Introduction to Applied Optimization

The matters of optimum forecasting atmospheric temperature using GPS radio occultation measurements are considered. The analysis of the available data regarding to the comparison of temperature measurements using radio occultation method and radiosondes was made. As a result it was concluded that the mean value of those results’ difference and also the mean quadratic deviation of these difference increases in common by increase of the forecasting time. In order to prevent surplus loading of telemetry channels and broadcasting inaccurate forecast values via them the optimization of general procedure of radio occultation temperature measurements are carried out using fine functions method. For optimization the concurrent parameters, changing on antiphase order are determined. It is found out that utilization of fine function method taking into account the applied optimization criterion and some limitation conditions make it possible to optimize the whole procedure of forecasting atmospheric temperature using the GPS radio occultation measurements.

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Applied Optimization and Approximation

International Journal of Mathematical Research ◽

10.18488/journal.24/2014.3.4/24.4.37.48 ◽

2014 ◽

Vol 3 (4) ◽

pp. 37-48

Author(s):

Octav Olteanu

Keyword(s):

Optimal Control ◽

Cost Function ◽

Linear Function ◽

Polynomial Approximation ◽

Moment Problem ◽

Quadratic Forms ◽

Two Dimensional ◽

Several Variables ◽

Applied Optimization ◽

The Moment

The present work deals with optimization in kinematics, generalizing previous results of the author. A second theme is maximizing the constrained gain linear function and minimizing the constrained cost function. Elementary notions of optimal control are considered as well. Finally, polynomial approximation results on unbounded subsets in several variables are applied to the moment problem. The existence of the solution of a two dimensional moment problem is characterized in terms of quadratic forms.

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Applied Optimization and Swarm Intelligence: A Systematic Review and Prospect Opportunities

Springer Tracts in Nature-Inspired Computing - Applied Optimization and Swarm Intelligence ◽

10.1007/978-981-16-0662-5_1 ◽

2021 ◽

pp. 1-23

Author(s):

Eneko Osaba ◽

Xin-She Yang

Keyword(s):

Systematic Review ◽

Swarm Intelligence ◽

Applied Optimization

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Improved performance of stellarator coil design optimization

Journal of Plasma Physics ◽

10.1017/s0022377820000227 ◽

2020 ◽

Vol 86 (2) ◽

Author(s):

Jim-Felix Lobsien ◽

Michael Drevlak ◽

Thomas Kruger ◽

Samuel Lazerson ◽

Caoxiang Zhu ◽

...

Keyword(s):

Stochastic Optimization ◽

Design Optimization ◽

Three Dimensional ◽

Local Maximum ◽

Average Field ◽

Test Case ◽

Coil Design ◽

Applied Optimization ◽

Improved Performance ◽

Coil Shape

Following up on earlier work which demonstrated an improved numerical stellarator coil design optimization performance by the use of stochastic optimization (Lobsien et al., Nucl. Fusion, vol. 58 (10), 2018, 106013), it is demonstrated here that significant further improvements can be made – lower field errors and improved robustness – for a Wendelstein 7-X test case. This is done by increasing the sample size and applying fully three-dimensional perturbations, but most importantly, by changing the design sequence in which the optimization targets are applied: optimization for field error is conducted first, with coil shape penalties only added to the objective function at a later step in the design process. A robust, feasible coil configuration with a local maximum field error of 3.66 % and an average field error of 0.95 % is achieved here, as compared to a maximum local field error of 6.08 % and average field error of 1.56 % found in our earlier work. These new results are compared to those found without stochastic optimization using the FOCUS and ONSET suites. The relationship between local minima in the optimization space and coil shape penalties is also discussed.

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