A. Nicolas scite author profile

A. Nicolas

5Publications

126Citation Statements Received

41Citation Statements Given

How they've been cited

235

126

How they cite others

Affiliations

Laboratoire Ampère, École Centrale de Lyon, Claude Bernard University Lyon 1

Publications

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Model-Driven Engineering for Software Migration in a Large Industrial Context

Fleurey

Breton

Baudry

et al.

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Abstract. As development techniques, paradigms and platforms evolve far more quickly than domain applications, software modernization and migration, is a constant challenge to software engineers. For more than ten years now, the Sodifrance company has been intensively using ModelDriven Engineering (MDE) for both development and migration projects. In this paper we report on the use of MDE as an efficient, flexible and reliable approach for a migration process (reverse-engineering, transformation and code generation). Moreover, we discuss how MDE is economically profitable and is cost-effective over the migration through out-sourced manual re-development. The paper is illustrated with the migration of a large-scale banking system from Mainframe to J2EE.

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Electromagnetic fields and human body: a new challenge for the electromagnetic field computation

Siauve

Scorretti

Burais

et al. 2003

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The electromagnetic fields have a great influence on the behaviour of all the living systems. The as low as reasonably achievable (ALARA) principle imposes, in case of long exposures to low (i.e. power systems) or high frequency (i.e. microwave systems or cell phones) fields, some limitations to the radiated fields by the industrial equipment. On the other hand, some benefits can be taken from the effects of the electromagnetic fields on the living being: the hyperthermal technique is well known for the treatment of the cancer. Either we want to be protected from the fields, or we want to take benefit of the positive effects of these fields, all the effects thermal as well as genetic have to be well known. Like in any industrial application, the electromagnetic field computation allows a better knowledge of the phenomena, and an optimised design. Hence, there is a very important challenge for the techniques of computation of electromagnetic fields. The major difficulties that appear are: (1) related to the material properties -the "material" (the human body) has very unusual properties (magnetic permeability, electric permittivity, electric conductivity), these properties are not well known and depend on the activity of the person, and this material is an active material at the cell scale; (2) related to the coupling phenomena -the problem is actually a coupled problem: the thermal effect is one of the major effects and it is affected by the blood circulation; (3) related to the geometry -the geometry is complex and one has to take into account the environment. The problems that we have to face with are -the identification of the properties of the "material", the coupled problem solution and the representation of the simulated phenomena.

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Investigation of factors affecting the preparation of PZT thick films

Dren

Simon

Gonnard

et al. 2000

Materials Research Bulletin

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Genetic algorithm coupled with a deterministic method for optimization in electromagnetics

Vasconcelos¹,

Saldanha²,

Krähenbühl³

et al. 1997

IEEE Trans. Magn.

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International audienceIn this paper, a hybrid technique for global optimization based on the genetic algorithm and a deterministic method is presented. A potential advantage of the hybrid method compared to the genetic algorithm is that global optimization can be performed more efficiently. An intrinsic problem of the hybrid techniques is related to the moment of stopping the stochastic routine to launch the deterministic one. This is investigated using some natural criteria for the commutation between the two methods. The results show that it is possible to gain in efficiency and in accuracy but the criterion is usually problem dependent. Finally, to show the solution of a real problem, the hybrid algorithm is coupled to a 2D code based on the boundary element method to optimize a connector of 145 kV GI

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Niching genetic algorithms for optimization in electromagnetics. I. Fundamentals

1998

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A. Nicolas

Model-Driven Engineering for Software Migration in a Large Industrial Context

Electromagnetic fields and human body: a new challenge for the electromagnetic field computation

Investigation of factors affecting the preparation of PZT thick films

Genetic algorithm coupled with a deterministic method for optimization in electromagnetics

Niching genetic algorithms for optimization in electromagnetics. I. Fundamentals

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