Machine-learning-accelerated multimodal characterization and multiobjective design optimization of natural porous materials

<p>Machine learning (ML) has brought significant technological innovations in many fields, but it has not been widely embraced by most researchers of natural sciences to date. Traditional understanding and promotion of chemical analysis cannot meet the definition and requirement of big data for running of ML. Over the years, we focused on building a more versatile and low-cost approach to the acquisition of copious amounts of data containing in a chemical reaction. The generated data meet exclusively the thirst of ML when swimming in the vast space of chemical effect. As proof in this study, we carried out a case for acute toxicity test throughout the whole routine, from model building, chip preparation, data collection, and ML training. Such a strategy will probably play an important role in connecting ML with much research in natural science in the future.</p>

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Multiobjective design optimization of CFRP isogrid tubes using sunflower optimization based on metamodel

Computers & Structures ◽

10.1016/j.compstruc.2021.106508 ◽

2021 ◽

Vol 249 ◽

pp. 106508

Author(s):

Matheus Brendon Francisco ◽

João Luiz Junho Pereira ◽

Guilherme Antônio Oliver ◽

Fernando Helton Sanches da Silva ◽

Sebastião Simões da Cunha ◽

...

Keyword(s):

Design Optimization ◽

Multiobjective Design

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Machine Learning for Design Optimization of Electromagnetic Devices: Recent Developments and Future Directions

Applied Sciences ◽

10.3390/app11041627 ◽

2021 ◽

Vol 11 (4) ◽

pp. 1627

Author(s):

Yanbin Li ◽

Gang Lei ◽

Gerd Bramerdorfer ◽

Sheng Peng ◽

Xiaodong Sun ◽

...

Keyword(s):

Machine Learning ◽

Design Optimization ◽

Optimization Methods ◽

Machine Learning Algorithms ◽

Cloud Services ◽

Robust Design Optimization ◽

Support Vector ◽

Future Directions ◽

Electromagnetic Devices ◽

Recent Developments

This paper reviews the recent developments of design optimization methods for electromagnetic devices, with a focus on machine learning methods. First, the recent advances in multi-objective, multidisciplinary, multilevel, topology, fuzzy, and robust design optimization of electromagnetic devices are overviewed. Second, a review is presented to the performance prediction and design optimization of electromagnetic devices based on the machine learning algorithms, including artificial neural network, support vector machine, extreme learning machine, random forest, and deep learning. Last, to meet modern requirements of high manufacturing/production quality and lifetime reliability, several promising topics, including the application of cloud services and digital twin, are discussed as future directions for design optimization of electromagnetic devices.

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Clinically applicable machine learning approaches to identify attributes of Chronic Kidney Disease (CKD) for use in low-cost diagnostic screening

IEEE Journal of Translational Engineering in Health and Medicine ◽

10.1109/jtehm.2021.3073629 ◽

2021 ◽

pp. 1-1

Author(s):

Md. Rashed-Al-Mahfuz ◽

Abedul Haque ◽

AKM Azad ◽

Salem A. Alyami ◽

Julian M.W. Quinn ◽

...

Keyword(s):

Machine Learning ◽

Chronic Kidney Disease ◽

Kidney Disease ◽

Low Cost ◽

Learning Approaches ◽

Diagnostic Screening

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A Machine Vision Approach for Bioreactor Foam Sensing

SLAS TECHNOLOGY Translating Life Sciences Innovation ◽

10.1177/24726303211008861 ◽

2021 ◽

pp. 247263032110088

Author(s):

Jonas Austerjost ◽

Robert Söldner ◽

Christoffer Edlund ◽

Johan Trygg ◽

David Pollard ◽

...

Keyword(s):

Machine Learning ◽

Machine Vision ◽

State Of The Art ◽

Low Cost ◽

High Accuracy ◽

Consumer Electronics ◽

Learning System ◽

Automotive Applications ◽

Fine Grained

Machine vision is a powerful technology that has become increasingly popular and accurate during the last decade due to rapid advances in the field of machine learning. The majority of machine vision applications are currently found in consumer electronics, automotive applications, and quality control, yet the potential for bioprocessing applications is tremendous. For instance, detecting and controlling foam emergence is important for all upstream bioprocesses, but the lack of robust foam sensing often leads to batch failures from foam-outs or overaddition of antifoam agents. Here, we report a new low-cost, flexible, and reliable foam sensor concept for bioreactor applications. The concept applies convolutional neural networks (CNNs), a state-of-the-art machine learning system for image processing. The implemented method shows high accuracy for both binary foam detection (foam/no foam) and fine-grained classification of foam levels.

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Digital Smoke Taint Detection in Pinot Grigio Wines Using an E-Nose and Machine Learning Algorithms Following Treatment with Activated Carbon and a Cleaving Enzyme

Fermentation ◽

10.3390/fermentation7030119 ◽

2021 ◽

Vol 7 (3) ◽

pp. 119

Author(s):

Vasiliki Summerson ◽

Claudia Gonzalez Viejo ◽

Damir D. Torrico ◽

Alexis Pang ◽

Sigfredo Fuentes

Keyword(s):

Machine Learning ◽

Activated Carbon ◽

Low Cost ◽

Aroma Compounds ◽

Machine Learning Algorithms ◽

Enzyme Treatment ◽

Mean Values ◽

Volatile Aroma ◽

Carbon Treatment ◽

Volatile Aroma Compounds

The incidence and intensity of bushfires is increasing due to climate change, resulting in a greater risk of smoke taint development in wine. In this study, smoke-tainted and non-smoke-tainted wines were subjected to treatments using activated carbon with/without the addition of a cleaving enzyme treatment to hydrolyze glycoconjugates. Chemical measurements and volatile aroma compounds were assessed for each treatment, with the two smoke taint amelioration treatments exhibiting lower mean values for volatile aroma compounds exhibiting positive ‘fruit’ aromas. Furthermore, a low-cost electronic nose (e-nose) was used to assess the wines. A machine learning model based on artificial neural networks (ANN) was developed using the e-nose outputs from the unsmoked control wine, unsmoked wine with activated carbon treatment, unsmoked wine with a cleaving enzyme plus activated carbon treatment, and smoke-tainted control wine samples as inputs to classify the wines according to the smoke taint amelioration treatment. The model displayed a high overall accuracy of 98% in classifying the e-nose readings, illustrating it may be a rapid, cost-effective tool for winemakers to assess the effectiveness of smoke taint amelioration treatment by activated carbon with/without the use of a cleaving enzyme. Furthermore, the use of a cleaving enzyme coupled with activated carbon was found to be effective in ameliorating smoke taint in wine and may help delay the resurgence of smoke aromas in wine following the aging and hydrolysis of glycoconjugates.

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Developing Relative Humidity and Temperature Corrections for Low-Cost Sensors Using Machine Learning

Sensors ◽

10.3390/s21103338 ◽

2021 ◽

Vol 21 (10) ◽

pp. 3338

Author(s):

Ivan Vajs ◽

Dejan Drajic ◽

Nenad Gligoric ◽

Ilija Radovanovic ◽

Ivan Popovic

Keyword(s):

Machine Learning ◽

Air Quality ◽

Relative Humidity ◽

Low Cost ◽

Quality Monitoring ◽

Air Quality Monitoring ◽

Lower Accuracy ◽

Wide Range ◽

The Impact ◽

Monitoring Stations

Existing government air quality monitoring networks consist of static measurement stations, which are highly reliable and accurately measure a wide range of air pollutants, but they are very large, expensive and require significant amounts of maintenance. As a promising solution, low-cost sensors are being introduced as complementary, air quality monitoring stations. These sensors are, however, not reliable due to the lower accuracy, short life cycle and corresponding calibration issues. Recent studies have shown that low-cost sensors are affected by relative humidity and temperature. In this paper, we explore methods to additionally improve the calibration algorithms with the aim to increase the measurement accuracy considering the impact of temperature and humidity on the readings, by using machine learning. A detailed comparative analysis of linear regression, artificial neural network and random forest algorithms are presented, analyzing their performance on the measurements of CO, NO2 and PM10 particles, with promising results and an achieved R2 of 0.93–0.97, 0.82–0.94 and 0.73–0.89 dependent on the observed period of the year, respectively, for each pollutant. A comprehensive analysis and recommendations on how low-cost sensors could be used as complementary monitoring stations to the reference ones, to increase spatial and temporal measurement resolution, is provided.

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An Automated Machine Learning-Genetic Algorithm Framework With Active Learning for Design Optimization

Journal of Energy Resources Technology ◽

10.1115/1.4050489 ◽

2021 ◽

Vol 143 (8) ◽

Author(s):

Opeoluwa Owoyele ◽

Pinaki Pal ◽

Alvaro Vidal Torreira

Keyword(s):

Machine Learning ◽

Active Learning ◽

Design Optimization ◽

Fuel Injection ◽

A Priori ◽

Computational Cost ◽

Learning Approach ◽

Data Generation ◽

Compression Ignition Engine ◽

Hyperparameter Selection

AbstractThe use of machine learning (ML)-based surrogate models is a promising technique to significantly accelerate simulation-driven design optimization of internal combustion (IC) engines, due to the high computational cost of running computational fluid dynamics (CFD) simulations. However, training the ML models requires hyperparameter selection, which is often done using trial-and-error and domain expertise. Another challenge is that the data required to train these models are often unknown a priori. In this work, we present an automated hyperparameter selection technique coupled with an active learning approach to address these challenges. The technique presented in this study involves the use of a Bayesian approach to optimize the hyperparameters of the base learners that make up a super learner model. In addition to performing hyperparameter optimization (HPO), an active learning approach is employed, where the process of data generation using simulations, ML training, and surrogate optimization is performed repeatedly to refine the solution in the vicinity of the predicted optimum. The proposed approach is applied to the optimization of a compression ignition engine with control parameters relating to fuel injection, in-cylinder flow, and thermodynamic conditions. It is demonstrated that by automatically selecting the best values of the hyperparameters, a 1.6% improvement in merit value is obtained, compared to an improvement of 1.0% with default hyperparameters. Overall, the framework introduced in this study reduces the need for technical expertise in training ML models for optimization while also reducing the number of simulations needed for performing surrogate-based design optimization.

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Machine Learning Models for Finger Bend Evaluation using Implemented Low cost Flex Sensor

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.35742 ◽

2021 ◽

Vol 9 (VI) ◽

pp. 3605-3611

Author(s):

Pratyush Kaware

Keyword(s):

Machine Learning ◽

Support Vector Machine ◽

Low Cost ◽

Learning Algorithms ◽

Cost Effective ◽

Machine Learning Algorithms ◽

Support Vector ◽

Learning Models ◽

Machine Learning Models

In this paper a cost-effective sensor has been implemented to read finger bend signals, by attaching the sensor to a finger, so as to classify them based on the degree of bent as well as the joint about which the finger was being bent. This was done by testing with various machine learning algorithms to get the most accurate and consistent classifier. Finally, we found that Support Vector Machine was the best algorithm suited to classify our data, using we were able predict live state of a finger, i.e., the degree of bent and the joints involved. The live voltage values from the sensor were transmitted using a NodeMCU micro-controller which were converted to digital and uploaded on a database for analysis.

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