Your search keyword '"Słowiński R"' showing total 3 results

1. Comparative analysis of targeted metabolomics: Dominance-based rough set approach versus orthogonal partial least square-discriminant analysis.

Author

Blasco, H., Błaszczyński, J., Billaut, J.C., Nadal-Desbarats, L., Pradat, P.F., Devos, D., Moreau, C., Andres, C.R., Emond, P., Corcia, P., and Słowiński, R.

Abstract

Background Metabolomics is an emerging field that includes ascertaining a metabolic profile from a combination of small molecules, and which has health applications. Metabolomic methods are currently applied to discover diagnostic biomarkers and to identify pathophysiological pathways involved in pathology. However, metabolomic data are complex and are usually analyzed by statistical methods. Although the methods have been widely described, most have not been either standardized or validated. Data analysis is the foundation of a robust methodology, so new mathematical methods need to be developed to assess and complement current methods. We therefore applied, for the first time, the dominance-based rough set approach (DRSA) to metabolomics data; we also assessed the complementarity of this method with standard statistical methods. Some attributes were transformed in a way allowing us to discover global and local monotonic relationships between condition and decision attributes. We used previously published metabolomics data (18 variables) for amyotrophic lateral sclerosis (ALS) and non-ALS patients. Results Principal Component Analysis (PCA) and Orthogonal Partial Least Square-Discriminant Analysis (OPLS-DA) allowed satisfactory discrimination (72.7%) between ALS and non-ALS patients. Some discriminant metabolites were identified: acetate, acetone, pyruvate and glutamine. The concentrations of acetate and pyruvate were also identified by univariate analysis as significantly different between ALS and non-ALS patients. DRSA correctly classified 68.7% of the cases and established rules involving some of the metabolites highlighted by OPLS-DA (acetate and acetone). Some rules identified potential biomarkers not revealed by OPLS-DA (beta-hydroxybutyrate). We also found a large number of common discriminating metabolites after Bayesian confirmation measures, particularly acetate, pyruvate, acetone and ascorbate, consistent with the pathophysiological pathways involved in ALS. Conclusion DRSA provides a complementary method for improving the predictive performance of the multivariate data analysis usually used in metabolomics. This method could help in the identification of metabolites involved in disease pathogenesis. Interestingly, these different strategies mostly identified the same metabolites as being discriminant. The selection of strong decision rules with high value of Bayesian confirmation provides useful information about relevant condition–decision relationships not otherwise revealed in metabolomics data. [ABSTRACT FROM AUTHOR]

Published

2015

2. Probabilistic and Fuzzy Approaches to Capacity Expansion Planning of a Water Supply System

Author

Słowiński, R., Urbaniak, A., and Węglarz, J.

Abstract

A long-term capacity expansion planning of a water supply and wastewater treatment system is considered. The criteria used to evaluate the development plans are expansion and operating costs of water intakes and treatment plants, reliability of water supply, and environmental quality. The constraints imposed on the model concern maximum capacities of intakes, treatment plants and network links, as well as the user's demands in particular periods of the twenty-year planning horizon. The planning problem is formulated as a multicriteria linear program with decision variables being flows of water delivered to users from intakes and/or recycling treatment plants in particular periods. Such data as cost coefficients, maximum capacities and the user's demands are uncertain and we propose two ways of modelling this uncertainty. The first way consists in using probabilistic description of uncertain parameters by approximate density functions. Under this assumption, the probabilistic multicriteria linear programming problem is transformed to a set of deterministic ones. The second way consists in representing uncertain parameters by fuzzy numbers. Assuming aspiration levels for particular criteria to be fuzzy and using a measure of the separation of two fuzzy numbers, the original problem is transformed into a multicriteria linear fractional program. Both problems are solved using an interactive technique involving a linear programming procedure in the calculation phase.

Published

1985

3. Modelling and Solving Multicriteria Project Scheduling Problems

Author

Słowiński, R.

Abstract

The considered class of multicriteria resource constrained project scheduling problems is defined as follows; Resources are classified into three categories, with respect to the character of the resource constraints: renewable /e.g. machines, manpower, fuel flow/, nonrenewable /e.g. money, raw materials, fuel/ and doubly-constrained /e.g. energy, investment funds/. Each job to be scheduled is characterized by a set of alternative performing modes differing from each other by the quantity and/or quality of resources and by performing time. Jobs are or are not splittable, which corresponds to the preemptive or nonpreemptive case respectively. The time and cost criteria making up the set of scheduling criteria are in general conflicting. The paper presents the formulation of these problems in terms of multicriteria linear programming /0-1 in the nonpreemptive case/ and shows interactive procedures for finding best compromise schedules.

Published

1983