Open Problem—Regarding Static Priority Scheduling for Many-Server Queues with Reneging

This paper presents a mathematical model that provides analytic connection between four fundamental forces (interactions), by using modified reciprocal theorem,derived in the paper, as a convenient template. The essential premise of this work is to demonstrate that if we obtain with a form of the Yukawa potential function [as a meromorphic univalent function], we may eventually obtain the Coloumb Potential as a univalent function outside of the unit disk. Finally, we introduce the new problem statement about assigning Meijer's G-functions to Yukawa and Coloumb potentials as an open problem.

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Adaptive clock recovery for CBR traffic under static-priority scheduling

IET International Conference on Wireless Mobile and Multimedia Networks Proceedings (ICWMMN 2006) ◽

10.1049/cp:20061538 ◽

2006 ◽

Author(s):

Yufei Shen ◽

Ning Ge

Keyword(s):

Clock Recovery ◽

Priority Scheduling

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Compact Differences of Composition Operators on Bergman Spaces Induced by Doubling Weights

Journal of Geometric Analysis ◽

10.1007/s12220-021-00724-y ◽

2021 ◽

Author(s):

Bin Liu ◽

Jouni Rättyä ◽

Fanglei Wu

Keyword(s):

Bergman Space ◽

Open Problem ◽

Lebesgue Space ◽

Composition Operators ◽

Bergman Spaces ◽

Weighted Bergman Space ◽

Carleson Measures ◽

Doubling Weights ◽

The Way

AbstractBounded and compact differences of two composition operators acting from the weighted Bergman space $$A^p_\omega $$ A ω p to the Lebesgue space $$L^q_\nu $$ L ν q , where $$0<q<p<\infty $$ 0 < q < p < ∞ and $$\omega $$ ω belongs to the class "Equation missing" of radial weights satisfying two-sided doubling conditions, are characterized. On the way to the proofs a new description of q-Carleson measures for $$A^p_\omega $$ A ω p , with $$p>q$$ p > q and "Equation missing", involving pseudohyperbolic discs is established. This last-mentioned result generalizes the well-known characterization of q-Carleson measures for the classical weighted Bergman space $$A^p_\alpha $$ A α p with $$-1<\alpha <\infty $$ - 1 < α < ∞ to the setting of doubling weights. The case "Equation missing" is also briefly discussed and an open problem concerning this case is posed.

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Harmonicity-Aware Task Partitioning for Fixed Priority Scheduling of Probabilistic Real-Time Tasks on Multi-Core Platforms

ACM Transactions on Embedded Computing Systems ◽

10.1145/3064813 ◽

2017 ◽

Vol 16 (4) ◽

pp. 1-21 ◽

Cited By ~ 4

Author(s):

Tianyi Wang ◽

Soamar Homsi ◽

Linwei Niu ◽

Shaolei Ren ◽

Ou Bai ◽

...

Keyword(s):

Real Time ◽

Task Partitioning ◽

Priority Scheduling ◽

Fixed Priority ◽

Fixed Priority Scheduling

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Optimal regularity of stable solutions to nonlinear equations involving the p-Laplacian

Advances in Calculus of Variations ◽

10.1515/acv-2020-0055 ◽

2020 ◽

Vol 0 (0) ◽

Author(s):

Xavier Cabré ◽

Pietro Miraglio ◽

Manel Sanchón

Keyword(s):

Dirichlet Problem ◽

Optimal Condition ◽

Bounded Domain ◽

Laplace Operator ◽

Nonlinear Equations ◽

Open Problem ◽

Optimal Range ◽

Optimal Regularity ◽

Smooth Bounded Domain ◽

Stable Solutions

AbstractWe consider the equation {-\Delta_{p}u=f(u)} in a smooth bounded domain of {\mathbb{R}^{n}}, where {\Delta_{p}} is the p-Laplace operator. Explicit examples of unbounded stable energy solutions are known if {n\geq p+\frac{4p}{p-1}}. Instead, when {n<p+\frac{4p}{p-1}}, stable solutions have been proved to be bounded only in the radial case or under strong assumptions on f. In this article we solve a long-standing open problem: we prove an interior {C^{\alpha}} bound for stable solutions which holds for every nonnegative {f\in C^{1}} whenever {p\geq 2} and the optimal condition {n<p+\frac{4p}{p-1}} holds. When {p\in(1,2)}, we obtain the same result under the nonsharp assumption {n<5p}. These interior estimates lead to the boundedness of stable and extremal solutions to the associated Dirichlet problem when the domain is strictly convex. Our work extends to the p-Laplacian some of the recent results of Figalli, Ros-Oton, Serra, and the first author for the classical Laplacian, which have established the regularity of stable solutions when {p=2} in the optimal range {n<10}.

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Priority Scheduling for Interactive Applications

Proceedings of the 32nd ACM Symposium on Parallelism in Algorithms and Architectures ◽

10.1145/3350755.3400236 ◽

2020 ◽

Author(s):

Kyle Singer ◽

Noah Goldstein ◽

Stefan K. Muller ◽

Kunal Agrawal ◽

I-Ting Angelina Lee ◽

...

Keyword(s):

Priority Scheduling ◽

Interactive Applications

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Accelerating Concurrent Priority Scheduling using Adaptive in-Hardware Task Distribution in Multicores

IEEE Computer Architecture Letters ◽

10.1109/lca.2020.3045670 ◽

2020 ◽

pp. 1-1

Author(s):

Mohsin Shan ◽

Omer Khan

Keyword(s):

Priority Scheduling ◽

Task Distribution

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Some general results for many server queues

Advances in Applied Probability ◽

10.1017/s0001867800039008 ◽

1973 ◽

Vol 5 (01) ◽

pp. 153-169 ◽

Cited By ~ 8

Author(s):

J. H. A. De Smit

Keyword(s):

Integral Equations ◽

Waiting Time ◽

Queue Length ◽

Joint Distribution ◽

Waiting Times ◽

Virtual Waiting Time ◽

Server Queue ◽

Many Server Queues ◽

The Many ◽

Busy Cycle

Pollaczek's theory for the many server queue is generalized and extended. Pollaczek (1961) found the distribution of the actual waiting times in the model G/G/s as a solution of a set of integral equations. We give a somewhat more general set of integral equations from which the joint distribution of the actual waiting time and some other random variables may be found. With this joint distribution we can obtain distributions of a number of characteristic quantities, such as the virtual waiting time, the queue length, the number of busy servers, the busy period and the busy cycle. For a wide class of many server queues the formal expressions may lead to explicit results.

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Quantum Mean-Field Games with the Observations of Counting Type

Games ◽

10.3390/g12010007 ◽

2021 ◽

Vol 12 (1) ◽

pp. 7

Author(s):

Vassili N. Kolokoltsov

Keyword(s):

Game Theory ◽

Nash Equilibrium ◽

Open Problem ◽

Existence And Uniqueness ◽

Existence Of Solutions ◽

Mean Field ◽

Mean Field Games ◽

Quantum Game ◽

Quantum Games ◽

Interesting Open Problem

Quantum games and mean-field games (MFG) represent two important new branches of game theory. In a recent paper the author developed quantum MFGs merging these two branches. These quantum MFGs were based on the theory of continuous quantum observations and filtering of diffusive type. In the present paper we develop the analogous quantum MFG theory based on continuous quantum observations and filtering of counting type. However, proving existence and uniqueness of the solutions for resulting limiting forward-backward system based on jump-type processes on manifolds seems to be more complicated than for diffusions. In this paper we only prove that if a solution exists, then it gives an ϵ-Nash equilibrium for the corresponding N-player quantum game. The existence of solutions is suggested as an interesting open problem.

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