VARIATIONAL FORMULATION OF PROBLEMS INVOLVING FRACTIONAL ORDER DIFFERENTIAL OPERATORS Academic Article

abstract

• 2015 American Mathematical Society. In this work, we consider boundary value problems involving either Caputo or Riemann-Liouville fractional derivatives of order (1, 2) on the unit interval (0, 1). These fractional derivatives lead to nonsymmetric boundary value problems, which are investigated from a variational point of view. The variational problem for the Riemann-Liouville case is coercive on the space H /20 (0, 1) but the solutions are less regular, whereas that for the Caputo case involves different test and trial spaces. The numerical analysis of these problems requires the so-called shift theorems which show that the solutions of the variational problem are more regular. The regularity pickup enables one to establish convergence rates of the finite element approximations. The analytical theory is then applied to the Sturm-Liouville problem involving a fractional derivative in the leading term. Finally, extensive numerical results are presented to illustrate the error estimates for the source problem and eigenvalue problem.

authors

• Lazarov, Raytcho
• Pasciak, Joseph
• Rundell, William

published proceedings

• MATHEMATICS OF COMPUTATION

altmetric score

• 0.25

author list (cited authors)

• Jin, B., Lazarov, R., Pasciak, J., & Rundell, W.

citation count

• 128

complete list of authors

• Jin, Bangti||Lazarov, Raytcho||Pasciak, Joseph||Rundell, William

publication date

• January 2015

publisher

• American Mathematical Society (AMS)  Publisher

published in

• Mathematics of Computation  Journal

keywords

• Caputo Derivative
• Finite Element Method
• Fractional Boundary Value Problem
• Fractional Sturm-liouville Problem
• Riemann-liouville Derivative
• Variational Formulation

Digital Object Identifier (DOI)

• 10.1090/mcom/2960

start page

• 2665

end page

• 2700

volume

• 84

issue

• 296

URL

• http%3A%2F%2Fdx.doi.org%2F10.1090%2Fmcom%2F2960