Showing total 11 results

1. Using the technique of scalarization to solve the multiobjective programming problems with fuzzy coefficients

Author

Wu, Hsien-Chung

Subjects

*MATHEMATICAL optimization, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research

Abstract

Abstract: Scalarization of the multiobjective programming problems with fuzzy coefficients using the embedding theorem and the concept of convex cone (ordering cone) is proposed in this paper. Since the set of all fuzzy numbers can be embedded into a normed space, this motivation naturally inspires us to invoke the scalarization techniques in vector optimization problems to evaluate the multiobjective programming problems with fuzzy coefficients. Two solution concepts are proposed in this paper by considering different convex cones. [Copyright &y& Elsevier]

Published

2008

2. A Note on Optimality Conditions for Multi-objective Problems with a Euclidean Cone of Preferences.

Author

Golubin, A.

Subjects

*PARETO optimum, *MATHEMATICAL optimization, *MATHEMATICAL analysis, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research

Abstract

The paper suggests a new-to the best of the author's knowledge-characterization of decisions, which are optimal in the multi-objective optimization problem with respect to a definite proper preference cone, a Euclidean cone with a prescribed angular radius. The main idea is to use the angle distances between the unit vector and points of utility space. A necessary and sufficient condition for the optimality in the form of an equation is derived. The first-order necessary optimality conditions are also obtained. [ABSTRACT FROM AUTHOR]

Published

2015

3. Nonsmooth Coordination and Geometric Optimization via Distributed Dynamical Systems.

Author

Cortés, Jorge and Bullo, Francesco

Subjects

*GEOMETRY, *MATHEMATICS, *EUCLID'S elements, *MATHEMATICAL optimization, *MAXIMA & minima, *OPERATIONS research

Abstract

Emerging applications for networked and cooperative robots motivate the study of motion coordination for groups of agents. For example, it is envisioned that groups of agents will perform a variety of useful tasks including surveillance, exploration, and environmental monitoring. This paper deals with basic interactions among mobile agents such as "move away from the closest other agent" or "move toward the furthest vertex of your own Voronoi polygon." These simple interactions amount to distributed dynamical systems because their implementation requires only minimal information about neighboring agents. We characterize the close relationship between these distributed dynamical systems and the disk-covering and sphere-packing cost functions from geometric optimization. Our main results are as follows: (i) we characterize the smoothness properties of these geometric cost functions, (ii) we show that the interaction laws are variations of the nonsmooth gradient of the cost functions, and (iii) we establish various asymptotic convergence properties of the laws. The technical approach relies on concepts from computational geometry, nonsmooth analysis, and nonsmooth stability theory. [ABSTRACT FROM AUTHOR]

Published

2009

4. New developments in the radial basis functions analysis of composite shells

Author

Roque, C.M.C. and Ferreira, A.J.M.

Subjects

*MATHEMATICAL optimization, *MATHEMATICAL analysis, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research

Abstract

Abstract: In this paper, we use the third order shear deformation theory of Reddy [Reddy JN. Mechanics of laminated composite plates and shells. CRC Press; 2004] with a meshless numerical method to analyze the static deformation of composite plates and shells. Numerical results are compared with Navier solutions in various examples. The meshless collocation method based on radial basis functions requires a user-defined shape parameter than can compromise the quality of the solution when poorly chosen. To improve the choice of this shape parameter, we apply an optimization technique based on the leave-one-out cross validation analysis to obtain the shape parameter in a given interval. The results obtained were significantly better than those produced with a user-defined shape parameter. [Copyright &y& Elsevier]

Published

2009

5. Research on integrated optimization design of hypersonic cruise vehicle

Author

Che, Jing and Tang, Shuo

Subjects

*MATHEMATICAL optimization, *MATHEMATICAL analysis, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research, *SIMULATION methods & models, *INDUSTRIAL efficiency

Abstract

Abstract: Optimization design is the most important key technique of Air-breathing Hypersonic Cruise Vehicle (HCV). To improve the design level and get better integrated performances of HCV, this paper researches the integrated optimization design method of waverider hypersonic cruise vehicle. In the optimization design, Multi-Objective Genetic Algorithms (MOGA) is selected as the optimization algorithm, and the shape parameters of aircraft are as design variables. Some performances, such as aerodynamics, aeroheating, radar cross section (RCS), airframe/scramjet integration, and volume of airframe, trimmed characteristic, static stability and maneuverability at cruise phase are selected as the objectives. When the optimization process finishes, the Pareto front side is got, in which many Pareto solutions whose integrated performances are more excellent than basic configuration are found. According to the design idea, we choose a Pareto solution from the Pareto front side as the recommended shape configuration for further research. To validate the aerodynamics of recommended configuration, wind tunnel test is done. And the comparison results show that the optimization design is successful. [Copyright &y& Elsevier]

Published

2008

6. Inverse min–max spanning tree problem under the Weighted sum-type Hamming distance

Author

Liu, Longcheng and Yao, Enyu

Subjects

*MATHEMATICAL optimization, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research

Abstract

Abstract: The inverse optimization problem is to modify the weight (or cost, length, capacity and so on) such that a given feasible solution becomes an optimal solution. In this paper, we consider the inverse min–max spanning tree problem under the weighted sum-type Hamming distance. For the model considered, we present its combinatorial algorithm that runs in strongly polynomial times. [Copyright &y& Elsevier]

Published

2008

7. NATURE INSPIRED INTELLIGENCE IN MEDICINE:: ANT COLONY OPTIMIZATION FOR PAP-SMEAR DIAGNOSIS.

Author

MARINAKIS, YANNIS and DOUNIAS, GEORGIOS

Subjects

*MATHEMATICAL optimization, *MATHEMATICAL analysis, *MATHEMATICS, *PROBLEM solving, *MAXIMA & minima, *OPERATIONS research

Abstract

During the last years nature inspired intelligent techniques have become attractive for analyzing large data sets and solving complex optimization problems. In this paper, one of the most interesting of them, the Ant Colony Optimization (ACO), is used for the construction of a hybrid algorithmic scheme which effectively handles the Pap Smear Cell classification problem. This algorithmic approach is properly combined with a number of nearest neighbor based approaches for performing the requested classification task, through the solution of the so-called optimal feature subset selection problem. The proposed complete algorithmic scheme is tested in two sets of data. The first one consists of 917 images of pap smear cells and the second set consists of 500 images, classified carefully by expert cyto-technicians and doctors. Each cell is described by 20 numerical features, and the cells fall into seven (7) classes, four (4) representing normal cells and three (3) abnormal cases. Nevertheless, from the medical diagnosis viewpoint, a minimum requirement corresponds to the general two-class problem of correct separation between normal from abnormal cells. [ABSTRACT FROM AUTHOR]

Published

2008

8. A filled function method with one parameter for box constrained global optimization

Author

Wang, Weixiang, Shang, Youlin, and Zhang, Liansheng

Subjects

*MATHEMATICAL optimization, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research

Abstract

Abstract: In this paper, a new auxiliary function with one parameter on box constrained for escaping the current local minimizer of global optimization problem is proposed. First, a new definition of the filled function for box constrained minimization problem is given and under mild assumptions, this new auxiliary function is really a filled function. Then a new solution algorithm is proposed according to the theoretical analysis. And some numerical results demonstrate the efficiency of this method for box constrained global optimization. [Copyright &y& Elsevier]

Published

2007

9. Multicriteria Approach to Bilevel Optimization.

Author

FLIEGE, J. and VICENTE, L. N.

Subjects

*MATHEMATICAL optimization, *MATHEMATICAL analysis, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research, *SIMULATION methods & models, *CONES, *MATHEMATICAL variables, *NONCONVEX programming

Abstract

In this paper, we study the relationship between bilevel optimization and multicriteria optimization. Given a bilevel optimization problem, we introduce an order relation such that the optimal solutions of the bilevel problem are the nondominated points with respect to the order relation. In the case where the lower-level problem of the bilevel optimization problem is convex and continuously differentiable in the lower-level variables, this order relation is equivalent to a second, more tractable order relation. Then, we show how to construct a (nonconvex) cone for which we can prove that the nondominated points with respect to the order relation induced by the cone are also nondominated points with respect to any of the two order relations mentioned before. We comment also on the practical and computational implications of our approach. [ABSTRACT FROM AUTHOR]

Published

2006

10. Generalized Motzkin Theorems of the Alternative and Vector Optimization Problems.

Author

ZENG, R. and CARON, R. J.

Subjects

*MATHEMATICAL optimization, *INTEGRAL theorems, *VECTOR spaces, *MATHEMATICAL analysis, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research, *CONVEX domains, *VECTOR analysis

Abstract

In this paper, we introduce a definition of generalized convexlike functions (preconvexlike functions). Then, under the weakened convexity, we study vector optimization problems in Hausdorff topological linear spaces. We establish some generalized Motzkin theorems of the alternative. By use of these theorems of the alternative, we obtain some Lagrangian multiplier theorems. A saddle-point theorem and a scalarization theorem are also derived. [ABSTRACT FROM AUTHOR]

Published

2006

11. A Hamiltonian-based solution to the mixed sensitivity optimization problem for stable pseudorational plants

Author

Kashima, Kenji, Özbay, Hitay, and Yamamoto, Yutaka

Subjects

*MATHEMATICAL optimization, *MATHEMATICAL analysis, *MATHEMATICS, *MAXIMA & minima, *OPERATIONS research

Abstract

Abstract: This paper considers the mixed sensitivity optimization problem for a class of infinite-dimensional stable plants. This problem is reducible to a two- or one-block control problem with structured weighting functions. We first show that these weighting functions violate the genericity assumptions of existing Hamiltonian-based solutions such as the well-known Zhou–Khargonekar formula. Then, we derive a new closed form formula for the computation of the optimal performance level, when the underlying plant structure is specified by a pseudorational transfer function. [Copyright &y& Elsevier]

Published

2005