Total monotonicity (sometimes also complete monotonicity) of a function f means that f is continuous on [0, ∞), infinitely differentiable on (0, ∞), and satisfies
for all nonnegative integersn and for all t > 0. Another convention puts the opposite inequality in the above definition.
S. N. Bernstein (1928). "Sur les fonctions absolument monotones". Acta Mathematica. 52: 1–66. doi:10.1007/BF02592679.
D. Widder (1941). The Laplace Transform. Princeton University Press.
Rene Schilling, Renming Song and Zoran Vondraček (2010). Bernstein functions. De Gruyter.
January 01, 1970
bernstein, theorem, monotone, functions, real, analysis, branch, mathematics, bernstein, theorem, states, that, every, real, valued, function, half, line, that, totally, monotone, mixture, exponential, functions, important, special, case, mixture, weighted, av. In real analysis a branch of mathematics Bernstein s theorem states that every real valued function on the half line 0 that is totally monotone is a mixture of exponential functions In one important special case the mixture is a weighted average or expected value Total monotonicity sometimes also complete monotonicity of a function f means that f is continuous on 0 infinitely differentiable on 0 and satisfies 1 n d n d t n f t 0 displaystyle 1 n frac d n dt n f t geq 0 for all nonnegative integers n and for all t gt 0 Another convention puts the opposite inequality in the above definition The weighted average statement can be characterized thus there is a non negative finite Borel measure on 0 with cumulative distribution function g such thatf t 0 e t x d g x displaystyle f t int 0 infty e tx dg x the integral being a Riemann Stieltjes integral In more abstract language the theorem characterises Laplace transforms of positive Borel measures on 0 In this form it is known as the Bernstein Widder theorem or Hausdorff Bernstein Widder theorem Felix Hausdorff had earlier characterised completely monotone sequences These are the sequences occurring in the Hausdorff moment problem Bernstein functions editNonnegative functions whose derivative is completely monotone are called Bernstein functions Every Bernstein function has the Levy Khintchine representation f t a b t 0 1 e t x m d x displaystyle f t a bt int 0 infty left 1 e tx right mu dx nbsp where a b 0 displaystyle a b geq 0 nbsp and m displaystyle mu nbsp is a measure on the positive real half line such that 0 1 x m d x lt displaystyle int 0 infty left 1 wedge x right mu dx lt infty nbsp See also editAbsolutely and completely monotonic functions and sequencesReferences editS N Bernstein 1928 Sur les fonctions absolument monotones Acta Mathematica 52 1 66 doi 10 1007 BF02592679 D Widder 1941 The Laplace Transform Princeton University Press Rene Schilling Renming Song and Zoran Vondracek 2010 Bernstein functions De Gruyter Retrieved from https en wikipedia org w index php title Bernstein 27s theorem on monotone functions amp oldid 1215315890, wikipedia, wiki, book, books, library,
