DynamicsofTwoCoupledVanderPolOscillatorswithDelayCouplingRevisited
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1 Global Journal of Science Frontier Research: F Mathematics and Decision Sciences Volume 7 Issue 5 Version.0 Year 07 Type : Double Blind Peer Reviewed International Research Journal Publisher: Global Journals Inc. USA Online ISSN: & Print ISSN: Dynamics of Two Coupled Van der Pol Oscillators with Delay Coupling Revisited By Mark Gluzman & Richard Rand Cornell University, United States Abstract- The problem of two van der Pol oscillators coupled by velocity delay terms was studied by Wirkus and Rand in 00 [5]. The small-εε analysis resulted in a slow flow which contained delay terms. To simplify the analysis, Wirkus and Rand followed a common procedure of replacing the delay terms by non-delayed terms, a step said to be valid for small εε, resulting in a slow flow which was an ODE rather than a DDE delay-differential equation. In the present paper we consider the same problem but leave the delay terms in the slow flow, there by offering an evaluation of the approximate simplification made in [5]. GJSFR-F Classification: MSC 00: 00A69 DynamicsofTwoCoupledVanderPolOscillatorswithDelayCouplingRevisited Strictly as per the compliance and regulations of : 07. Mark Gluzman & Richard Rand. This is a research/review paper, distributed under the terms of the Creative Commons Attribution-Noncommercial 3.0 Unported License permitting all non commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
2 Ref 4. Sah, S.M. and Rand, R.H. 06 Delay Terms in the Slow Flow, Journal of Applied Nonlinear Dynamics 54: Dynamics of Two Coupled Van der Pol Oscillators with Delay Coupling Revisited Mark Gluzman α & Richard Rand σ Abstract- The problem of two van der Pol oscillators coupled by velocity delay terms was studied by Wirkus and Rand in 00 [5]. The small-εε analysis resulted in a slow flow which contained delay terms. To simplify the analysis, Wirkus and Rand followed a common procedure of replacing the delay terms by non-delayed terms, a step said to be valid for small εε, resulting in a slow flow which was an ODE rather than a DDE delay-differential equation. In the present paper we consider the same problem but leave the delay terms in the slow flow, thereby offering an evaluation of the approximate simplification made in [5]. I. Introduction In a recent paper by Sah and Rand [4], it was shown that a class of nonlinear oscillators with delayed self-feedback gave rise via a perturbation solution to a DDE slow flow. An exact solution was obtained to the DDE slow flow and was compared to the approximate solution resulting from the common approach of replacing the delayed variables in the slow flow with non-delayed variables, thereby replacing the DDE slow flow with an easier to solve ODE slow flow. The paper by Sah and Rand [4] was motivated by numerous papers in the literature of nonlinear dynamics in which the DDE slow flow is replaced by an approximate ODE slow flow, for example [], [], [5]. In particular, in 00 Wirkus and Rand wrote a paper entitled \The Dynamics of Two Coupled van der Pol Oscillators with Delay Coupling" [5] in which averaging was used to derive a slow flow which governed the stability of the in-phase mode. In studying the resulting slow flow, Wirkus and Rand replaced certain delayed quantities with non-delayed versions in order to simplify the analysis. In this paper we reexamine the previously studied system with the idea of leaving the delayed quantities in the slow flow. II. The governing equations are: Delay-Coupled Van Der Pol Oscillators ẍ + x ε x ẋ = εαẋ t T ẍ + x ε x ẋ = εαẋ t T Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 F Author α: Center for Applied Mathematics Cornell University. Author σ: Dept. Mathematics and Dept. Mechanical and Aerospace Engineering, Cornell University. rrand@cornell.edu 07 Global Journals Inc. US
3 Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 F This system admits an in-phase mode in which xx = xx = yytt where In order to investigate the stability of the in - phase mode y t, we will first obtain an approximate expression for it using Lindstedt's method. We replace independent variable t by stretched time τ: so that eq.3 becomes: where primes represent differentiation with respect to τ. We expand y in a power series in ε, y = y 0 + εy + 6 and substitute 6 into 5. After collecting terms, we get We take the solution of 7 to be and substitute 9 into 8, giving Removing secular terms in 0, we obtain Thus the in-phase mode by the approximation III. ÿ + y ε y ẏ = εαẏt T τ = ωt, where ω = + εk + Oε ω y + y ε y ωy = εαωy τ ωt y 0 + y 0 y + y = ky 0 + y0y 0 + αy 0τ T x = x = yt, the stability of which is desired, is given Stability of the in-phase Mode In order to study the stability of the motion, we set where w and w are deviations off of the in-phase mode x = x = yt. Substituting 3 into and and using 3, we obtain the following equations on w and w, linearized about w = w = 0: Equations 4 and 5 can be uncoupled by setting = 0 7 y 0 = R cos τ y + y = kr + αr sin T cos τ + R + R3 R3 αr cos T sin τ + sin3τ k = α sin T and R = + α cos T yt = R cos ωt = + α cos T cos α ε sin T t x = yt + w and x = yt + w ẅ + + εyẏw ε y ẇ = εαẇ t T ẅ + + εyẏw ε y ẇ = εαẇ t T z = w + w and z = w w Notes 07 Global Journals Inc. US
4 Giving z + + εyẏz ε y ż = εαż t T 7 Ref. Atay, F.M. 998 Van der Pol's oscillator under delayed feedback, Journal of Sound and Vibration 8: The only difference between these two equations is the sign of the right-hand side, which may be absorbed into a new coefficient, call it β, which equals either or -: where u = z for β = and u = z for β =. In eq.9, yt is given by eq.. In order to study the boundedness of solutions to eq.9, we return to using τ =ωt as independent variable, where ω = αε sin T : We study 0 by using the two variable perturbation method [3]. We let ξ=τ and η = ετ, giving: where yξ = R cos ξ, R = + α cos T, ω = αε sin T and where we have neglected terms of Oε. Now we expand u = u 0 + εu + Oε and collect terms, giving: We take the solution of in the form Note that z + + εyẏz ε y ż = εαż t T 8 ü + + εyẏu ε y u = εβα ut T ω u + + εωyy u ε y ωu = εβαωu τ ωt 0 ω u ξξ + u ξη + + εωyy ξ u ε y ωu ξ = εβαωu ξ ξ ωt, η εωt u 0ξξ + u 0 = 0 u ξξ + u = u 0ξ η α sin T u 0ξξ α cos T cos ξ sin ξ u 0 where Substituting 4,5 into 3 and eliminating secular terms gives the slow flow d A d η The slow flow 6,7 is a system of linear delay-differential equations DDEs. A common approach to treating such a system is to replace the delayed variables by nondelayed variables, as in A d = A and B d = B. To support such a step, it is often argued that since a Taylor expansion gives Aη εt = Aη + Oε, the replacement of A d by A is an approximation valid for small ε [],[],[4]. Let us follow this procedure and see what we get, and then compare results with what we would get by treating the system as a DDE. Replacing A d and B d by A and B, we obtain the ODE system: 4 + α cos T cos ξ u0 ξ + αβu 0ξ ξ T, η εt 3 u 0 = Aη cos ξ + Bη sin ξ 4 u 0 ξ T, η εt = A d cosξ T + B d sinξ T A d = Aη εt and B d = Bη εt 5 = A 3 α A cos T d B d η d dη = α A sin T A B + α B sin T α B cos T + α A d β cos T + α A d β sin T = + αβ 3 cos T α β sin T β sin T β cos T α α α β B d sin T + α β B d cos T A B Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 3F 07 Global Journals Inc. US
5 Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 4F Recall from eqs.7-9 that there are two cases, β = + and β =. In the case that β =, the system 8 becomes: d A α cos T α sin T A = 9 dη B α sin T α cos T B This system of ODEs exhibits both Hopf and saddle-node bifurcations. The Hopf bifurcations occur when the trace = 3α cos T = 0 with positive determinant, i.e. when Hopf bifurcations: α = 30 3 cos T The saddle-node bifurcations occur when the determinant = α + α cos T + α cos T = 0, i.e. when Now let us consider the other case, β = +. In this case the ODE system 8 becomes: From eq. we see that the amplitude of the in-phase mode, whose stability we are investigating, is given by R = + α cos T. Inspection of 3 shows that that system exhibits the birth of the in-phase mode when birth of the in-phase mode: α = 33 cos T We note that all of the bifurcations 30,3,33 were observed by Wirkus and Rand [5] in their original work on this system. In what follows, we return to the DDE system 6-7, but we do not make the simplifying assumption of replacing A d by A and B d by B. In order to treat the DDE system, we set: where P and Q are constants. We are particularly interested in the effect of the DDE slow flow on Hopf bifurcations, eq.30. Thus we restrict ourselves to the case β =, whereby we obtain the following pair of algebraic equations on P and Q: For a nontrivial solution, the determinant must vanish: saddle-node bifurcations: α = 0 and α = cos T + cos T d dη A B = α cos T A B 3 A = P e λη, B = Qe λη, A d = P e λη εt, B d = Qe λη εt 34 α e λ ε T cos T 3 α cos T α e λ λ ε T sin T + α sin T P = 0 α e λ ε T sin T α sin T α e λ ε T cos T α cos T λ Q 0 α cos T λ e ε T λ α sin T e ε T λ T λ α cos T e ε + + α e ε T λ 3 35 Notes 5. Wirkus, S. and Rand, R. 00 Dynamics of Two Coupled van der Pol Oscillators with Delay Coupling, Nonlinear Dynamics 30: α e ε T λ 4 + λ + α cos T λ + λ α sin T + α cos T + 3 α 4 = Global Journals Inc. US
6 Ref. Morrison, T.M. and Rand, R.H. 007 : Resonance in the delayed nonlinear Mathieu equation, Nonlinear Dynamics 50: For ε=0 and β = the DDE system 6, 7 reduces to the ODE system 9, which exhibits a Hopf bifurcation 30 when α =. By determining the location 3 cos T of the associated Hopf bifurcation in 36 for ε > 0 we may assess the accuracy of the often made approximation based on replacing the delayed variables in the slow flow with non-delayed variables. In the case of the ODE system 9, we obtained the conditions for a Hopf bifurcation, namely that there be a pair of pure imaginary eigenvalues, by requiring the trace of the matrix 9 to be zero. In the case of the DDE system 6, 7, we seek a Hopf bifurcation by setting λ = iω in 36. We seek a solution to 36 in the form of a perturbation series in ε by expanding T = T 0 + εt + ε T + 37 Ω = Ω 0 + εω + ε Ω + 38 Separating 36 into real and imaginary parts and collecting like powers of ε allows us to obtain the following expressions: cos T 0 = 3α Ω 0 = 9 α 3 T = 9 α T 0 9 Ω = 8 α 5 T α 9 α 7 α 6 T α 4 36 α + T 0 T = α 6 9α 809 α α 4 06α + 9T 0 + 9α 648α 4 34 α + 40T 0 Ω = IV α α Results and Conclusions To summarize our treatment of the original coupled van der Pol eqs.,, we first used Lindstedt's method to obtain an approximate expression for the in-phase mode, eq.. Then we studied the stability of the in-phase mode by applying the two variable perturbation method to eq.0. This resulted in the DDE slow flow 6, 7. We investigated this system of equations in two ways: First we followed a number of other works [],[],[4] by replacing the delayed variables A d and B d by non-delayed variables A and B. This resulted in a system of ODEs 8 which possessed Hopf and saddle-node bifurcations, in agreement with the earlier work of Wirkus and Rand [5]. Then we treated the slow flow system 6,7 as DDEs which resulted in a transcendental characteristic equation 36 which is harder to solve than the more familiar polynomial characteristic equations of ODEs. We sought a series solution 37, 38 and obtained the results listed in eqs The results are plotted in Fig. where we show the critical delay for Hopf bifurcation THopf versus coupling strength α for ε = 0.5. The dashed curve is the analytical Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 5F 07 Global Journals Inc. US
7 Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 6F approximation based on replacing the delay terms in the slow flow 6,7 by nondelayed variables, as in A d = A and B d =B. Thus the dashed curve corresponds to ε = 0. The dash-dot curve and the solid curve correspond to the analytical approximations respectively given by - and 3-term truncations of eq.37. The + signs represent stability transitions obtained by numerical integration of the DDEs 6-7. The comparison between the various approximations for the critical delay for Hopf bifurcation shown in Fig. is further explored in Table, where we list the errors obtained using -, - and 3-term truncations of eq.37 compared to values obtained by numerical integration of the DDEs 6-7. The maximum error is computed over the set α [, 3 ]. Here α = is chosen because α, T =, 3π is a point of intersection of the bifurcation curves α = cost and, compare eqs.30,3. We consider +cos T α= absolute error max T α T n α, relative error max, and percent error α [ max α [ 3, ] T α Tnα 3, ] T α 00%, where T α is the value we get by numerical integration of the DDEs 6-7 and T n α is the value given by the n-term truncation of eq.37. We also note that the maximum in all three cases was attained at α =. As previously noted, replacing the delay terms in the slow flow 6,7 by non delayed variables means that we take only the first term in eq.37 and n =. In this case, the error incurred by omitting the delay terms in the slow flow is generally about 3 to 5% for small values of ε. On the other hand, the 3-term truncation of eq.37 typically has the percent error less than %. 3 cos T T α Tnα α [ 3, ] T α Notes Figure : Critical delay for Hopf bifurcation versus αα for εε = 0.5. Dashed curve is the analytical approximation based on replacing the delay terms in the slow flow 6, 7 by non-delayed variables, as in A d = A and B d = B. Thus the dashed curve corresponds to εε = 0. The dash-dot curve and the solid curve correspond to the analytical approximations respectively given by - and 3-term truncations of eq.37. The + signs represent stability transitions obtained by numerical integration of the DDEs Global Journals Inc. US
8 Notes Table : Errors in critical delay for Hopf bifurcation produced by -, - and 3-term truncations of eq.37 as compared to values obtained by numerical integration of the slow flow 6-7. The errors are defined as absolute error max T α T n α, α [ 3, ] relative error max, and percent error max T α T α 00%, where T α is the value we get by numerical integration of the DDEs 6-7 and T n α value given by the n-term truncation of eq.37. α [ 3, ] T α Tnα ε = 0. ε = 0.3 ε = 0.5 n terms in 37 n= n= n=3 n= n= n=3 n= n= n=3 absolute error relative error percent error 3.07% 0.3% 0.05% 8.5%.6% 0.7% 3.% 4.47% 0.7% V. Acknowledgement The authors thank Alex Bernstein for reading the manuscript. T α Tnα α [ 3, ] References Références Referencias is the. Atay, F.M. 998 Van der Pol's oscillator under delayed feedback, Journal of Sound and Vibration 8: Morrison, T.M. and Rand, R.H. 007 : Resonance in the delayed nonlinear Mathieu equation, Nonlinear Dynamics 50: Rand, R.H. 0 Lecture Notes in Nonlinear Vibrations, published on-line by The Internet-First University Press. / Sah, S.M. and Rand, R.H. 06 Delay Terms in the Slow Flow, Journal of Applied Nonlinear Dynamics 54: Wirkus, S. and Rand, R. 00 Dynamics of Two Coupled van der Pol Oscillators with Delay Coupling, Nonlinear Dynamics 30:05-. Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 7F 07 Global Journals Inc. US
9 Global Journal of Science Frontier Research Volume XVII Issue V V ersion I Year 07 8F This page is intentionally left blank 07 Global Journals Inc. US
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