Monotone functions and extremal functions for condensers in R^n

The class of holomorphic self-maps of a disk with a boundary fixed point is studied. For this class of functions, the famous Julia–Carathéodory theorem gives a sharp estimate of the angular derivative at the boundary fixed point in terms of the image of the interior point. In the case when additional information about the value of the derivative at the interior point is known, a sharp estimate of the angular derivative at the boundary fixed point is obtained. As a consequence, the sharpness of the boundary Dieudonné–Pick lemma is established and the class of the extremal functions is identified. An unimprovable strengthening of the Osserman general boundary lemma is also obtained.

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On fixed point theorems of monotone functions in Ordered metric spaces

The Journal of Analysis ◽

10.1007/s41478-021-00308-7 ◽

2021 ◽

Author(s):

K. Kalyani ◽

N. Seshagiri Rao ◽

Belay Mitiku

Keyword(s):

Fixed Point ◽

Fixed Point Theorems ◽

Metric Spaces ◽

Monotone Functions ◽

Ordered Metric Spaces

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Tail Asymptotics for Monotone-Separable Networks

Journal of Applied Probability ◽

10.1017/s002190020011784x ◽

2007 ◽

Vol 44 (02) ◽

pp. 306-320

Author(s):

Marc Lelarge

Keyword(s):

Queueing Network ◽

Network Models ◽

Moment Generating Function ◽

Stochastic Petri Nets ◽

Arrival Process ◽

Polling Systems ◽

Tail Asymptotics ◽

State Variables ◽

Monotone Functions ◽

Jackson Networks

A network belongs to the monotone separable class if its state variables are homogeneous and monotone functions of the epochs of the arrival process. This framework contains several classical queueing network models, including generalized Jackson networks, max-plus networks, polling systems, multiserver queues, and various classes of stochastic Petri nets. We use comparison relationships between networks of this class with independent and identically distributed driving sequences and the GI/GI/1/1 queue to obtain the tail asymptotics of the stationary maximal dater under light-tailed assumptions for service times. The exponential rate of decay is given as a function of a logarithmic moment generating function. We exemplify an explicit computation of this rate for the case of queues in tandem under various stochastic assumptions.

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Initial logarithmic coefficients for functions starlike with respect to symmetric points

Boletín de la Sociedad Matemática Mexicana ◽

10.1007/s40590-021-00370-y ◽

2021 ◽

Vol 27 (3) ◽

Author(s):

Paweł Zaprawa

Keyword(s):

Exact Result ◽

Positive Real Part ◽

Additional Benefit ◽

Extremal Functions ◽

Positive Real ◽

Logarithmic Coefficients ◽

Symmetric Points

AbstractIn this paper, we obtain the bounds of the initial logarithmic coefficients for functions in the classes $${\mathcal {S}}_S^*$$ S S ∗ and $${\mathcal {K}}_S$$ K S of functions which are starlike with respect to symmetric points and convex with respect to symmetric points, respectively. In our research, we use a different approach than the usual one in which the coeffcients of f are expressed by the corresponding coeffcients of functions with positive real part. In what follows, we express the coeffcients of f in $${\mathcal {S}}_S^*$$ S S ∗ and $${\mathcal {K}}_S$$ K S by the corresponding coeffcients of Schwarz functions. In the proofs, we apply some inequalities for these functions obtained by Prokhorov and Szynal, by Carlson and by Efraimidis. This approach offers a additional benefit. In many cases, it is easily possible to predict the exact result and to select extremal functions. It is the case for $${\mathcal {S}}_S^*$$ S S ∗ and $${\mathcal {K}}_S$$ K S .

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