, the eigenvalues and eigenvectors of

1805:{\displaystyle \langle {\mathcal {T}},{\mathcal {M}},f\rangle } 1766:

In the geometrical definition, a dynamical system is the tuple

485:. The ergodic theorem has also had repercussions for dynamics. 6270: 6207: 4197:

are not in the unit circle, the dynamics near the fixed point

2746:{\displaystyle {\boldsymbol {x}}|_{t=0}={\boldsymbol {x}}_{0}} 43: 6332: 4699:) and another of the points that diverge from the orbit (the 27:

Mathematical model of the time dependence of a point in space

6297:, Instituto Superior Técnico, Technical University of Lisbon 6253: 5897:

Dynamical Systems with Applications using Mathematica 2nd Ed

5878:

Dynamical Systems with Applications using MATLAB 2nd Edition

1963: 1927: 1895: 1845: 1821: 1788: 1778: 1750:

and is geometrical in flavor; and the other is motivated by

6323:, Institute of Computer Science, Czech Academy of Sciences. 4827:{\displaystyle y'=-{\text{sgn}}(y){\sqrt {|y|}},\,\,y(0)=1} 4641:

By studying the spectral properties of the linear operator

1428:

if we take one of the variables as constant. The function

6310:, IMPA, Instituto Nacional de Matemática Pura e Applicada. 5679:

Elements of Differentiable Dynamics and Bifurcation Theory

5564:

Christian Bonatti; Lorenzo J. Díaz; Marcelo Viana (2005).

4722:

The chaotic behavior of complex systems is not the issue.

1575:{\displaystyle \gamma _{x}\equiv \{\Phi (t,x):t\in I(x)\}} 407:

and a more detailed understanding has been worked out for

5220:

Applications of Dynamical Systems in Biology and Medicine

4494:

a subset of the phase space. Then almost every point of

3840:

determine the structure of phase space. For example, if

2082:

is taken to be the reals, the dynamical system is called

6313: 6294: 6256:. Concentrates on the applications of dynamical systems. 6219: 5124:

Chaos: An Interdisciplinary Journal of Nonlinear Science

5702:

Ergodic theory, symbolic dynamics and hyperbolic spaces

6333:

Center for Control, Dynamical Systems, and Computation

6300: 5859:

Dynamical Systems with Applications using Maple 2nd Ed

5840:

Introduction to the modern theory of dynamical systems

5655:

Geometric theory of dynamical systems: an introduction

5075:

Introduction to the Modern Theory of Dynamical Systems

4536:

approached the study of ergodic systems by the use of

4035:. By a translation, the point can be assumed to be at 3398:

function of the position in the phase space, that is,

2839:

acting on the given material point in the phase space

1266:

of the dynamical system: it associates to every point

6232:

Ordinary Differential Equations and Dynamical Systems

6020:

Ordinary Differential Equations and Dynamical Systems

4846: 4755: 4562: 4391: 4076: 3736: 3599: 3499: 3407: 3144: 3020: 2938: 2843:. The change is not a vector in the phase space 2765: 2704: 2649: 2520: 2474:{\displaystyle \mu (\Phi ^{-1}\sigma )=\mu (\sigma )} 2430: 2383: 2223:. Such systems are useful for modeling, for example, 1960: 1924: 1886: 1842: 1818: 1772: 1698: 1643: 1513: 1437: 1374: 1316: 1210: 1170: 1088: 1021: 951: 840: 798: 741: 688: 632: 312:

The concept of a dynamical system has its origins in

7117: 6934: 6861: 6799: 6669: 6656: 6608: 6539: 6383: 6376: 6187:. Models of bifurcation and chaos by Elmer G. Wiens 6048:

Introduction to Applied Dynamical Systems and Chaos

4715:in the long term, and if so, what are the possible 4248:theorem gives the behavior near an elliptic point. 6279:, Ecole Polytechnique Fédérale de Lausanne (EPFL). 5652: 5622: 5387:Reversible dynamics and the directionality of time 5072: 4936: 4826: 4630: 4456: 4128: 3780: 3657: 3553: 3455: 3191: 3127: 2985: 2780: 2745: 2689: 2557: 2473: 2408: 1970: 1934: 1902: 1852: 1828: 1804: 1739:must be defined for all time for every element of 1719: 1673: 1574: 1471: 1417: 1359: 1231: 1188: 1145: 1074: 1007: 934: 825: 765: 727: 668: 7178:Mathematical and quantitative methods (economics) 5488:online version of first edition on the EMIS site 5432:1985 24th IEEE Conference on Decision and Control 5021:Conley's fundamental theorem of dynamical systems 4129:{\displaystyle h^{-1}\circ F\circ h(x)=J\cdot x.} 3998:), of the orbit. The flow now defines a map, the 2585:Some systems have a natural measure, such as the 2329:is a monoid (usually the non-negative integers), 2207:represents the "space" lattice, while the one in 669:{\displaystyle \Phi :U\subseteq (T\times X)\to X} 6289:Systems Analysis, Modelling and Prediction Group 6206:. Nils Berglund's lecture notes for a course at 6144:Does God Play Dice? The New Mathematics of Chaos 5916:Dynamical Systems with Applications using Python 5696:Tim Bedford, Michael Keane and Caroline Series, 4039: = 0. The Taylor series of the map is 386:systems that have two numbers describing a state 376:changes with the different notions of stability. 37:"Dynamical" redirects here. For other uses, see 6181:— peer reviewed and written by invited experts. 4986:Dynamic approach to second language development 4382:) and invariance of the phase space means that 2481:. Combining the above, a map Φ is said to be a 252:The study of dynamical systems is the focus of 5742:Dynamics—the geometry of behavior, 2nd edition 5613:Introductory texts with a unique perspective: 3213:—in which case the differential equations are 280:. Dynamical systems are a fundamental part of 6354: 5592:Bulletin of the American Mathematical Society 4631:{\displaystyle (U^{t}a)(x)=a(\Phi ^{-t}(x)).} 4295:The bifurcations of a hyperbolic fixed point 3658:{\displaystyle \Phi ^{t}(x_{0})=e^{tA}x_{0}.} 2504:), Φ), for such a Φ, is then defined to be a 1418:{\displaystyle \Phi ^{t}(x)\equiv \Phi (t,x)} 1360:{\displaystyle \Phi _{x}(t)\equiv \Phi (t,x)} 1008:{\displaystyle \,t_{1},\,t_{2}+t_{1}\in I(x)} 8: 5724:: CS1 maint: multiple names: authors list ( 5393:, pp. 161–171, Singapore: World Scientific. 5389:". In Minati G., Abram M., Pessa E. (eds.), 5369:, pp. 173–185, Singapore: World Scientific. 5365:". In Minati G., Abram M., Pessa E. (eds.), 3706:Linear vector fields and a few trajectories. 2409:{\displaystyle \Phi ^{-1}\sigma \in \Sigma } 1799: 1773: 1569: 1527: 1140: 1104: 1075:{\displaystyle \ t_{2}\in I(\Phi (t_{1},x))} 201:At any given time, a dynamical system has a 168:the number of fish each springtime in a lake 5770:Chaos. An introduction to dynamical systems 5625:Mathematical methods of classical mechanics 4996:Infinite compositions of analytic functions 4490:be a phase space volume-preserving map and 4185:and the degree of smoothness required from 1146:{\displaystyle I(x):=\{t\in T:(t,x)\in U\}} 6666: 6380: 6361: 6347: 6339: 6335:, University of California, Santa Barbara. 6125:Mathematics and the Unexpected (Paperback) 3554:{\displaystyle \Phi ^{t}(x_{1})=x_{1}+bt.} 3007:Some formal manipulation of the system of 2377:if and only if, for every σ in Σ, one has 1274:a unique image, depending on the variable 6228:. Tutorial on learning dynamical systems. 5838:Anatole Katok; Boris Hasselblatt (1996). 5603: 5178: 5079:. Cambridge: Cambridge University Press. 4928: 4908: 4884: 4862: 4845: 4805: 4804: 4794: 4786: 4784: 4770: 4754: 4604: 4570: 4561: 4433: 4415: 4392: 4390: 4081: 4075: 3763: 3741: 3735: 3646: 3633: 3617: 3604: 3598: 3533: 3517: 3504: 3498: 3409: 3408: 3406: 3184: 3174: 3157: 3155: 3146: 3145: 3143: 3105: 3100: 3070: 3069: 3050: 3036: 3022: 3021: 3019: 2974: 2969: 2939: 2937: 2767: 2766: 2764: 2737: 2732: 2716: 2711: 2705: 2703: 2679: 2665: 2651: 2650: 2648: 2525: 2519: 2441: 2429: 2388: 2382: 1962: 1961: 1959: 1926: 1925: 1923: 1894: 1893: 1885: 1844: 1843: 1841: 1820: 1819: 1817: 1787: 1786: 1777: 1776: 1771: 1697: 1642: 1518: 1512: 1442: 1436: 1379: 1373: 1321: 1315: 1209: 1169: 1087: 1054: 1029: 1020: 984: 971: 966: 957: 952: 950: 914: 901: 870: 851: 839: 797: 757: 743: 740: 704: 690: 687: 631: 94:Learn how and when to remove this message 6329:, Polytechnical University of Catalonia. 4730:is only a second-degree polynomial; the 3889:of the vector field (a point where 2781:{\displaystyle {\dot {\boldsymbol {x}}}} 728:{\displaystyle \mathrm {proj} _{2}(U)=X} 428:Many people regard French mathematician 57:This article includes a list of general 6204:Geometrical theory of dynamical systems 5764:Kathleen T. Alligood, Tim D. Sauer and 5048: 3101: 3051: 3037: 3024: 2970: 2940: 2769: 2733: 2706: 2680: 2666: 2653: 544:that are common in daily life, such as 205:representing a point in an appropriate 5717: 5550:Encyclopaedia of Mathematical Sciences 4313:of the first derivative of the system 2608:For hyperbolic dynamical systems, the 2231:Compactification of a dynamical system 2203:are dynamical systems. The lattice in 1950:) is a diffeomorphism, for every time 154:that describe the swinging of a clock 6327:UPC Dynamical Systems Group Barcelona 5918:. Springer International Publishing. 5880:. Springer International Publishing. 5265:(Fourth ed.). Berlin: Springer. 5263:Economic Dynamics: Methods and Models 4837:Admits the finite duration solution: 4673:Nonlinear dynamical systems and chaos 3456:{\displaystyle {\dot {x}}=v(x)=Ax+b,} 2483:measure-preserving transformation of 2143:is taken to be the integers, it is a 164:random motion of particles in the air 7: 6210:at the advanced undergraduate level. 5428:"Finite Time Differential Equations" 5218:Jackson, T.; Radunskaya, A. (2015). 4284:, a periodic orbit, or an invariant 198:space-time structure defined on it. 6501:Measure-preserving dynamical system 5071:Katok, A.; Hasselblatt, B. (1995). 3723:dynamical system has the form of a 3147: 3071: 2305:Measure-preserving dynamical system 1903:{\displaystyle t\in {\mathcal {T}}} 1472:{\displaystyle \Phi _{x}:I(x)\to X} 766:{\displaystyle \mathrm {proj} _{2}} 397:transition to turbulence of a fluid 5588:"Differentiable dynamical systems" 5510:Works providing a broad coverage: 5385:Mazzola C. and Giunti M. (2012), " 5361:Giunti M. and Mazzola C. (2012), " 4601: 4430: 4422: 4419: 4416: 4399: 4396: 4393: 3914:is a point where the vector field 3601: 3501: 3087: 2956: 2552: 2540: 2534: 2522: 2438: 2403: 2385: 2070:; if not, the dynamical system is 1644: 1530: 1439: 1397: 1376: 1339: 1318: 1044: 891: 860: 841: 799: 753: 750: 747: 744: 700: 697: 694: 691: 633: 63:it lacks sufficient corresponding 25: 7069:Oleksandr Mykolayovych Sharkovsky 6248:Dynamical Systems Group Groningen 6191:Sci.Nonlinear FAQ 2.0 (Sept 2003) 6175:Encyclopedia of dynamical systems 4655:equilibrium statistical mechanics 4262:When the evolution map Φ (or the 4063:can only be expected to simplify 3781:{\displaystyle x_{n+1}=Ax_{n}+b,} 2620:Construction of dynamical systems 2279:In compact dynamical systems the 2235:Given a global dynamical system ( 499:Oleksandr Mykolaiovych Sharkovsky 209:. This state is often given by a 6599: 6591: 6265:Center for Dynamics and Geometry 5463:(2006). "Fundamental concepts". 5235:Advanced Engineering Mathematics 4954: 3875:other discrete dynamical systems 3185: 2801:is a finite dimensional manifold 2573:Relation to geometric definition 1674:{\displaystyle \Phi (t,x)\in S.} 1164:In particular, in the case that 1082:, where we have defined the set 48: 6277:Laboratory of Nonlinear Systems 6250:, IWI, University of Groningen. 6127:. University Of Chicago Press. 5605:10.1090/S0002-9904-1967-11798-1 5465:Ordinary Differential Equations 5001:List of dynamical system topics 3302:Quadratic map simulation system 3068: 3064: 2634:ordinary differential equations 2215:Multidimensional generalization 2211:represents the "time" lattice. 2056:differentiable dynamical system 1748:ordinary differential equations 221:in a geometrical manifold. The 172:ordinary differential equations 6834:Rabinovich–Fabrikant equations 5974:Chaos and time-series analysis 5971:Julien Clinton Sprott (2003). 5935:Differential Dynamical Systems 4856: 4850: 4815: 4809: 4795: 4787: 4781: 4775: 4622: 4619: 4613: 4597: 4588: 4582: 4579: 4563: 4448: 4445: 4439: 4426: 4409: 4403: 4233:. The hyperbolic case is also 4108: 4102: 4059:), so a change of coordinates 3819:from the equation. In the new 3623: 3610: 3523: 3510: 3432: 3426: 3215:partial differential equations 3181: 3170: 3158: 3111: 3090: 3065: 3055: 3041: 2996:The dynamical system is then ( 2980: 2959: 2950: 2944: 2712: 2684: 2670: 2468: 2462: 2453: 2434: 2299:Measure theoretical definition 1971:{\displaystyle {\mathcal {T}}} 1935:{\displaystyle {\mathcal {T}}} 1853:{\displaystyle {\mathcal {M}}} 1829:{\displaystyle {\mathcal {T}}} 1708: 1702: 1659: 1647: 1566: 1560: 1545: 1533: 1463: 1460: 1454: 1412: 1400: 1391: 1385: 1354: 1342: 1333: 1327: 1220: 1214: 1131: 1119: 1098: 1092: 1069: 1066: 1047: 1041: 1002: 996: 926: 894: 885: 882: 863: 844: 814: 802: 716: 710: 660: 657: 645: 1: 6271:Control and Dynamical Systems 6198:Online books or lecture notes 6029:American Mathematical Society 5011:People in systems and control 4246:Kolmogorov–Arnold–Moser (KAM) 2831:and represents the change of 2614:stable and unstable manifolds 2139:, and Φ is a function. When 588:In the most general sense, a 6314:Nonlinear Dynamics Workgroup 6283:Center for Dynamical Systems 6220:Chaos: classical and quantum 5036:Principle of maximum caliber 4738:Solutions of Finite Duration 4357:period-doubling bifurcations 4309:can be characterized by the 4221:In the hyperbolic case, the 3807: + (1 − 3262:Complex quadratic polynomial 2630:classical mechanical systems 2062:is locally diffeomorphic to 1735:. That is, the flow through 826:{\displaystyle \Phi (0,x)=x} 6569:Poincaré recurrence theorem 6102:Chaos: Making a New Science 5977:. Oxford University Press. 5956:. Oxford University Press. 5704:. Oxford University Press. 5467:. Berlin: Springer Verlag. 3235:is an example of a chaotic 2610:Sinai–Ruelle–Bowen measures 2601:, but attractors have zero 2135:locally diffeomorphic to a 2052:continuously differentiable 1189:{\displaystyle U=T\times X} 435:Poincaré recurrence theorem 160:the flow of water in a pipe 114:arises in the study of the 7194: 6564:Poincaré–Bendixson theorem 6226:Learning Dynamical Systems 5790:Discrete Dynamical Systems 5413:Discrete Dynamical Systems 4746:As example, the equation: 4676: 4366: 4353:Feigenbaum period-doubling 4255: 3725:matrix difference equation 3327: 2420:if and only if, for every 2302: 2259:one-point compactification 2066:, the dynamical system is 1992:real-time dynamical system 1239:and thus that Φ defines a 507:discrete dynamical systems 469:. Combining insights from 39:Dynamical (disambiguation) 36: 29: 6916:Swinging Atwood's machine 6589: 6559:Krylov–Bogolyubov theorem 6436: 6295:Non-Linear Dynamics Group 5538:(available as a reprint: 5336:Franklin Institute Awards 5197:10.1007/s10955-007-9444-4 4013:, for points starting in 3312:Swinging Atwood's machine 2580:Krylov–Bogolyubov theorem 2110:discrete dynamical system 2104:Discrete dynamical system 2074:. This does not assume a 455:", a special case of the 6824:Lotka–Volterra equations 6648:Synchronization of chaos 6451:axiom A dynamical system 6046:Stephen Wiggins (2003). 5524:Foundations of mechanics 5426:Vardia T. Haimo (1985). 5233:Kreyszig, Erwin (2011). 5056:Strogatz, S. H. (2001). 3941:the dynamical system is 3474:a vector of numbers and 3324:Linear dynamical systems 2847:, but is instead in the 2221:multidimensional systems 2191:or a higher-dimensional 1684:Thus, in particular, if 382:Linear dynamical systems 254:dynamical systems theory 194:, without the need of a 32:Dynamical systems theory 6809:Double scroll attractor 6574:Stable manifold theorem 6481:False nearest neighbors 5952:David D. Nolte (2015). 5440:10.1109/CDC.1985.268832 4659:Boltzmann factor exp(−β 4223:Hartman–Grobman theorem 4156:are the eigenvalues of 3980:). These points are a 3583:: for an initial point 3581:exponential of a matrix 3344:superposition principle 3330:Linear dynamical system 2640:such as the following: 2054:we say the system is a 612:, written additively, 150:. Examples include the 130:is a system in which a 78:more precise citations. 6849:Van der Pol oscillator 6829:Mackey–Glass equations 6461:Box-counting dimension 6291:, University of Oxford 6285:, University of Bremen 5914:Stephen Lynch (2018). 5895:Stephen Lynch (2017). 5876:Stephen Lynch (2014). 5857:Stephen Lynch (2010). 5495:Temam, Roger (1997) . 5434:. pp. 1729–1733. 5341:The Franklin Institute 5289:193.3 (1990): 137–163. 4962:Systems science portal 4938: 4828: 4632: 4458: 4351:. In another example, 4345:Ruelle–Takens scenario 4270:until a special value 4130: 4017:and returning to 3782: 3707: 3659: 3555: 3457: 3252:Bouncing ball dynamics 3193: 3129: 3009:differential equations 2987: 2792:of the material point 2782: 2747: 2691: 2559: 2488:, if it is a map from 2475: 2410: 2349:, meaning that Σ is a 1972: 1936: 1904: 1854: 1830: 1806: 1762:Geometrical definition 1721: 1720:{\displaystyle I(x)=T} 1675: 1576: 1473: 1419: 1361: 1233: 1232:{\displaystyle I(x)=T} 1190: 1147: 1076: 1009: 936: 827: 767: 729: 670: 453:Last Geometric Theorem 334:integrating the system 246:differential equations 119: 6999:Svetlana Jitomirskaya 6906:Multiscroll attractor 6751:Interval exchange map 6704:Dyadic transformation 6689:Complex quadratic map 6531:Topological conjugacy 6466:Correlation dimension 6441:Anosov diffeomorphism 6169:Arxiv preprint server 5526:. Benjamin–Cummings. 5016:Sharkovskii's theorem 4939: 4829: 4734:is piecewise linear. 4633: 4530:statistical mechanics 4469:Hamiltonian formalism 4459: 4131: 3931:rectification theorem 3847:is an eigenvector of 3783: 3705: 3660: 3556: 3458: 3390:, the vector field v( 3272:Dyadic transformation 3194: 3130: 2988: 2835:induced by the known 2783: 2748: 2692: 2638:initial value problem 2560: 2476: 2416:. A map Φ is said to 2411: 1988:real dynamical system 1982:Real dynamical system 1973: 1937: 1905: 1872:is an evolution rule 1855: 1831: 1807: 1722: 1676: 1577: 1474: 1420: 1362: 1296:, while the variable 1234: 1191: 1148: 1077: 1010: 937: 828: 768: 730: 671: 483:statistical mechanics 449:George David Birkhoff 413:statistical mechanics 351:Before the advent of 318:differential equation 118:, a dynamical system. 109: 7009:Edward Norton Lorenz 6142:Ian Stewart (1997). 6079:Celestial Encounters 5933:James Meiss (2007). 5411:Galor, Oded (2010). 4991:Feedback passivation 4844: 4753: 4560: 4389: 4074: 3957:Near periodic orbits 3933:says that away from 3873:There are also many 3734: 3597: 3497: 3482: ≠ 0 with 3405: 3292:List of chaotic maps 3142: 3018: 2936: 2763: 2702: 2647: 2518: 2428: 2418:preserve the measure 2381: 2076:symplectic structure 2072:infinite-dimensional 1958: 1922: 1884: 1840: 1816: 1770: 1696: 1641: 1603:of the flow through 1595:. The orbit through 1511: 1435: 1372: 1314: 1208: 1168: 1086: 1019: 949: 838: 796: 739: 686: 630: 503:Sharkovsky's theorem 370:structural stability 6969:Mitchell Feigenbaum 6911:Population dynamics 6896:Hénon–Heiles system 6756:Irrational rotation 6709:Dynamical billiards 6694:Coupled map lattice 6554:Liouville's theorem 6486:Hausdorff dimension 6471:Conservative system 6456:Bifurcation diagram 6234:. Lecture notes by 5787:Oded Galor (2011). 5772:. Springer Verlag. 5738:Christopher D. Shaw 5659:. Springer-Verlag. 5629:. Springer-Verlag. 5461:Arnold, Vladimir I. 5259:Gandolfo, Giancarlo 5189:2008JSP...130..617G 5136:2005Chaos..15c3902M 4971:Behavioral modeling 4538:functional analysis 4302:of a system family 4235:structurally stable 4177:Conjugation results 4067:to its linear part 3282:Irrational rotation 2595:dissipative systems 2591:Hamiltonian systems 2058:. If the manifold 2048:continuous function 1756:measure theoretical 1611:of the state space 1280:evolution parameter 451:proved Poincaré's " 322:difference equation 314:Newtonian mechanics 300:processes, and the 152:mathematical models 7147:Santa Fe Institute 7014:Aleksandr Lyapunov 6844:Three-body problem 6731:Gingerbreadman map 6618:Bifurcation theory 6496:Lyapunov stability 6319:2015-01-21 at the 6306:2017-06-02 at the 6185:Nonlinear Dynamics 5999:. Addison Wesley. 5993:Steven H. Strogatz 5823:. Academic Press. 5744:. Addison-Wesley. 5681:. Academic Press. 5520:Jerrold E. Marsden 5499:. Springer Verlag. 5331:"Ali Hasan Nayfeh" 5237:. Hoboken: Wiley. 4976:Cognitive modeling 4934: 4824: 4692:Hyperbolic systems 4628: 4515:ergodic hypothesis 4484:recurrence theorem 4454: 4378:into the points Φ( 4338:Bifurcation theory 4258:Bifurcation theory 4252:Bifurcation theory 4126: 3778: 3708: 3655: 3551: 3453: 3189: 3125: 2983: 2778: 2743: 2687: 2632:. But a system of 2565:for every integer 2555: 2471: 2406: 2357:and μ is a finite 2169:cellular automaton 2163:Cellular automaton 2068:finite-dimensional 1968: 1932: 1900: 1850: 1826: 1802: 1717: 1671: 1572: 1469: 1415: 1357: 1264:evolution function 1229: 1196:we have for every 1186: 1143: 1072: 1005: 932: 823: 763: 725: 666: 526:nonlinear dynamics 505:on the periods of 475:ergodic hypothesis 457:three-body problem 441:Aleksandr Lyapunov 409:hyperbolic systems 393:bifurcation points 366:Lyapunov stability 330:solving the system 290:bifurcation theory 120: 7168:Dynamical systems 7155: 7154: 7019:Benoît Mandelbrot 6984:Martin Gutzwiller 6974:Peter Grassberger 6857: 6856: 6839:Rössler attractor 6587: 6586: 6491:Invariant measure 6413:Lyapunov exponent 6301:Dynamical Systems 6214:Dynamical systems 6153:978-0-14-025602-4 6134:978-0-226-19990-0 6112:978-0-14-009250-9 6088:978-0-691-02743-2 6065:Popularizations: 6057:978-0-387-00177-7 6038:978-0-8218-8328-0 6006:978-0-201-54344-5 5984:978-0-19-850839-7 5944:978-0-89871-635-1 5925:978-3-319-78145-7 5906:978-3-319-61485-4 5868:978-0-8176-4389-8 5849:978-0-521-57557-7 5830:978-0-12-349703-1 5817:Robert L. Devaney 5800:978-3-642-07185-0 5779:978-0-387-94677-1 5751:978-0-201-56716-8 5711:978-0-19-853390-0 5688:978-0-12-601710-6 5666:978-0-387-90668-3 5649:Welington de Melo 5636:978-0-387-96890-2 5575:978-3-540-22066-4 5533:978-0-8053-0102-1 5399:978-981-4383-32-5 5375:978-981-4383-32-5 5343:. 4 February 2014 5272:978-3-642-13503-3 5244:978-0-470-64613-7 5144:10.1063/1.1953147 5103:. Springer Nature 5086:978-0-521-34187-5 4916: 4892: 4870: 4799: 4773: 4701:unstable manifold 4551:transfer operator 4540:. An observable 4473:Liouville measure 4349:strange attractor 4147:, ..., 3821:coordinate system 3815:removes the term 3417: 3030: 2775: 2659: 2626:evolution in time 2587:Liouville measure 2347:probability space 2252:topological space 2201:cellular automata 1024: 584:Formal definition 462:Dynamical Systems 298:self-organization 116:Lorenz oscillator 104: 103: 96: 16:(Redirected from 7185: 7127:Butterfly effect 7039:Itamar Procaccia 6989:Brosl Hasslacher 6886:Elastic pendulum 6814:Duffing equation 6761:Kaplan–Yorke map 6679:Arnold's cat map 6667: 6643:Stability theory 6628:Dynamical system 6623:Control of chaos 6603: 6595: 6579:Takens's theorem 6511:Poincaré section 6381: 6363: 6356: 6349: 6340: 6157: 6138: 6116: 6092: 6061: 6042: 6010: 5988: 5967: 5948: 5929: 5910: 5891: 5872: 5853: 5834: 5809:Morris W. Hirsch 5804: 5783: 5755: 5734:Ralph H. Abraham 5729: 5723: 5715: 5692: 5670: 5658: 5640: 5628: 5609: 5607: 5579: 5537: 5500: 5487: 5482:Chueshov, I. D. 5478: 5452: 5451: 5423: 5417: 5416: 5408: 5402: 5383: 5377: 5359: 5353: 5352: 5350: 5348: 5327: 5321: 5320: 5309:. pp. 1–2. 5296: 5290: 5283: 5277: 5276: 5255: 5249: 5248: 5230: 5224: 5223: 5215: 5209: 5208: 5182: 5162: 5156: 5155: 5119: 5113: 5112: 5110: 5108: 5097: 5091: 5090: 5078: 5068: 5062: 5061: 5053: 4981:Complex dynamics 4964: 4959: 4958: 4957: 4943: 4941: 4940: 4935: 4933: 4932: 4927: 4923: 4922: 4918: 4917: 4909: 4893: 4885: 4871: 4863: 4833: 4831: 4830: 4825: 4800: 4798: 4790: 4785: 4774: 4771: 4763: 4637: 4635: 4634: 4629: 4612: 4611: 4575: 4574: 4463: 4461: 4460: 4455: 4438: 4437: 4425: 4402: 4135: 4133: 4132: 4127: 4089: 4088: 3982:Poincaré section 3787: 3785: 3784: 3779: 3768: 3767: 3752: 3751: 3697:chaotic behavior 3664: 3662: 3661: 3656: 3651: 3650: 3641: 3640: 3622: 3621: 3609: 3608: 3560: 3558: 3557: 3552: 3538: 3537: 3522: 3521: 3509: 3508: 3462: 3460: 3459: 3454: 3419: 3418: 3410: 3287:Kaplan–Yorke map 3237:piecewise linear 3228:Arnold's cat map 3198: 3196: 3195: 3190: 3188: 3180: 3179: 3178: 3173: 3151: 3150: 3134: 3132: 3131: 3126: 3118: 3114: 3110: 3109: 3104: 3075: 3074: 3054: 3040: 3032: 3031: 3023: 2992: 2990: 2989: 2984: 2979: 2978: 2973: 2943: 2787: 2785: 2784: 2779: 2777: 2776: 2768: 2752: 2750: 2749: 2744: 2742: 2741: 2736: 2727: 2726: 2715: 2709: 2696: 2694: 2693: 2688: 2683: 2669: 2661: 2660: 2652: 2603:Lebesgue measure 2564: 2562: 2561: 2556: 2530: 2529: 2506:dynamical system 2480: 2478: 2477: 2472: 2449: 2448: 2415: 2413: 2412: 2407: 2396: 2395: 2293:simply connected 2283:of any orbit is 2225:image processing 2117:dynamical system 1999:dynamical system 1977: 1975: 1974: 1969: 1967: 1966: 1941: 1939: 1938: 1933: 1931: 1930: 1909: 1907: 1906: 1901: 1899: 1898: 1859: 1857: 1856: 1851: 1849: 1848: 1835: 1833: 1832: 1827: 1825: 1824: 1811: 1809: 1808: 1803: 1792: 1791: 1782: 1781: 1726: 1724: 1723: 1718: 1680: 1678: 1677: 1672: 1581: 1579: 1578: 1573: 1523: 1522: 1478: 1476: 1475: 1470: 1447: 1446: 1424: 1422: 1421: 1416: 1384: 1383: 1366: 1364: 1363: 1358: 1326: 1325: 1307:We often write 1262:) is called the 1238: 1236: 1235: 1230: 1195: 1193: 1192: 1187: 1152: 1150: 1149: 1144: 1081: 1079: 1078: 1073: 1059: 1058: 1034: 1033: 1022: 1014: 1012: 1011: 1006: 989: 988: 976: 975: 962: 961: 941: 939: 938: 933: 919: 918: 906: 905: 875: 874: 856: 855: 832: 830: 829: 824: 772: 770: 769: 764: 762: 761: 756: 734: 732: 731: 726: 709: 708: 703: 675: 673: 672: 667: 590:dynamical system 242:dynamical system 148:parametric curve 138:dependence of a 128:dynamical system 112:Lorenz attractor 99: 92: 88: 85: 79: 74:this article by 65:inline citations 52: 51: 44: 21: 7193: 7192: 7188: 7187: 7186: 7184: 7183: 7182: 7158: 7157: 7156: 7151: 7119: 7113: 7059:Caroline Series 6954:Mary Cartwright 6936: 6930: 6881:Double pendulum 6863: 6853: 6802: 6795: 6721:Exponential map 6672: 6658: 6652: 6610: 6604: 6597: 6583: 6549:Ergodic theorem 6542: 6535: 6526:Stable manifold 6516:Recurrence plot 6432: 6386: 6372: 6367: 6321:Wayback Machine 6308:Wayback Machine 6242:Research groups 6165: 6160: 6154: 6141: 6135: 6119: 6113: 6095: 6089: 6069: 6058: 6045: 6039: 6013: 6007: 5991: 5985: 5970: 5964: 5951: 5945: 5932: 5926: 5913: 5907: 5894: 5888: 5875: 5869: 5856: 5850: 5837: 5831: 5807: 5801: 5786: 5780: 5763: 5752: 5732: 5716: 5712: 5695: 5689: 5673: 5667: 5643: 5637: 5617: 5582: 5576: 5563: 5534: 5514: 5507: 5505:Further reading 5494: 5481: 5475: 5459: 5456: 5455: 5425: 5424: 5420: 5410: 5409: 5405: 5384: 5380: 5360: 5356: 5346: 5344: 5329: 5328: 5324: 5317: 5298: 5297: 5293: 5287:Physics Reports 5284: 5280: 5273: 5257: 5256: 5252: 5245: 5232: 5231: 5227: 5217: 5216: 5212: 5164: 5163: 5159: 5121: 5120: 5116: 5106: 5104: 5099: 5098: 5094: 5087: 5070: 5069: 5065: 5055: 5054: 5050: 5045: 5040: 5026:System dynamics 4960: 4955: 4953: 4950: 4901: 4897: 4877: 4873: 4872: 4842: 4841: 4756: 4751: 4750: 4740: 4706:This branch of 4697:stable manifold 4681: 4675: 4646:involving 4600: 4566: 4558: 4557: 4429: 4387: 4386: 4371: 4365: 4363:Ergodic systems 4334: 4328: 4321: 4307: 4301: 4276: 4260: 4254: 4203: 4179: 4168: 4155: 4146: 4077: 4072: 4071: 4055: + O( 4027: 3997: 3979: 3968: 3959: 3935:singular points 3908: 3883: 3861: 3846: 3832: 3759: 3737: 3732: 3731: 3713: 3642: 3629: 3613: 3600: 3595: 3594: 3589: 3578: 3529: 3513: 3500: 3495: 3494: 3403: 3402: 3384: 3332: 3326: 3321: 3267:Double pendulum 3247:outer billiards 3223: 3156: 3140: 3139: 3099: 3080: 3076: 3016: 3015: 2968: 2934: 2933: 2788:represents the 2761: 2760: 2731: 2710: 2700: 2699: 2645: 2644: 2624:The concept of 2622: 2575: 2521: 2516: 2515: 2437: 2426: 2425: 2384: 2379: 2378: 2365:, Σ). A map Φ: 2313:, the triplet ( 2307: 2301: 2245:locally compact 2233: 2217: 2165: 2106: 1997:continuous time 1984: 1956: 1955: 1920: 1919: 1882: 1881: 1838: 1837: 1814: 1813: 1768: 1767: 1764: 1694: 1693: 1639: 1638: 1514: 1509: 1508: 1438: 1433: 1432: 1375: 1370: 1369: 1317: 1312: 1311: 1304:of the system. 1254:The function Φ( 1206: 1205: 1166: 1165: 1084: 1083: 1050: 1025: 1017: 1016: 980: 967: 953: 947: 946: 910: 897: 866: 847: 836: 835: 794: 793: 742: 737: 736: 689: 684: 683: 628: 627: 616:is a non-empty 586: 493:Smale horseshoe 467:ergodic theorem 426: 405:ergodic systems 310: 184:complex numbers 146:, such as in a 100: 89: 83: 80: 70:Please help to 69: 53: 49: 42: 35: 28: 23: 22: 15: 12: 11: 5: 7191: 7189: 7181: 7180: 7175: 7173:Systems theory 7170: 7160: 7159: 7153: 7152: 7150: 7149: 7144: 7142:Predictability 7139: 7134: 7129: 7123: 7121: 7115: 7114: 7112: 7111: 7109:Lai-Sang Young 7106: 7104:James A. Yorke 7101: 7099:Amie Wilkinson 7096: 7091: 7086: 7081: 7076: 7071: 7066: 7061: 7056: 7051: 7046: 7041: 7036: 7034:Henri Poincaré 7031: 7026: 7021: 7016: 7011: 7006: 7001: 6996: 6991: 6986: 6981: 6976: 6971: 6966: 6961: 6956: 6951: 6946: 6940: 6938: 6932: 6931: 6929: 6928: 6923: 6918: 6913: 6908: 6903: 6901:Kicked rotator 6898: 6893: 6888: 6883: 6878: 6873: 6871:Chua's circuit 6867: 6865: 6859: 6858: 6855: 6854: 6852: 6851: 6846: 6841: 6836: 6831: 6826: 6821: 6816: 6811: 6805: 6803: 6800: 6797: 6796: 6794: 6793: 6791:Zaslavskii map 6788: 6786:Tinkerbell map 6783: 6778: 6773: 6768: 6763: 6758: 6753: 6748: 6743: 6738: 6733: 6728: 6723: 6718: 6717: 6716: 6706: 6701: 6696: 6691: 6686: 6681: 6675: 6673: 6670: 6664: 6654: 6653: 6651: 6650: 6645: 6640: 6635: 6633:Ergodic theory 6630: 6625: 6620: 6614: 6612: 6606: 6605: 6590: 6588: 6585: 6584: 6582: 6581: 6576: 6571: 6566: 6561: 6556: 6551: 6545: 6543: 6540: 6537: 6536: 6534: 6533: 6528: 6523: 6518: 6513: 6508: 6503: 6498: 6493: 6488: 6483: 6478: 6473: 6468: 6463: 6458: 6453: 6448: 6443: 6437: 6434: 6433: 6431: 6430: 6425: 6423:Periodic point 6420: 6415: 6410: 6405: 6400: 6395: 6389: 6387: 6384: 6378: 6374: 6373: 6368: 6366: 6365: 6358: 6351: 6343: 6337: 6336: 6330: 6324: 6311: 6298: 6292: 6286: 6280: 6274: 6268: 6262: 6257: 6251: 6244: 6243: 6239: 6238: 6229: 6223: 6217: 6211: 6200: 6199: 6195: 6194: 6188: 6182: 6172: 6164: 6163:External links 6161: 6159: 6158: 6152: 6139: 6133: 6117: 6111: 6093: 6087: 6063: 6062: 6056: 6043: 6037: 6015:Teschl, Gerald 6011: 6005: 5989: 5983: 5968: 5963:978-0199657032 5962: 5949: 5943: 5930: 5924: 5911: 5905: 5892: 5887:978-3319068190 5886: 5873: 5867: 5854: 5848: 5835: 5829: 5805: 5799: 5784: 5778: 5766:James A. Yorke 5757: 5756: 5750: 5730: 5710: 5693: 5687: 5671: 5665: 5641: 5635: 5611: 5610: 5598:(6): 747–817. 5580: 5574: 5561: 5547: 5532: 5508: 5506: 5503: 5502: 5501: 5492: 5479: 5473: 5454: 5453: 5418: 5403: 5378: 5354: 5322: 5315: 5291: 5278: 5271: 5250: 5243: 5225: 5210: 5157: 5114: 5092: 5085: 5063: 5047: 5046: 5044: 5041: 5039: 5038: 5033: 5031:Systems theory 5028: 5023: 5018: 5013: 5008: 5003: 4998: 4993: 4988: 4983: 4978: 4973: 4967: 4966: 4965: 4949: 4946: 4945: 4944: 4931: 4926: 4921: 4915: 4912: 4907: 4904: 4900: 4896: 4891: 4888: 4883: 4880: 4876: 4869: 4866: 4861: 4858: 4855: 4852: 4849: 4835: 4834: 4823: 4820: 4817: 4814: 4811: 4808: 4803: 4797: 4793: 4789: 4783: 4780: 4777: 4769: 4766: 4762: 4759: 4739: 4736: 4677:Main article: 4674: 4671: 4639: 4638: 4627: 4624: 4621: 4618: 4615: 4610: 4607: 4603: 4599: 4596: 4593: 4590: 4587: 4584: 4581: 4578: 4573: 4569: 4565: 4465: 4464: 4453: 4450: 4447: 4444: 4441: 4436: 4432: 4428: 4424: 4421: 4418: 4414: 4411: 4408: 4405: 4401: 4398: 4395: 4369:Ergodic theory 4367:Main article: 4364: 4361: 4332: 4326: 4317: 4305: 4299: 4274: 4256:Main article: 4253: 4250: 4201: 4178: 4175: 4164: 4151: 4144: 4137: 4136: 4125: 4122: 4119: 4116: 4113: 4110: 4107: 4104: 4101: 4098: 4095: 4092: 4087: 4084: 4080: 4047:) = 4025: 3995: 3977: 3966: 3958: 3955: 3907: 3904: 3899:periodic orbit 3887:singular point 3882: 3881:Local dynamics 3879: 3859: 3844: 3830: 3789: 3788: 3777: 3774: 3771: 3766: 3762: 3758: 3755: 3750: 3747: 3744: 3740: 3712: 3709: 3666: 3665: 3654: 3649: 3645: 3639: 3636: 3632: 3628: 3625: 3620: 3616: 3612: 3607: 3603: 3587: 3576: 3562: 3561: 3550: 3547: 3544: 3541: 3536: 3532: 3528: 3525: 3520: 3516: 3512: 3507: 3503: 3464: 3463: 3452: 3449: 3446: 3443: 3440: 3437: 3434: 3431: 3428: 3425: 3422: 3416: 3413: 3383: 3380: 3370:) + 3328:Main article: 3325: 3322: 3320: 3319: 3314: 3309: 3304: 3299: 3294: 3289: 3284: 3279: 3274: 3269: 3264: 3259: 3254: 3249: 3240: 3230: 3224: 3222: 3219: 3187: 3183: 3177: 3172: 3169: 3166: 3163: 3160: 3154: 3149: 3136: 3135: 3124: 3121: 3117: 3113: 3108: 3103: 3098: 3095: 3092: 3089: 3086: 3083: 3079: 3073: 3067: 3063: 3060: 3057: 3053: 3049: 3046: 3043: 3039: 3035: 3029: 3026: 2994: 2993: 2982: 2977: 2972: 2967: 2964: 2961: 2958: 2955: 2952: 2949: 2946: 2942: 2927: 2926: 2922:) = 0 for all 2905: 2856: 2855: 2802: 2796: 2774: 2771: 2754: 2753: 2740: 2735: 2730: 2725: 2722: 2719: 2714: 2708: 2697: 2686: 2682: 2678: 2675: 2672: 2668: 2664: 2658: 2655: 2621: 2618: 2574: 2571: 2554: 2551: 2548: 2545: 2542: 2539: 2536: 2533: 2528: 2524: 2470: 2467: 2464: 2461: 2458: 2455: 2452: 2447: 2444: 2440: 2436: 2433: 2424:in Σ, one has 2405: 2402: 2399: 2394: 2391: 2387: 2373:is said to be 2303:Main article: 2300: 2297: 2232: 2229: 2216: 2213: 2164: 2161: 2105: 2102: 1983: 1980: 1965: 1954:in the domain 1929: 1916:diffeomorphism 1897: 1892: 1889: 1847: 1823: 1801: 1798: 1795: 1790: 1785: 1780: 1775: 1763: 1760: 1752:ergodic theory 1716: 1713: 1710: 1707: 1704: 1701: 1682: 1681: 1670: 1667: 1664: 1661: 1658: 1655: 1652: 1649: 1646: 1585:is called the 1583: 1582: 1571: 1568: 1565: 1562: 1559: 1556: 1553: 1550: 1547: 1544: 1541: 1538: 1535: 1532: 1529: 1526: 1521: 1517: 1494:is called the 1482:is called the 1480: 1479: 1468: 1465: 1462: 1459: 1456: 1453: 1450: 1445: 1441: 1426: 1425: 1414: 1411: 1408: 1405: 1402: 1399: 1396: 1393: 1390: 1387: 1382: 1378: 1367: 1356: 1353: 1350: 1347: 1344: 1341: 1338: 1335: 1332: 1329: 1324: 1320: 1300:represents an 1228: 1225: 1222: 1219: 1216: 1213: 1185: 1182: 1179: 1176: 1173: 1142: 1139: 1136: 1133: 1130: 1127: 1124: 1121: 1118: 1115: 1112: 1109: 1106: 1103: 1100: 1097: 1094: 1091: 1071: 1068: 1065: 1062: 1057: 1053: 1049: 1046: 1043: 1040: 1037: 1032: 1028: 1004: 1001: 998: 995: 992: 987: 983: 979: 974: 970: 965: 960: 956: 943: 942: 931: 928: 925: 922: 917: 913: 909: 904: 900: 896: 893: 890: 887: 884: 881: 878: 873: 869: 865: 862: 859: 854: 850: 846: 843: 833: 822: 819: 816: 813: 810: 807: 804: 801: 779: 778: 775:projection map 760: 755: 752: 749: 746: 724: 721: 718: 715: 712: 707: 702: 699: 696: 693: 677: 676: 665: 662: 659: 656: 653: 650: 647: 644: 641: 638: 635: 585: 582: 570:rocket engines 515:periodic point 479:measure theory 430:Henri Poincaré 425: 422: 421: 420: 400: 389: 377: 309: 306: 223:evolution rule 176:ergodic theory 134:describes the 102: 101: 56: 54: 47: 26: 24: 14: 13: 10: 9: 6: 4: 3: 2: 7190: 7179: 7176: 7174: 7171: 7169: 7166: 7165: 7163: 7148: 7145: 7143: 7140: 7138: 7137:Edge of chaos 7135: 7133: 7130: 7128: 7125: 7124: 7122: 7116: 7110: 7107: 7105: 7102: 7100: 7097: 7095: 7094:Marcelo Viana 7092: 7090: 7087: 7085: 7084:Audrey Terras 7082: 7080: 7079:Floris Takens 7077: 7075: 7072: 7070: 7067: 7065: 7062: 7060: 7057: 7055: 7052: 7050: 7047: 7045: 7042: 7040: 7037: 7035: 7032: 7030: 7027: 7025: 7022: 7020: 7017: 7015: 7012: 7010: 7007: 7005: 7002: 7000: 6997: 6995: 6992: 6990: 6987: 6985: 6982: 6980: 6979:Celso Grebogi 6977: 6975: 6972: 6970: 6967: 6965: 6962: 6960: 6959:Chen Guanrong 6957: 6955: 6952: 6950: 6947: 6945: 6944:Michael Berry 6942: 6941: 6939: 6933: 6927: 6924: 6922: 6919: 6917: 6914: 6912: 6909: 6907: 6904: 6902: 6899: 6897: 6894: 6892: 6889: 6887: 6884: 6882: 6879: 6877: 6874: 6872: 6869: 6868: 6866: 6860: 6850: 6847: 6845: 6842: 6840: 6837: 6835: 6832: 6830: 6827: 6825: 6822: 6820: 6819:Lorenz system 6817: 6815: 6812: 6810: 6807: 6806: 6804: 6798: 6792: 6789: 6787: 6784: 6782: 6779: 6777: 6774: 6772: 6769: 6767: 6766:Langton's ant 6764: 6762: 6759: 6757: 6754: 6752: 6749: 6747: 6744: 6742: 6741:Horseshoe map 6739: 6737: 6734: 6732: 6729: 6727: 6724: 6722: 6719: 6715: 6712: 6711: 6710: 6707: 6705: 6702: 6700: 6697: 6695: 6692: 6690: 6687: 6685: 6682: 6680: 6677: 6676: 6674: 6668: 6665: 6662: 6655: 6649: 6646: 6644: 6641: 6639: 6638:Quantum chaos 6636: 6634: 6631: 6629: 6626: 6624: 6621: 6619: 6616: 6615: 6613: 6607: 6602: 6598: 6594: 6580: 6577: 6575: 6572: 6570: 6567: 6565: 6562: 6560: 6557: 6555: 6552: 6550: 6547: 6546: 6544: 6538: 6532: 6529: 6527: 6524: 6522: 6519: 6517: 6514: 6512: 6509: 6507: 6504: 6502: 6499: 6497: 6494: 6492: 6489: 6487: 6484: 6482: 6479: 6477: 6474: 6472: 6469: 6467: 6464: 6462: 6459: 6457: 6454: 6452: 6449: 6447: 6446:Arnold tongue 6444: 6442: 6439: 6438: 6435: 6429: 6426: 6424: 6421: 6419: 6416: 6414: 6411: 6409: 6406: 6404: 6401: 6399: 6396: 6394: 6391: 6390: 6388: 6382: 6379: 6375: 6371: 6364: 6359: 6357: 6352: 6350: 6345: 6344: 6341: 6334: 6331: 6328: 6325: 6322: 6318: 6315: 6312: 6309: 6305: 6302: 6299: 6296: 6293: 6290: 6287: 6284: 6281: 6278: 6275: 6272: 6269: 6267:, Penn State. 6266: 6263: 6260: 6258: 6255: 6252: 6249: 6246: 6245: 6241: 6240: 6237: 6236:Gerald Teschl 6233: 6230: 6227: 6224: 6221: 6218: 6215: 6212: 6209: 6205: 6202: 6201: 6197: 6196: 6192: 6189: 6186: 6183: 6180: 6176: 6173: 6170: 6167: 6166: 6162: 6155: 6149: 6145: 6140: 6136: 6130: 6126: 6122: 6118: 6114: 6108: 6104: 6103: 6098: 6094: 6090: 6084: 6081:. Princeton. 6080: 6076: 6075:Philip Holmes 6072: 6068: 6067: 6066: 6059: 6053: 6049: 6044: 6040: 6034: 6030: 6026: 6022: 6021: 6016: 6012: 6008: 6002: 5998: 5994: 5990: 5986: 5980: 5976: 5973: 5969: 5965: 5959: 5955: 5950: 5946: 5940: 5936: 5931: 5927: 5921: 5917: 5912: 5908: 5902: 5898: 5893: 5889: 5883: 5879: 5874: 5870: 5864: 5860: 5855: 5851: 5845: 5842:. Cambridge. 5841: 5836: 5832: 5826: 5822: 5818: 5814: 5813:Stephen Smale 5810: 5806: 5802: 5796: 5792: 5789: 5785: 5781: 5775: 5771: 5767: 5762: 5761: 5760: 5753: 5747: 5743: 5739: 5735: 5731: 5727: 5721: 5713: 5707: 5703: 5699: 5694: 5690: 5684: 5680: 5676: 5672: 5668: 5662: 5657: 5656: 5650: 5646: 5642: 5638: 5632: 5627: 5626: 5620: 5616: 5615: 5614: 5606: 5601: 5597: 5593: 5589: 5585: 5584:Stephen Smale 5581: 5577: 5571: 5567: 5562: 5559: 5555: 5551: 5548: 5545: 5544:0-201-40840-6 5541: 5535: 5529: 5525: 5521: 5517: 5516:Ralph Abraham 5513: 5512: 5511: 5504: 5498: 5493: 5490: 5485: 5480: 5476: 5474:3-540-34563-9 5470: 5466: 5462: 5458: 5457: 5449: 5445: 5441: 5437: 5433: 5429: 5422: 5419: 5414: 5407: 5404: 5400: 5396: 5392: 5388: 5382: 5379: 5376: 5372: 5368: 5364: 5358: 5355: 5342: 5338: 5337: 5332: 5326: 5323: 5318: 5316:9783030236922 5312: 5308: 5304: 5303: 5295: 5292: 5288: 5282: 5279: 5274: 5268: 5264: 5260: 5254: 5251: 5246: 5240: 5236: 5229: 5226: 5221: 5214: 5211: 5206: 5202: 5198: 5194: 5190: 5186: 5181: 5176: 5172: 5168: 5167:J. Stat. Phys 5161: 5158: 5153: 5149: 5145: 5141: 5137: 5133: 5130:(3): 033902. 5129: 5125: 5118: 5115: 5102: 5096: 5093: 5088: 5082: 5077: 5076: 5067: 5064: 5059: 5052: 5049: 5042: 5037: 5034: 5032: 5029: 5027: 5024: 5022: 5019: 5017: 5014: 5012: 5009: 5007: 5004: 5002: 4999: 4997: 4994: 4992: 4989: 4987: 4984: 4982: 4979: 4977: 4974: 4972: 4969: 4968: 4963: 4952: 4947: 4929: 4924: 4919: 4913: 4910: 4905: 4902: 4898: 4894: 4889: 4886: 4881: 4878: 4874: 4867: 4864: 4859: 4853: 4847: 4840: 4839: 4838: 4821: 4818: 4812: 4806: 4801: 4791: 4778: 4767: 4764: 4760: 4757: 4749: 4748: 4747: 4744: 4737: 4735: 4733: 4732:horseshoe map 4729: 4725: 4720: 4718: 4714: 4709: 4704: 4702: 4698: 4693: 4689: 4688: 4680: 4672: 4670: 4668: 4664: 4662: 4656: 4651: 4649: 4644: 4625: 4616: 4608: 4605: 4594: 4591: 4585: 4576: 4571: 4567: 4556: 4555: 4554: 4552: 4548: 4543: 4539: 4535: 4531: 4526: 4524: 4520: 4516: 4511: 4509: 4506:to object to 4505: 4501: 4497: 4493: 4489: 4485: 4480: 4476: 4474: 4470: 4451: 4442: 4434: 4412: 4406: 4385: 4384: 4383: 4381: 4377: 4370: 4362: 4360: 4358: 4354: 4350: 4346: 4341: 4339: 4335: 4325: 4320: 4316: 4312: 4308: 4298: 4293: 4291: 4287: 4283: 4278: 4273: 4269: 4265: 4259: 4251: 4249: 4247: 4242: 4240: 4236: 4232: 4229: · 4228: 4224: 4219: 4217: 4213: 4212: 4207: 4200: 4196: 4192: 4188: 4184: 4176: 4174: 4172: 4167: 4163: 4159: 4154: 4150: 4143: 4123: 4120: 4117: 4114: 4111: 4105: 4099: 4096: 4093: 4090: 4085: 4082: 4078: 4070: 4069: 4068: 4066: 4062: 4058: 4054: 4051: · 4050: 4046: 4042: 4038: 4034: 4029: 4024: 4020: 4016: 4012: 4009: → 4008: 4005: : 4004: 4001: 3994: 3990: 3986: 3983: 3976: 3972: 3965: 3956: 3954: 3952: 3948: 3944: 3940: 3936: 3932: 3927: 3925: 3921: 3917: 3913: 3906:Rectification 3905: 3903: 3900: 3896: 3892: 3888: 3880: 3878: 3876: 3871: 3869: 3866: ∈ 3865: 3858: 3854: 3850: 3843: 3839: 3834: 3829: 3826: 3822: 3818: 3814: 3810: 3806: 3803: → 3802: 3798: 3795:a matrix and 3794: 3775: 3772: 3769: 3764: 3760: 3756: 3753: 3748: 3745: 3742: 3738: 3730: 3729: 3728: 3726: 3722: 3718: 3717:discrete-time 3710: 3704: 3700: 3698: 3694: 3689: 3687: 3683: 3679: 3675: 3671: 3652: 3647: 3643: 3637: 3634: 3630: 3626: 3618: 3614: 3605: 3593: 3592: 3591: 3586: 3582: 3575: 3571: 3567: 3548: 3545: 3542: 3539: 3534: 3530: 3526: 3518: 3514: 3505: 3493: 3492: 3491: 3489: 3485: 3481: 3477: 3473: 3469: 3450: 3447: 3444: 3441: 3438: 3435: 3429: 3423: 3420: 3414: 3411: 3401: 3400: 3399: 3397: 3393: 3389: 3381: 3379: 3377: 3373: 3369: 3365: 3361: 3357: 3353: 3349: 3345: 3341: 3337: 3331: 3323: 3318: 3315: 3313: 3310: 3308: 3305: 3303: 3300: 3298: 3297:Lorenz system 3295: 3293: 3290: 3288: 3285: 3283: 3280: 3278: 3275: 3273: 3270: 3268: 3265: 3263: 3260: 3258: 3255: 3253: 3250: 3248: 3244: 3241: 3238: 3234: 3231: 3229: 3226: 3225: 3220: 3218: 3216: 3212: 3211:Banach spaces 3207: 3204: 3202: 3175: 3167: 3164: 3161: 3152: 3122: 3119: 3115: 3106: 3096: 3093: 3084: 3081: 3077: 3061: 3058: 3047: 3044: 3033: 3027: 3014: 3013: 3012: 3010: 3005: 3003: 2999: 2975: 2965: 2962: 2953: 2947: 2932: 2931: 2930: 2925: 2921: 2917: 2913: 2909: 2906: 2903: 2899: 2895: 2891: 2887: 2883: 2880: 2879: 2878: 2875: 2873: 2869: 2865: 2861: 2853: 2850: 2849:tangent space 2846: 2842: 2838: 2834: 2830: 2826: 2822: 2818: 2814: 2810: 2806: 2803: 2800: 2797: 2795: 2791: 2772: 2759: 2758: 2757: 2738: 2728: 2723: 2720: 2717: 2698: 2676: 2673: 2662: 2656: 2643: 2642: 2641: 2639: 2635: 2631: 2627: 2619: 2617: 2615: 2611: 2606: 2604: 2600: 2596: 2592: 2588: 2583: 2581: 2572: 2570: 2568: 2549: 2546: 2543: 2537: 2531: 2526: 2514: 2509: 2507: 2503: 2499: 2495: 2491: 2487: 2486: 2465: 2459: 2456: 2450: 2445: 2442: 2431: 2423: 2419: 2400: 2397: 2392: 2389: 2376: 2372: 2368: 2364: 2360: 2356: 2352: 2351:sigma-algebra 2348: 2344: 2340: 2336: 2332: 2328: 2325:), Φ). Here, 2324: 2320: 2316: 2312: 2311:measure space 2306: 2298: 2296: 2294: 2290: 2286: 2282: 2277: 2275: 2271: 2267: 2263: 2260: 2256: 2253: 2250: 2246: 2242: 2238: 2230: 2228: 2226: 2222: 2214: 2212: 2210: 2206: 2202: 2198: 2194: 2190: 2186: 2182: 2178: 2174: 2170: 2162: 2160: 2158: 2154: 2150: 2146: 2142: 2138: 2134: 2130: 2126: 2122: 2118: 2116: 2115:discrete-time 2111: 2103: 2101: 2099: 2095: 2091: 2090: 2085: 2081: 2077: 2073: 2069: 2065: 2061: 2057: 2053: 2049: 2045: 2041: 2040:diffeomorphic 2037: 2033: 2029: 2026: 2022: 2021:open interval 2018: 2014: 2010: 2006: 2005: 2000: 1998: 1993: 1989: 1981: 1979: 1953: 1949: 1945: 1917: 1913: 1890: 1887: 1879: 1876: → 1875: 1871: 1867: 1863: 1796: 1793: 1783: 1761: 1759: 1757: 1753: 1749: 1744: 1742: 1738: 1734: 1730: 1714: 1711: 1705: 1699: 1691: 1687: 1668: 1665: 1662: 1656: 1653: 1650: 1637: 1636: 1635: 1634: 1630: 1626: 1622: 1618: 1614: 1610: 1606: 1602: 1598: 1594: 1590: 1589: 1563: 1557: 1554: 1551: 1548: 1542: 1539: 1536: 1524: 1519: 1515: 1507: 1506: 1505: 1503: 1499: 1498: 1493: 1489: 1485: 1466: 1457: 1451: 1448: 1443: 1431: 1430: 1429: 1409: 1406: 1403: 1394: 1388: 1380: 1368: 1351: 1348: 1345: 1336: 1330: 1322: 1310: 1309: 1308: 1305: 1303: 1302:initial state 1299: 1295: 1291: 1290: 1285: 1281: 1278:, called the 1277: 1273: 1269: 1265: 1261: 1257: 1252: 1250: 1246: 1242: 1241:monoid action 1226: 1223: 1217: 1211: 1203: 1199: 1183: 1180: 1177: 1174: 1171: 1162: 1160: 1156: 1137: 1134: 1128: 1125: 1122: 1116: 1113: 1110: 1107: 1101: 1095: 1089: 1063: 1060: 1055: 1051: 1038: 1035: 1030: 1026: 999: 993: 990: 985: 981: 977: 972: 968: 963: 958: 954: 929: 923: 920: 915: 911: 907: 902: 898: 888: 879: 876: 871: 867: 857: 852: 848: 834: 820: 817: 811: 808: 805: 792: 791: 790: 788: 784: 776: 758: 722: 719: 713: 705: 682: 681: 680: 663: 654: 651: 648: 642: 639: 636: 626: 625: 624: 623: 619: 615: 611: 607: 603: 599: 595: 591: 583: 581: 579: 575: 571: 567: 563: 559: 555: 551: 547: 543: 539: 535: 531: 527: 523: 522:Ali H. Nayfeh 518: 516: 512: 508: 504: 500: 496: 494: 490: 489:Stephen Smale 486: 484: 480: 476: 472: 468: 464: 463: 458: 454: 450: 445: 442: 438: 436: 431: 423: 418: 414: 410: 406: 401: 398: 394: 390: 387: 383: 378: 375: 371: 367: 362: 361: 360: 356: 354: 349: 347: 346: 341: 340: 335: 331: 327: 323: 319: 315: 307: 305: 303: 302:edge of chaos 299: 295: 294:self-assembly 291: 287: 283: 279: 275: 271: 267: 263: 259: 255: 250: 247: 243: 239: 234: 232: 228: 227:deterministic 224: 220: 216: 212: 208: 204: 199: 197: 193: 189: 185: 181: 177: 173: 169: 165: 161: 157: 153: 149: 145: 144:ambient space 141: 137: 133: 129: 125: 117: 113: 108: 98: 95: 87: 84:February 2022 77: 73: 67: 66: 60: 55: 46: 45: 40: 33: 19: 7089:Mary Tsingou 7054:David Ruelle 7049:Otto Rössler 6994:Michel Hénon 6964:Leon O. Chua 6921:Tilt-A-Whirl 6891:FPUT problem 6776:Standard map 6771:Logistic map 6627: 6596: 6370:Chaos theory 6179:Scholarpedia 6143: 6124: 6121:Ivar Ekeland 6101: 6097:James Gleick 6078: 6071:Florin Diacu 6064: 6050:. Springer. 6047: 6019: 5996: 5975: 5972: 5953: 5934: 5915: 5899:. Springer. 5896: 5877: 5861:. Springer. 5858: 5839: 5820: 5793:. Springer. 5791: 5788: 5769: 5758: 5741: 5701: 5697: 5678: 5675:David Ruelle 5654: 5624: 5619:V. I. Arnold 5612: 5595: 5591: 5568:. Springer. 5565: 5549: 5523: 5509: 5496: 5483: 5464: 5431: 5421: 5412: 5406: 5390: 5381: 5366: 5357: 5345:. Retrieved 5334: 5325: 5301: 5294: 5286: 5281: 5262: 5253: 5234: 5228: 5219: 5213: 5170: 5166: 5160: 5127: 5123: 5117: 5105:. Retrieved 5095: 5074: 5066: 5057: 5051: 4836: 4745: 4741: 4728:logistic map 4721: 4713:steady state 4705: 4700: 4696: 4685: 4682: 4679:Chaos theory 4667:SRB measures 4660: 4652: 4647: 4642: 4640: 4546: 4541: 4527: 4522: 4518: 4512: 4499: 4495: 4491: 4487: 4481: 4477: 4466: 4379: 4375: 4372: 4342: 4330: 4323: 4318: 4314: 4303: 4296: 4294: 4289: 4279: 4271: 4264:vector field 4261: 4243: 4238: 4234: 4230: 4226: 4220: 4215: 4209: 4205: 4198: 4194: 4190: 4186: 4182: 4180: 4170: 4165: 4161: 4157: 4152: 4148: 4141: 4138: 4064: 4060: 4056: 4052: 4048: 4044: 4040: 4036: 4032: 4030: 4022: 4018: 4014: 4010: 4006: 4002: 4000:Poincaré map 3992: 3988: 3984: 3974: 3970: 3963: 3960: 3950: 3946: 3942: 3938: 3930: 3928: 3923: 3919: 3915: 3911: 3909: 3898: 3894: 3890: 3886: 3884: 3872: 3867: 3863: 3856: 3852: 3848: 3841: 3837: 3835: 3827: 3824: 3816: 3812: 3808: 3804: 3800: 3796: 3792: 3790: 3714: 3692: 3690: 3685: 3682:eigenvectors 3677: 3669: 3667: 3584: 3573: 3569: 3568:is zero and 3565: 3563: 3487: 3483: 3479: 3475: 3471: 3467: 3465: 3391: 3385: 3375: 3371: 3367: 3363: 3359: 3355: 3351: 3347: 3339: 3335: 3333: 3208: 3205: 3137: 3006: 3001: 2997: 2995: 2928: 2923: 2919: 2915: 2911: 2907: 2901: 2897: 2893: 2889: 2885: 2881: 2876: 2871: 2867: 2863: 2859: 2857: 2851: 2844: 2840: 2828: 2824: 2821:vector field 2816: 2812: 2808: 2804: 2798: 2793: 2755: 2625: 2623: 2607: 2584: 2576: 2566: 2510: 2505: 2501: 2497: 2493: 2489: 2484: 2482: 2421: 2417: 2375:Σ-measurable 2370: 2366: 2362: 2354: 2342: 2338: 2330: 2326: 2322: 2318: 2314: 2308: 2278: 2273: 2269: 2265: 2261: 2254: 2240: 2236: 2234: 2218: 2208: 2204: 2196: 2193:integer grid 2187:such as the 2180: 2176: 2172: 2171:is a tuple ( 2168: 2166: 2157:semi-cascade 2156: 2152: 2148: 2144: 2140: 2137:Banach space 2128: 2127:, Φ), where 2124: 2120: 2119:is a tuple ( 2113: 2109: 2107: 2097: 2093: 2087: 2083: 2079: 2071: 2067: 2063: 2059: 2055: 2044:Banach space 2031: 2027: 2025:real numbers 2016: 2012: 2008: 2007:is a tuple ( 2002: 1995: 1991: 1987: 1985: 1951: 1947: 1943: 1911: 1910:) such that 1877: 1873: 1869: 1765: 1745: 1740: 1736: 1732: 1728: 1689: 1685: 1683: 1632: 1628: 1624: 1620: 1616: 1615:is called Φ- 1612: 1608: 1604: 1596: 1592: 1586: 1584: 1501: 1495: 1487: 1483: 1481: 1427: 1306: 1301: 1297: 1293: 1287: 1283: 1279: 1275: 1271: 1267: 1263: 1259: 1255: 1253: 1248: 1244: 1201: 1197: 1163: 1158: 1154: 944: 786: 782: 781:and for any 780: 678: 613: 605: 601: 597: 589: 587: 519: 497: 487: 460: 446: 439: 427: 357: 350: 343: 337: 333: 329: 311: 286:logistic map 282:chaos theory 251: 241: 235: 222: 215:real numbers 200: 190:or simply a 127: 121: 90: 81: 62: 7074:Nina Snaith 7064:Yakov Sinai 6949:Rufus Bowen 6699:Duffing map 6684:Baker's map 6609:Theoretical 6521:SRB measure 6428:Phase space 6398:Bifurcation 6254:Chaos @ UMD 6146:. Penguin. 6105:. Penguin. 5645:Jacob Palis 5415:. Springer. 5222:. Springer. 5107:17 February 5006:Oscillation 4724:Meteorology 4708:mathematics 4498:returns to 4311:eigenvalues 4282:fixed point 4268:phase space 3674:eigenvalues 3307:Rössler map 3233:Baker's map 2908:homogeneous 2179:, Φ), with 2046:, and Φ a 1758:in flavor. 1619:if for all 1607:. A subset 1294:state space 1289:phase space 1270:in the set 773:is the 2nd 620:and Φ is a 604:, Φ) where 566:jet engines 562:skyscrapers 534:engineering 374:equivalence 266:engineering 207:state space 124:mathematics 76:introducing 7162:Categories 7132:Complexity 7029:Edward Ott 6876:Convection 6801:Continuous 6476:Ergodicity 6273:, Caltech. 6177:A part of 6025:Providence 5759:Textbooks 5173:(3): 617. 5060:. Perseus. 5043:References 4717:attractors 4525:)/vol(Ω). 4211:hyperbolic 4208:is called 3943:integrable 3470:a matrix, 3257:Circle map 3201:functional 2882:autonomous 2243:, Φ) on a 2050:. If Φ is 2015:, Φ) with 1504:. The set 1497:trajectory 1286:is called 578:spacecraft 542:structures 530:mechanical 501:developed 339:trajectory 326:time scale 288:dynamics, 231:stochastic 59:references 7044:Mary Rees 7004:Bryna Kra 6937:theorists 6746:Ikeda map 6736:Hénon map 6726:Gauss map 6408:Limit set 6393:Attractor 5720:cite book 5558:0938-0396 5347:25 August 5261:(2009) . 5180:0705.0311 4906:− 4882:− 4768:− 4606:− 4602:Φ 4508:Boltzmann 4431:Φ 4118:⋅ 4097:∘ 4091:∘ 4083:− 3672:= 0, the 3602:Φ 3502:Φ 3415:˙ 3277:Hénon map 3243:Billiards 3182:→ 3165:× 3088:Φ 3066:⇔ 3034:− 3028:˙ 2957:Φ 2773:˙ 2657:˙ 2599:attractor 2553:Φ 2550:∘ 2547:⋯ 2544:∘ 2541:Φ 2538:∘ 2535:Φ 2523:Φ 2466:σ 2460:μ 2451:σ 2443:− 2439:Φ 2432:μ 2404:Σ 2401:∈ 2398:σ 2390:− 2386:Φ 2285:non-empty 2281:limit set 2249:Hausdorff 2098:semi-flow 2092:; and if 1891:∈ 1800:⟩ 1774:⟨ 1690:invariant 1663:∈ 1645:Φ 1617:invariant 1555:∈ 1531:Φ 1525:≡ 1516:γ 1464:→ 1440:Φ 1398:Φ 1395:≡ 1377:Φ 1340:Φ 1337:≡ 1319:Φ 1181:× 1135:∈ 1111:∈ 1045:Φ 1036:∈ 991:∈ 892:Φ 861:Φ 842:Φ 800:Φ 661:→ 652:× 643:⊆ 634:Φ 558:buildings 511:real line 447:In 1913, 353:computers 324:or other 304:concept. 270:economics 262:chemistry 18:Dynamical 7120:articles 6862:Physical 6781:Tent map 6671:Discrete 6611:branches 6541:Theorems 6377:Concepts 6317:Archived 6304:Archived 6123:(1990). 6099:(1988). 6077:(1996). 6017:(2012). 5995:(1994). 5937:. SIAM. 5819:(2003). 5768:(2000). 5740:(1992). 5700:(1991). 5677:(1989). 5651:(1982). 5621:(1982). 5586:(1967). 5522:(1978). 5448:45426376 5307:Springer 5152:16252993 5101:"Nature" 4948:See also 4761:′ 4216:elliptic 3394:) is an 3317:Tent map 3221:Examples 2833:velocity 2790:velocity 2513:iterates 2189:integers 2133:manifold 2038:locally 2036:manifold 1862:manifold 1727:for all 1627:and all 1591:through 1500:through 1490:and its 1486:through 1153:for any 622:function 574:aircraft 538:machines 524:applied 308:Overview 278:medicine 217:or by a 188:manifold 156:pendulum 132:function 7118:Related 6926:Weather 6864:systems 6657:Chaotic 6403:Fractal 5205:8677631 5185:Bibcode 5132:Bibcode 4534:Koopman 4521:is vol( 4504:Zermelo 4467:In the 3991:, 3862:, with 2884:, when 2756:where 2359:measure 2345:) is a 2337:, and ( 2289:compact 2276:, Φ*). 2185:lattice 2145:cascade 2078:. When 2023:in the 1754:and is 1599:is the 735:(where 554:bridges 473:on the 471:physics 424:History 415:and of 274:history 258:biology 238:physics 72:improve 7024:Hee Oh 6659:maps ( 6506:Mixing 6150: 6131: 6109: 6085: 6054: 6035: 6003: 5981: 5960: 5941: 5922: 5903: 5884: 5865: 5846: 5827: 5797: 5776: 5748: 5708: 5685: 5663: 5633: 5572: 5556: 5542: 5530: 5471: 5446: 5397: 5373: 5313: 5269: 5241: 5203: 5150: 5083: 4549:, the 4189:. As 3855: 3721:affine 3396:affine 3386:For a 3354:) and 3138:where 3004:, Φ). 2837:forces 2084:global 1880:(with 1023: 610:monoid 550:cranes 513:has a 292:, the 276:, and 219:vector 196:smooth 166:, and 162:, the 142:in an 61:, but 6935:Chaos 6714:outer 6418:Orbit 5444:S2CID 5201:S2CID 5175:arXiv 4687:chaos 4286:torus 3791:with 3668:When 3564:When 3466:with 3382:Flows 3346:: if 3199:is a 2910:when 2819:is a 2500:, Σ, 2341:, Σ, 2333:is a 2321:, Σ, 2151:. 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