Your search keyword '"Rebello, Carine M."' showing total 5 results

1. Efficient hybrid modeling and sorption model discovery for non-linear advection-diffusion-sorption systems: A systematic scientific machine learning approach

Author

Santana, Vinicius V., Costa, Erbet, Rebello, Carine M., Ribeiro, Ana Mafalda, Rackauckas, Chris, and Nogueira, Idelfonso B. R.

Subjects

Computational Engineering, Finance, and Science (cs.CE), FOS: Computer and information sciences, Computer Science - Machine Learning, Computer Science - Computational Engineering, Finance, and Science, Machine Learning (cs.LG)

Abstract

This study presents a systematic machine learning approach for creating efficient hybrid models and discovering sorption uptake models in non-linear advection-diffusion-sorption systems. It demonstrates an effective method to train these complex systems using gradient based optimizers, adjoint sensitivity analysis, and JIT-compiled vector Jacobian products, combined with spatial discretization and adaptive integrators. Sparse and symbolic regression were employed to identify missing functions in the artificial neural network. The robustness of the proposed method was tested on an in-silico data set of noisy breakthrough curve observations of fixed-bed adsorption, resulting in a well-fitted hybrid model. The study successfully reconstructed sorption uptake kinetics using sparse and symbolic regression, and accurately predicted breakthrough curves using identified polynomials, highlighting the potential of the proposed framework for discovering sorption kinetic law structures., Comment: GitHub repo made available

Published

2023

2. A new Reinforcement Learning framework to discover natural flavor molecules

Author

Queiroz, Luana P., Rebello, Carine M., Costa, Erbet A., Santana, Vinícius V., Rodrigues, Bruno C. L., Rodrigues, Alírio E., Ribeiro, Ana M., and Nogueira, Idelfonso B. R.

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, FOS: Biological sciences, Quantitative Biology - Quantitative Methods, Quantitative Methods (q-bio.QM), Machine Learning (cs.LG)

Abstract

The flavor is the focal point in the flavor industry, which follows social tendencies and behaviors. The research and development of new flavoring agents and molecules are essential in this field. On the other hand, the development of natural flavors plays a critical role in modern society. In light of this, the present work proposes a novel framework based on Scientific Machine Learning to undertake an emerging problem in flavor engineering and industry. Therefore, this work brings an innovative methodology to design new natural flavor molecules. The molecules are evaluated regarding the synthetic accessibility, the number of atoms, and the likeness to a natural or pseudo-natural product., 24 pages, 8 figures

Published

2022

3. A nested loop for simultaneous model topology screening, parameters estimation, and identification of the optimal number of experiments: Application to a Simulated Moving Bed unit

Author

Santos, Rodrigo V. A., Rebello, Carine M., Prudente, Anderson, Santana, Vinicius V., Ribeiro, Ana M., Rodrigues, Alirio E., Loureiro, Jose M., Pontes, Karen V., and Nogueira, Idelfonso B. R.

Subjects

Chemical Physics (physics.chem-ph), FOS: Computer and information sciences, Physics - Chemical Physics, FOS: Physical sciences, Applications (stat.AP), Statistics - Applications

Abstract

Simulated Moving Bed (SMB) chromatography is a well-known technique for the resolution of several high-value-added compounds. Parameters identification and model topology definition are arduous when one is dealing with complex systems such as a Simulated Moving Bed unit. Moreover, the large number of experiments necessary might be an expansive-long process. Hence, this work proposes a novel methodology for parameter estimation, screening the most suitable topology of the models sink-source (defined by the adsorption isotherm equation) and defining the minimum number of experiments necessary to identify the model. Therefore, a nested loop optimization problem is proposed with three levels considering the three main goals of the work: parameters estimation; topology screening by isotherm definition; minimum number of experiments necessary to yield a precise model. The proposed methodology emulated a real scenario by introducing noise in the data and using a Software-in-the-Loop (SIL) approach. Data reconciliation and uncertainty evaluation add robustness to the parameter estimation adding precision and reliability to the model. The methodology is validated considering experimental data from literature apart from the samples applied for parameter estimation, following a cross-validation. The results corroborate that it is possible to carry out trustworthy parameter estimation directly from an SMB unit with minimal system knowledge.

Published

2022

4. Bio-inspired Algorithms in the Optimisation of Wireless Sensor Networks

Author

Matos, Joana, Rebello, Carine M., Costa, Erbet A., Queiroz, Luana P., Regufe, Maria Joao B., and Nogueira, Idelfonso B. R.

Subjects

Computer Science - Networking and Internet Architecture, Networking and Internet Architecture (cs.NI), FOS: Computer and information sciences

Abstract

WSN are a growing technology in industrial and personal use fields. The Quality of Service (QoS) of WSN is associated to the architecture of WSN nodes and network design. In this work, the composition of the nodes and network is analysed. The success of WSN is related to the maximisation of the lifetime and coverage of the device, allied to the minimisation of energy consumption and number of nodes, guaranteeing a good network connectivity and high transmission. The most common WSN issues are presented and reviewed. The most suitable optimisation technique is Multi-objective (MOO) which is exemplified in this work from complex multi-objective functions which include several WSN problems. The second part of this review focus on bio-inspired algorithms in WSN optimisation: Genetic Algorithms (GA), Particles Swarm Optimisation (PSO) and Ant Colony Optimisation (ACO). Other less common methods are also present and related to WSN issues., Comment: We will not continue this research

Published

2022

5. A Robust Scientific Machine Learning for Optimization: A Novel Robustness Theorem

Author

Queiroz, Luana P., Rebello, Carine M., Costa, Erber A., Santana, Vinicius V., Rodrigues, Alirio E., Ribeiro, Ana M., and Nogueira, Idelfonso B. R.

Subjects

Methodology (stat.ME), FOS: Computer and information sciences, Computer Science - Machine Learning, Optimization and Control (math.OC), FOS: Mathematics, Mathematics - Optimization and Control, Statistics - Methodology, Machine Learning (cs.LG)

Abstract

Scientific machine learning (SciML) is a field of increasing interest in several different application fields. In an optimization context, SciML-based tools have enabled the development of more efficient optimization methods. However, implementing SciML tools for optimization must be rigorously evaluated and performed with caution. This work proposes the deductions of a robustness test that guarantees the robustness of multiobjective SciML-based optimization by showing that its results respect the universal approximator theorem. The test is applied in the framework of a novel methodology which is evaluated in a series of benchmarks illustrating its consistency. Moreover, the proposed methodology results are compared with feasible regions of rigorous optimization, which requires a significantly higher computational effort. Hence, this work provides a robustness test for guaranteed robustness in applying SciML tools in multiobjective optimization with lower computational effort than the existent alternative.

Published

2022