ISOPERIMETRIC PROBLEMS OF THE CALCULUS OF VARIATIONS WITH FRACTIONAL DERIVATIVES

doi:10.1016/S0252-9602(12)60043-5

Acta mathematica scientia,Series B ›› 2012, Vol. 32 ›› Issue (2): 619-630.doi: 10.1016/S0252-9602(12)60043-5

• Articles • Previous Articles Next Articles

ISOPERIMETRIC PROBLEMS OF THE CALCULUS OF VARIATIONS WITH FRACTIONAL DERIVATIVES

Ricardo Almeida¹, Rui A. C. Ferreira^1,2, Delfim F. M. Torres¹

1. Center for Research and Development in Mathematics and Applications, Department of Mathematics, University of Aveiro, 3810-193 Aveiro, Portugal;
2. Department of Mathematics, Faculty of Engineering and Natural Sciences, Lusophone University of Humanities and Technologies, 1749-024 Lisbon, Portugal

Received:2009-10-14 Revised:2010-06-30 Online:2012-03-20 Published:2012-03-20
Supported by:
This work was supported by FEDER funds through COMPETE — Operational Programme Factors of Competitiveness (“Programa Operacional Factores de Competitividade”) and by Portuguese funds through the Center for Research and Development in Mathematics
and Applications (University of Aveiro) and the Portuguese Foundation for Science and Technology (“FCT —Funda¸c˜ao para a Ciˆencia e a Tecnologia”), within project PEst-C/MAT/UI4106/2011 with COMPETE number FCOMP-01-0124-FEDER-022690.

Abstract

CLC Number:

49K05

Ricardo Almeida, Rui A. C. Ferreira, Delfim F. M. Torres. ISOPERIMETRIC PROBLEMS OF THE CALCULUS OF VARIATIONS WITH FRACTIONAL DERIVATIVES[J].Acta mathematica scientia,Series B, 2012, 32(2): 619-630.

Trendmd

[1] Agrawal O P. Formulation of Euler-Lagrange equations for fractional variational problems. J Math Anal Appl, 2002, 272(1): 368–379

[2] Agrawal O P. Fractional variational calculus and the transversality conditions. J Phys A, 2006, 39(33): 10375–10384

[3] Agrawal O P. Fractional variational calculus in terms of Riesz fractional derivatives. J Phys A, 2007, 40(24): 6287–6303

[4] Almeida R, Malinowska A B, Torres D F M. A fractional calculus of variations for multiple integrals with application to vibrating string. J Math Phys, 2010, 51(3): 033503, 12 pp.

[5] Almeida R, Torres D F M. H¨olderian variational problems subject to integral constraints. J Math Anal Appl, 2009, 359(2): 674–681

[6] Almeida R, Torres D F M. Isoperimetric problems on time scales with nabla derivatives. J Vib Control, 2009, 15(6): 951–958

[7] Almeida R, Torres D F M. Calculus of variations with fractional derivatives and fractional integrals. Appl Math Lett, 2009, 22(12): 1816–1820

[8] Almeida R, Torres D F M. Leitmann’s direct method for fractional optimization problems. Appl Math Comput, 2010, 217(3): 956–962

[9] Atanackovi´c T M, Konjik S, Pilipovi´c S. Variational problems with fractional derivatives: Euler-Lagrange equations. J Phys A, 2008, 41(9): 095201, 12 pp.

[10] Baleanu D. New applications of fractional variational principles. Rep Math Phys, 2008, 61(2): 199–206

[11] Baleanu D. Fractional variational principles in action. Phys Scr, 2009, T136: 014006

[12] Baleanu D, Maaraba T, Jarad F. Fractional variational principles with delay. J Phys A, 2008, 41(31): 315403, 8 pp.

[13] Baleanu D, Muslih S I, Rabei E M. On fractional Euler-Lagrange and Hamilton equations and the fractional generalization of total time derivative. Nonlinear Dynam, 2008, 53(1/2): 67–74

[14] Baleanu D, Trujillo J J. On exact solutions of a class of fractional Euler-Lagrange equations. Nonlinear Dynam, 2008, 52(4): 331–335

[15] Baleanu D, Trujillo J I. A new method of finding the fractional Euler-Lagrange and Hamilton equations within Caputo fractional derivatives. Commun Nonlinear Sci Numer Simul, 2010, 15(5): 1111–1115

[16] Bastos N R O, Ferreira R A C, Torres D F M. Discrete-time fractional variational problems. Signal Process, 2011, 91(3): 513–524

[17] Bl°asj¨o V. The isoperimetric problem. Amer Math Monthly, 2005, 112(6): 526–566

[18] Curtis J P. Complementary extremum principles for isoperimetric optimization problems. Optim Eng, 2004, 5(4): 417–430

[19] El-Nabulsi R A, Torres D F M. Necessary optimality conditions for fractional action-like integrals of variational calculus with Riemann-Liouville derivatives of order ( , ). Math Methods Appl Sci, 2007, 30(15): 1931–1939

[20] El-Nabulsi R A, Torres D F M. Fractional actionlike variational problems. J Math Phys, 2008, 49(5): 053521, 7 pp.

[21] Frederico G S F, Torres D F M. A formulation of Noether’s theorem for fractional problems of the calculus of variations. J Math Anal Appl, 2007, 334(2): 834–846

[22] Frederico G S F, Torres D F M. Fractional conservation laws in optimal control theory. Nonlinear Dynam, 2008, 53(3): 215–222

[23] Frederico G S F, Torres D F M. Fractional Noether’s theorem in the Riesz-Caputo sense. Appl Math Comput, 2010, 217(3): 1023–1033

[24] Herzallah M A E, Baleanu D. Fractional-order Euler-Lagrange equations and formulation of Hamiltonian equations. Nonlinear Dynam, 2009, 58(1/2): 385–391

[25] Jarad F, Maaraba T, Baleanu D. Fractional variational principles with delay within caputo derivatives. Rep Math Phys, 2010, 65(1): 17–28

[26] Jumarie G. Table of some basic fractional calculus formulae derived from a modified Riemann-Liouville derivative for non-differentiable functions. Appl Math Lett, 2009, 22(3): 378–385

[27] Malinowska A B, Torres D F M. Generalized natural boundary conditions for fractional variational problems in terms of the Caputo derivative. Comput Math Appl, 2010, 59(9): 3110–3116

[28] Miller K S, Ross B. An introduction to the fractional calculus and fractional differential equations. New York: Wiley, 1993

[29] Podlubny I. Fractional differential equations. San Diego, CA: Academic Press, 1999

[30] Ross B, Samko S G, Love E R. Functions that have no first order derivative might have fractional derivatives of all orders less than one. Real Anal Exchange, 1994/1995, 20(1): 140–157

[31] Samko S G, Kilbas A A, Marichev O I. Fractional integrals and derivatives Translated from the 1987 Russian original. Yverdon: Gordon and Breach, 1993

[32] Tarasov V E, Zaslavsky G M. Nonholonomic constraints with fractional derivatives. J Phys A, 2006, 39(31): 9797–9815

[33] van Brunt B. The calculus of variations. New York: Springer, 2004

ISOPERIMETRIC PROBLEMS OF THE CALCULUS OF VARIATIONS WITH FRACTIONAL DERIVATIVES

PDF (PC)

Abstract

Cite this article

share this article

References

Related Articles 2

Metrics

Comments

Recommended 10

[1]	N. D. Alikakos, A. C. Faliagas. THE STRESS-ENERGY TENSOR AND POHOZAEV’S IDENTITY FOR SYSTEMS [J]. Acta mathematica scientia,Series B, 2012, 32(1): 433-439.
[2]	YANG Yi-Song. ELECTRICALLY CHARGED SOLITONS IN GAUGE FIELD THEORY [J]. Acta mathematica scientia,Series B, 2010, 30(6): 1975-2005.