Discrete-Time Algorithm for Distributed Unconstrained Optimization Problem With Finite-Time Computations

2021 ◽  
Vol 68 (1) ◽  
pp. 351-355
Author(s):  
Hongzhe Liu ◽  
Wenwu Yu
Keyword(s):  
Unconstrained Optimization ◽  
Discrete Time ◽  
Finite Time ◽  
Optimization Problem ◽  
Time Algorithm ◽  
Unconstrained Optimization Problem

scholarly journals GENO – Optimization for Classical Machine Learning Made Fast and Easy

2020 ◽  
Vol 34 (09) ◽  
pp. 13620-13621
Author(s):  
Sören Laue ◽  
Matthias Mitterreiter ◽  
Joachim Giesen
Keyword(s):  
Machine Learning ◽  
Unconstrained Optimization ◽  
Optimization Problem ◽  
Specific Problem ◽  
Optimization Problems ◽  
Modeling Language ◽  
Large Margin ◽  
Unconstrained Optimization Problem

Most problems from classical machine learning can be cast as an optimization problem. We introduce GENO (GENeric Optimization), a framework that lets the user specify a constrained or unconstrained optimization problem in an easy-to-read modeling language. GENO then generates a solver, i.e., Python code, that can solve this class of optimization problems. The generated solver is usually as fast as hand-written, problem-specific, and well-engineered solvers. Often the solvers generated by GENO are faster by a large margin compared to recently developed solvers that are tailored to a specific problem class.An online interface to our framework can be found at http://www.geno-project.org.

GENERALIZATION OF BAYESIAN RULE OF MANY SIMPLE HYPOTHESES TESTING

2003 ◽  
Vol 02 (01) ◽  
pp. 41-70 ◽  
Author(s):  
K. J. KACHIASHVILI
Keyword(s):  
Unconstrained Optimization ◽  
Bayesian Approach ◽  
Optimization Problem ◽  
Classical Case ◽  
Hypotheses Testing ◽  
Unconstrained Optimization Problem ◽  
Finite Set ◽  
Statistical Hypotheses ◽  
Space Point ◽  
Statistical Hypotheses Testing

There are different methods of statistical hypotheses testing.1–4 Among them, is Bayesian approach. A generalization of Bayesian rule of many hypotheses testing is given below. It consists of decision rule dimensionality with respect to the number of tested hypotheses, which allows to make decisions more differentiated than in the classical case and to state, instead of unconstrained optimization problem, constrained one that enables to make guaranteed decisions concerning errors of true decisions rejection, which is the key point when solving a number of practical problems. These generalizations are given both for a set of simple hypotheses, each containing one space point, and hypotheses containing a finite set of separated space points.

scholarly journals Symmetric and Positive Definite Broyden Update for Unconstrained Optimization

2019 ◽  
Vol 16 (3) ◽  
pp. 0661
Author(s):  
Mahmood Et al.
Keyword(s):  
Unconstrained Optimization ◽  
Optimization Problem ◽  
Hessian Matrix ◽  
Positive Definite ◽  
Broyden Method ◽  
Unconstrained Optimization Problem ◽  
Broyden Update ◽  
The Difference ◽  
The One ◽  
Symmetric Property

Broyden update is one of the one-rank updates which solves the unconstrained optimization problem but this update does not guarantee the positive definite and the symmetric property of Hessian matrix. In this paper the guarantee of positive definite and symmetric property for the Hessian matrix will be established by updating the vector  which represents the difference between the next gradient and the current gradient of the objective function assumed to be twice continuous and differentiable .Numerical results are reported to compare the proposed method with the Broyden method under standard problems.

The Relationship between Minimum Zone Sphere and Minimum Circumscribed Sphere and Maximum Inscribed Sphere

2012 ◽  
Vol 157-158 ◽  
pp. 658-665 ◽  
Author(s):  
Fan Wu Meng ◽  
Chun Guang Xu ◽  
Hai Ming Li ◽  
Juan Hao
Keyword(s):  
Unconstrained Optimization ◽  
Optimization Problem ◽  
Least Square ◽  
Iso Standards ◽  
Value Evaluation ◽  
Unconstrained Optimization Problem ◽  
Minimum Zone ◽  
The Relationship

Among the four methods (minimum zone sphere, minimum circumscribed sphere, maximum inscribed sphere, and least square sphere), only the minimum zone sphere complies with ANSI and ISO standards and has the minimum sphericity error value. Evaluation of sphericity error is formulated as a non-differentiable unconstrained optimization problem and hard to handle. The minimum circumscribed sphere and the maximum inscribed sphere are all easily solved by iterative comparisons, so the relationship between the minimum zone sphere and the minimum circumscribed sphere, the maximum inscribed sphere is proposed to solve efficiently the minimum zone problem. The relationship is implemented and validated with the data available in the literature.

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