D. Bouattoura scite author profile

D. Bouattoura

4Publications

10Citation Statements Received

0Citation Statements Given

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Affiliations

University of Technology of Compiègne, University of Technology of Troyes

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Dynamic programming approach for newborn's incubator humidity control

Bouattoura

Villon²,

Farges

1998

IEEE Trans. Biomed. Eng.

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The anatomy, physiology, and biochemistry of the human skin have been studied for a long time. A special interest has been shown in the water permeability of the premature infant's skin, which is known to be an important factor in the maintenance of a controlled water and heat balance. The rate of evaporative heat exchange between the skin surface of a very premature infant and the surrounding incubator air may be so high that evaporative heat loss alone may exceed the infant's total metabolic heat production. However, it has been demonstrated in several investigations published in recent years that basal evaporative water loss can be consistently reduced by increasing the ambient humidity. Nevertheless, the passive humidification system (water reservoir) used in most incubators cannot achieve high and steady humidity levels. In this paper, we propose an active humidification system. The algorithm is based on a combination of optimal control theory and dynamic programming approach. The relative-humidity (R.H.) regulation is performed in range of 35-90% at 33 degrees C with small oscillations (+/- 0.5% R.H.) around the reference value (i.e., prescribed R.H.).

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Brain evoked potential topographic mapping based on the diffuse approximation

Bouattoura

Gaillard

Villon

et al. 1998

Med. Biol. Eng. Comput.

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Evoked potential mapping is a convenient technique to describe brain electrical activity using pictorial representation. A new interpolation method based on the diffuse approximation is applied to represent evoked potential distribution over the skull. The method retains most of the attractive features of the finite-element method but does not require explicit elements. In the simulation examples, the human head is assumed to be a single-layer sphere with homogeneous conductivity, and Ary eccentricity transformation is considered to approximate the more realistic three-shell model. The patterns shown in the computed maps suggest the ability of the proposed method to extract coherent information from the data from different electrodes. In the application protocol, visual evoked potentials are used to test the method with a realistic head shape.

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Multilead evoked potentials modelling based on the Prony's method

Bouattoura

Gaillard²,

Langevin³

et al.

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Prony's method for evoked potentials modeling in the multielectrode case

et al. 1997

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D. Bouattoura

Dynamic programming approach for newborn's incubator humidity control

Brain evoked potential topographic mapping based on the diffuse approximation

Multilead evoked potentials modelling based on the Prony's method

Prony's method for evoked potentials modeling in the multielectrode case

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