Normal Constraint Method with Guarantee of Even Representation of Complete Pareto Frontier

Messac, Achille; Mattson, Christopher A.

doi:10.2514/1.8977

Cited by 226 publications

(192 citation statements)

References 19 publications

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“…In the existing literature, we can find different analytical and numeric algorithms to approximate the Pareto front, such as Normal Boundary Intersection (NBI) (Indraneel and Dennis, 1998), Normal Constraint (NC) (Messac et al, 2003;Messac and Mattson, 2004), and Directed Search Domain (DSD) (Erfani and Utyuzhnikov, 2010). However, these methods present several shortcomings due to the significant number of redundant solutions that they can generate (Utyuzhnikov et al, 2009), and the problems that arise when the Pareto frontier is not continuous (Shukla and Deb, 2007).…”

Section: Multi-objective Optimizationmentioning

confidence: 99%

A novel approach for traffic accidents sanitary resource allocation based on multi-objective genetic algorithms

Fogue

Garrido

Martínez

et al. 2013

Expert Systems with Applications

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The development of communication technologies integrated in vehicles allows creating new protocols and applications to improve assistance in traffic accidents. Combining this technology with intelligent systems will permit to automate most of the decisions needed to generate the appropriate sanitary resource sets, thereby reducing the time from the occurrence of the accident to the stabilization and hospitalization of the injured passengers. However, generating the optimal allocation of sanitary resources is not an easy task, since there are several objectives that are mutually exclusive, such as assistance improvement, cost reduction, and balanced resource usage. In this paper, we propose a novel approach for the sanitary resources allocation in traffic accidents. Our approach is based on the use of multi-objective genetic algorithms, and it is able to generate a list of optimal solutions accounting for the most representative factors. The inputs to our model are: i) the accident notification, which is obtained through vehicular communication systems, and ii) the severity estimation for the accident, achieved through data mining. We evaluate our approach under a set of vehicular scenarios, and the results show that a memetic version of the NSGA-II algorithm was the most effective method at locating the optimal resource set, while maintaining enough variability in the solutions to allow Preprint submitted to Expert Systems with ApplicationsJuly 26, 2012 applying different resource allocation policies.

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Section: Multi-objective Optimizationmentioning

confidence: 99%

A novel approach for traffic accidents sanitary resource allocation based on multi-objective genetic algorithms

Fogue

Garrido

Martínez

et al. 2013

Expert Systems with Applications

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“…The DHCBI method shares conceptual similarities with the NBI and NC methods [6][7][8][9][10] for which an optimization is performed for each of the Pareto points sought. However, as it will be described below, the DHCBI is designed to improve the effectiveness of the search.…”

Section: The Algorithmmentioning

confidence: 99%

Computational system for multi disciplinary optimization at conceptual design stage

Fantini

Balachandran

Guenov

2008

Int. J. Simul. Multidisci. Des. Optim.

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-Presented is a computational system for multidisciplinary design optimization (MDO) at the conceptual design stage. During this phase, hundreds of low-fidelity models such as equations and compiled code, and thousands of variables are used to describe a complex product such as aircraft. In this context the paper presents a novel computational approach associated with the complete MDO process. The first aspect of the proposed approach is the dynamic derivation of the optimal computational plan for each design study, given the designer's choice of independent variables. The second aspect is the effectiveness with which the trade-off landscape is obtained. This is crucial from an engineering point of view, since such information will be used for selecting a baseline design. The approach is demonstrated with an aircraft design test case consisting of 96 models and 120 variables.

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“…This scenario is not desirable, since it would not speed-up the convergence towards the Pareto-optimal frontier. It should be noted that there exist several other scalarization schemes such as Epsilonconstraint method [18] and Normal-constraint method [18]. These scalarization schemes are designed to obtain a uniform distribution of points on the Pareto-optimal front.…”

Section: A the Scalarization Schemementioning

confidence: 99%

“…16 Update the archive (using the off-spring population). 17 until (termination) 18 Report desired number of solutions from the archive.…”

Section: B Incorporating Sqp Into Amgamentioning

confidence: 99%

Performance assessment of the hybrid Archive-based Micro Genetic Algorithm (AMGA) on the CEC09 test problems

Tiwari

Fadel

Koch

et al. 2009

2009 IEEE Congress on Evolutionary Computation

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Abstract-In this paper, the performance assessment of the hybrid Archive-based Micro Genetic Algorithm (AMGA) on a set of bound-constrained synthetic test problems is reported. The hybrid AMGA proposed in this paper is a combination of a classical gradient based single-objective optimization algorithm and an evolutionary multi-objective optimization algorithm. The gradient based optimizer is used for a fast local search and is a variant of the sequential quadratic programming method. The Matlab implementation of the SQP (provided by the fmincon optimization function) is used in this paper. The evolutionary multi-objective optimization algorithm AMGA is used as the global optimizer. A scalarization scheme based on the weighted objectives is proposed which is designed to facilitate the simultaneous improvement of all the objectives. The scalarization scheme proposed in this paper also utilizes reference points as constraints to enable the algorithm to solve non-convex optimization problems. The gradient based optimizer is used as the mutation operator of the evolutionary algorithm and a suitable scheme to switch between the genetic mutation and the gradient based mutation is proposed. The hybrid AMGA is designed to balance local versus global search strategies so as to obtain a set of diverse non-dominated solutions as quickly as possible. The simulation results of the hybrid AMGA are reported on the bound-constrained test problems described in the CEC09 benchmark suite.

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Normal Constraint Method with Guarantee of Even Representation of Complete Pareto Frontier

Cited by 226 publications

References 19 publications

A novel approach for traffic accidents sanitary resource allocation based on multi-objective genetic algorithms

A novel approach for traffic accidents sanitary resource allocation based on multi-objective genetic algorithms

Computational system for multi disciplinary optimization at conceptual design stage

Performance assessment of the hybrid Archive-based Micro Genetic Algorithm (AMGA) on the CEC09 test problems

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