Article
Engineering, Multidisciplinary
Yu-xing Li, Shang-bin Jiao, Xiang Gao
Summary: The article introduces a novel signal feature extraction technology based on EWT and RDE, which effectively extracts complex features of signals and improves signal separability and stability.
DEFENCE TECHNOLOGY
(2021)
Article
Engineering, Electrical & Electronic
Yaru Yue, Chengdong Chen, Xiaoyuan Wu, Xiaoguang Zhou
Summary: This article proposes an effective method for denoising ECG signals, which combines the ensemble empirical mode decomposition (EEMD), empirical mode decomposition (EMD), and wavelet packet (WP) techniques. The ECG signal is decomposed using EEMD, and then the highest frequency component is decomposed using EMD for a second time, and the high frequency components obtained from the second decomposition are decomposed and reconstructed using WP for a third time. The processed signal components are then fused to obtain the denoised ECG signal. Various evaluation metrics such as signal-to-noise ratio (SNR), mean square error (MSE), root mean square error (RMSE), and normalized cross correlation coefficient (R) are used to assess the noise reduction algorithm.
IET SIGNAL PROCESSING
(2023)
Article
Computer Science, Artificial Intelligence
Amrinder Singh Minhas, Sukhjeet Singh
Summary: This paper focuses on obtaining sensitive feature vectors from vibration signals to indicate the bearing's actual condition, addressing issues related to heavy noise and the nonlinearity of vibration signals. A new method using improved multiscale permutation entropy method and dominant statistical parameters is proposed. Experimental results show that the proposed method outperforms other state-of-the-art feature extraction methods in terms of classification accuracy.
KNOWLEDGE-BASED SYSTEMS
(2021)
Article
Engineering, Mechanical
Atik Faysal, Wai Keng Ngui, M. H. Lim
Summary: The proposed NEEEMD method aims to further reduce white noise and select sensitive mode functions to enhance fault-related impulses through a combination of time and frequency domain characteristics. The application of MOMEDA filter improves fault diagnosis accuracy by identifying more fault characteristic impulses.
JOURNAL OF VIBRATION ENGINEERING & TECHNOLOGIES
(2021)
Article
Engineering, Electrical & Electronic
Jun Gu, Yuxing Peng
Summary: The study introduced a CPCEEMD bearing fault diagnosis method that combines the advantages of the CEEMD algorithm and signal randomness detection based on permutation entropy to address the issues of modal confusion and difficulty in fault feature extraction. The proposed method showed good decomposition effect, certain inhibition effect on modal confusion in the EMD process, and effective extraction of characteristic information from rolling bearing fault signals in simulation and measured signals.
DIGITAL SIGNAL PROCESSING
(2021)
Article
Acoustics
Jiang Lingli, Tan Hongchuang, Li Xuejun, Yang Dalian
Summary: In this study, a method for fault diagnosis of spiral bevel gears was proposed using MPE values, LPP methods, and ELMs classifiers, demonstrating effective identification of four types of fault state spiral bevel gears with high accuracy and efficiency. The results confirmed the accuracy and superiority of the proposed method in comparison with traditional methods.
SHOCK AND VIBRATION
(2021)
Article
Engineering, Electrical & Electronic
Wanming Ying, Jinde Zheng, Haiyang Pan, Qingyun Liu
Summary: PEUPEMD method improves the decomposition effect of UPEMD by adding uniform phase sinusoidal signals as masking signals, addressing issues such as noise residue and incomplete decomposition. Experimental results demonstrate that PEUPEMD outperforms other comparative methods in terms of decomposition accuracy and mode mixing suppression.
DIGITAL SIGNAL PROCESSING
(2021)
Article
Engineering, Multidisciplinary
Xiong Zhang, Ming Zhang, Shuting Wan, Yuling He, Xiaolong Wang
Summary: The paper presents an effective method for fault diagnosis of rolling bearings through ensemble empirical mode decomposition and principal component analysis, using dispersion entropy and clustering methods to determine the degree and type of faults. The effectiveness of this method was demonstrated on various datasets and platforms.
Article
Automation & Control Systems
Jinde Zheng, Shijun Cao, Haiyang Pan, Qing Ni
Summary: This paper proposes a novel spectral envelope-based adaptive empirical Fourier decomposition (SEAEFD) method to improve the performance of AEFD in rolling bearing vibration signal analysis. SEAEFD optimizes the spectrum segmentation boundary to achieve adaptive segmentation and minimize noise components, allowing nonstationary signals to be decomposed into single-component signals with physical significance.
Article
Instruments & Instrumentation
Xiaoming Liu, Ling Shu
Summary: This paper proposes a fault feature extraction method for rotating machinery based on optimized resonance-based sparse signal decomposition and refined composite multiscale fluctuation dispersion entropy, which has been validated through experiments to exhibit superior performance in terms of classification accuracy and stability.
REVIEW OF SCIENTIFIC INSTRUMENTS
(2022)
Article
Engineering, Multidisciplinary
Jinde Zheng, Miaoxian Su, Wanming Ying, Jinyu Tong, Ziwei Pan
Summary: The study introduces the improved Uniform Phase Empirical Mode Decomposition (IUPEMD) method, which enhances the accuracy and performance of signal decomposition by adaptively selecting the amplitude of the sinusoidal wave and choosing the optimal result based on orthogonality index.
Article
Engineering, Electrical & Electronic
Xi Zhang, Hongju Wang, Xuehui Li, Shoujun Gao, Kui Guo, Yingle Wei
Summary: The mine ventilator is crucial for protecting the lives of underground workers and the development of coal mines. This paper proposes a fault diagnosis method using improved variational mode decomposition and density peak clustering to accurately identify bearing faults in fan systems.
Article
Computer Science, Artificial Intelligence
J. J. Ruiz-Aguilar, I Turias, J. Gonzalez-Enrique, D. Urda, D. Elizondo
Summary: Accurate wind speed prediction is crucial for various tasks, especially air pollution modeling. A hybrid wind speed forecasting approach was proposed in this study, combining different methods to achieve higher prediction performance. Experimental results showed that the EMD-PE-ANN model outperformed single ANN models in all tested prediction horizons, indicating that it could be a powerful tool for wind speed forecasting.
NEURAL COMPUTING & APPLICATIONS
(2021)
Article
Engineering, Multidisciplinary
Cheng Zhong, Jie-Sheng Wang, Wei-Zhen Sun
Summary: A novel fault diagnosis method for rotating bearings, based on the analysis of bearing rotating speed feature and vibration analysis technique, was proposed. The method utilizes improved EEMD and DBN algorithms to decompose vibration data, eliminate interference signals, and extract data features for fault diagnosis.
MEASUREMENT SCIENCE AND TECHNOLOGY
(2022)
Article
Instruments & Instrumentation
Ruo Hu, Jinyang Feng, Zonglei Mou, Xunlong Yin, Zhenfei Li, Hongrong Ma
Summary: This paper proposes a novel method for incipient fault diagnosis of the cam-driven absolute gravimeter by integrating the parameter-optimized Variational Mode Decomposition (VMD) with Light Gradient Boosting Machine (LightGBM). The method effectively detects various incipient failures of the gravimeter and solves the problem of low measurement accuracy caused by these faults.
REVIEW OF SCIENTIFIC INSTRUMENTS
(2022)
Article
Thermodynamics
S. C. S. Alcantara, A. A. S. Lima, A. A. Ochoa, G. de N. P. Leite, J. A. P. da Costa, C. A. C. dos Santos, E. J. C. Cavalcanti, P. S. A. Michima
Summary: This study uses a mathematical model based on the characteristic equation method to simulate the quasi-dynamic behavior of an absorption chiller using NH3/LiNO3 as the working fluid. Experimental and model results showed good agreement with relative errors lower than 5%.
ENERGY CONVERSION AND MANAGEMENT-X
(2022)
Article
Energy & Fuels
Camila Correa-Jullian, Sergio Cofre-Martel, Gabriel San Martin, Enrique Lopez Droguett, Gustavo de Novaes Pires Leite, Alexandre Costa
Summary: This paper explores the application of machine learning and deep learning techniques in prognostics and health management, focusing on fault detection in wind turbine systems. The results show that quantum kernel methods perform comparably to traditional machine learning models and can outperform them in terms of dimensionality reduction.
Article
Physics, Multidisciplinary
Darko Stosic, Dusan Stosic, Irena Vodenska, H. Eugene Stanley, Tatijana Stosic
Summary: This paper uses multifractal analysis to examine the presence of calendar anomalies, specifically day-of-the-week effects, in market returns. The results indicate that different trading days exhibit distinct multifractal properties, with Monday returns showing more persistent behavior and richer multifractal structures.
Article
Energy & Fuels
Nicolau K. L. Dantas, Amanda C. M. Souza, Andrea S. M. Vasconcelos, Washington de A. S. Junior, Guilherme Rissi, Celso Dall'Orto, Alexandre M. A. Maciel, Jose F. C. Castro, Yang Liu, Pedro Rosas
Summary: This article analyzes the operation of integrating a lithium-ion battery-based BESS with wind generation, and finds that it can smooth the power and correct the power factor of wind generation, improving the quality of electrical energy at the PCC.
Article
Energy & Fuels
Jose F. C. Castro, Davidson C. Marques, Luciano Tavares, Nicolau K. L. Dantas, Amanda L. Fernandes, Ji Tuo, Luiz H. A. de Medeiros, Pedro Rosas
Summary: Charging electric vehicles can put a heavy strain on existing low voltage and medium voltage networks. However, this strain can be minimized by utilizing new technologies and strategies, such as integrating solar PV generation and energy storage systems. This paper presents a method to estimate energy consumption and power demand in fast charging stations, and it showcases its application in a facility in Brazil.
Article
Green & Sustainable Science & Technology
Antonio Samuel Alves da Silva, Ikaro Daniel de Carvalho Barreto, Moacyr Cunha-Filho, Romulo Simoes Cezar Menezes, Borko Stosic, Tatijana Stosic
Summary: In this work, the regularity of rainfall temporal series in the state of Pernambuco, northeastern Brazil, from 1953 to 2012 was analyzed using the sample entropy method (SampEn). The study found that the regularity of rainfall decreases from the inland Sertao region towards the coastal Zona da Mata region. The analysis of different time periods and comparison of regions showed variations in rainfall amount and regularity, which were associated with specific climatic phenomena such as El Nino and La Nina episodes. This study contributes to the application of information theory-based methods in climatological studies.
Article
Mathematics, Applied
Ikaro Daniel de Carvalho Barreto, Tatijana Stosic, Romulo Simoes Cezar Menezes, Antonio Samuel Alves da Silva, Osvaldo A. Rosso, Borko Stosic
Summary: This study investigated the impact of the construction of cascade dams and reservoirs on the predictability and complexity of the Sao Francisco River's streamflow in Brazil. The research found that the reservoirs' operations made the streamflow series less predictable. Weighted CECP provided finer details in the predictability of streamflow due to the inclusion of amplitude information. The study also revealed the influence of the Paulo Alfonso complex and identified a streamflow alteration unrelated to the dams' construction.
Review
Energy & Fuels
Anderson Breno Souza, Alvaro Antonio Villa Ochoa, Jose Angelo Peixoto da Costa, Gustavo de Novaes Pires Leite, Heber Claudius Nunes Silva, Andrezza Carolina Carneiro Tomas, David Campos Barbosa, Paula Suemy Arruda Michima
Summary: This article compiles the most important publications on biodiesel production from tropical cultivars, emphasizing the energy and environmental potential, raw materials, advantages, and disadvantages of this biofuel. It critically reviews biodiesel production as an alternative fuel for power generation systems and highlights its importance in the energy matrix. The findings can be used as a basis for future policies to regulate and impact the energy sector.
Review
Energy & Fuels
Jose F. C. Castro, Ronaldo A. A. Roncolatto, Antonio R. R. Donadon, Vittoria E. M. S. Andrade, Pedro Rosas, Rafael G. G. Bento, Jose G. Matos, Fernando A. A. Assis, Francisco C. R. Coelho, Rodolfo Quadros, Joao I. Y. Ota, Luiz C. P. Silva, Rafael K. K. Carneiro
Summary: One of the challenges in Brazil is the lack of technical standards for microgrid connection and operation. To address this, existing standards for micro- and mini-distributed generation have been adapted. This paper analyzes the development status of norms and standards for microgrid implementation and proposes regulations and requirements for microgrid projects, including operational modes, interoperability, connection structure, and storage system operation.
Article
Automation & Control Systems
Caio Filipe de Lima Munguba, Gustavo de Novaes Pires Leite, Alvaro Antonio Villa Ochoa, Enrique Lopez Droguett
Summary: Buildings, especially those with intensive refrigeration systems like supermarkets, contribute significantly to global energy consumption. By improving fault detection and diagnosis techniques, energy consumption in refrigeration devices can be reduced by up to 15%. Maintenance programs play a crucial role in energy management, and the use of smart systems and network interfaces in smart buildings has enabled the development of innovative maintenance approaches. One such approach is a reinforcement learning framework proposed in this study, which achieved energy efficiency improvements and cost reductions compared to traditional maintenance techniques.
ENGINEERING APPLICATIONS OF ARTIFICIAL INTELLIGENCE
(2023)
Article
Thermodynamics
Suellen Cristina Sousa Alcantara, Alvaro Antonio Villa Ochoa, Jose Angelo Peixoto da Costa, Frederico Duarte de Menezes, Gustavo de Novaes Pires Leite, Paula Suemy Arruda Michima, Adriano da Silva Marques
Summary: Absorption chillers are complex equipment due to their nature of heat and mass transfer processes, working fluids used, and limitations. This study proposes a methodological strategy to determine the transient behavior of a LiBr/H2O single-effect absorption chiller through intelligent regression methods. The strategy integrates the first law of thermodynamics and the heat exchanger characteristic equation with machine learning methods to estimate the dynamic of absorption chillers using temperature and flow data.
APPLIED THERMAL ENGINEERING
(2023)
Article
Energy & Fuels
Pablo Tabosa da Silva, Pedro A. Carvalho Rosas, Jose Castro, Davidson da Costa Marques, Ronaldo Aquino, Guilherme Rissi, Rafael Neto, Douglas Barbosa
Summary: This paper discusses the application of a battery energy storage system and fuzzy logic power control for smoothing the power output of wind turbines. The proposed fuzzy control logic effectively maintains the state of charge of the energy storage system within operational limits. Numerical results demonstrate that the combination of the battery energy storage system and control logic can effectively smooth the active power generated by wind turbines, enhancing the reliability and stability of the Electric Power System. Measurements from a wind generation plant in the northeast region of Brazil equipped with 2.1 MW wind turbines form the basis of the main results presented in this paper.
Article
Automation & Control Systems
Gustavo de Novaes Pires Leite, Felipe Costa Farias, Tiago Gomes de Sa, Alexandre Carlos Araujo da Costa, Leonardo Jose Petribu Brennand, Marrison Gabriel Guedes de Souza, Alvaro Antonio Ochoa Villa, Enrique Lopez Droguett
Summary: This paper presents a robust unsupervised machine-learning approach for fleet-based anomaly detection in wind turbines' critical components. The approach preprocesses and extracts features from noisy, unlabeled, and unstructured vibration data, and optimizes the performance of eleven machine learning algorithms. Six best models are selected based on robust performance metrics and achieve classification metrics above 90%.
ENGINEERING APPLICATIONS OF ARTIFICIAL INTELLIGENCE
(2023)
Article
Physics, Multidisciplinary
Domingos Aguiar, Romulo Simoes Cezar Menezes, Antonio Celso Dantas Antonino, Tatijana Stosic, Ana M. Tarquis, Borko Stosic
Summary: This study used an improved Fisher-Shannon method to analyze soil samples from a sugarcane plantation and a nearby Atlantic forest in northeastern Brazil. The results showed that the soil samples from the Atlantic forest were generally more complex than those from the sugarcane plantation.
Article
Engineering, Chemical
Carlos C. X. S. Lima, Alvaro A. V. Ochoa, Jose A. P. da Costa, Frederico D. de Menezes, Joao V. P. Alves, Julia M. G. A. Ferreira, Clara C. A. Azevedo, Paula S. A. Michima, Gustavo N. P. Leite
Summary: This study investigates and compares the heat transfer performance of graphene nanoplatelets and water nanofluids in a double-tube-type heat exchanger through experimental tests and CFD simulations. The results show that 0.025 wt% GNP demonstrates the best thermal performance, and the comparisons with experimental values and CFD model calculations have good agreement.
Article
Physics, Multidisciplinary
Xiaoyu Shi, Jian Zhang, Xia Jiang, Juan Chen, Wei Hao, Bo Wang
Summary: This study presents a novel framework using offline reinforcement learning to improve energy consumption in road transportation. By leveraging real-world human driving trajectories, the proposed method achieves significant improvements in energy consumption. The offline learning approach demonstrates generalizability across different scenarios.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Junhyuk Woo, Soon Ho Kim, Hyeongmo Kim, Kyungreem Han
Summary: Reservoir computing (RC) is a new machine-learning framework that uses an abstract neural network model to process information from complex dynamical systems. This study investigates the neuronal and network dynamics of liquid state machines (LSMs) using numerical simulations and classification tasks. The findings suggest that the computational performance of LSMs is closely related to the dynamic range, with a larger dynamic range resulting in higher performance.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Yuwei Yang, Zhuoxuan Li, Jun Chen, Zhiyuan Liu, Jinde Cao
Summary: This paper proposes an extreme learning machine (ELM) algorithm based on residual correction and Tent chaos sequence (TRELM-DROP) for accurate prediction of traffic flow. The algorithm reduces the impact of randomness in traffic flow through the Tent chaos strategy and residual correction method, and avoids weight optimization using the iterative method. A DROP strategy is introduced to improve the algorithm's ability to predict traffic flow under varying conditions.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Chengwei Dong, Min Yang, Lian Jia, Zirun Li
Summary: This work presents a novel three-dimensional system with multiple types of coexisting attractors, and investigates its dynamics using various methods. The mechanism of chaos emergence is explored, and the periodic orbits in the system are studied using the variational method. A symbolic coding method is successfully established to classify the short cycles. The flexibility and validity of the system are demonstrated through analogous circuit implementation. Various chaos-based applications are also presented to show the system's feasibility.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Viorel Badescu
Summary: This article discusses the maximum work extraction from confined particles energy, considering both reversible and irreversible processes. The results vary for different types of particles and conditions. The concept of exergy cannot be defined for particles that undergo spontaneous creation and annihilation. It is also noted that the Carnot efficiency is not applicable to the conversion of confined thermal radiation into work.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
P. M. Centres, D. J. Perez-Morelo, R. Guzman, L. Reinaudi, M. C. Gimenez
Summary: In this study, a phenomenological investigation of epidemic spread was conducted using a model of agent diffusion over a square region based on the SIR model. Two possible contagion mechanisms were considered, and it was observed that the number of secondary infections produced by an individual during its infectious period depended on various factors.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Zuan Jin, Minghui Ma, Shidong Liang, Hongguang Yao
Summary: This study proposes a differential variable speed limit (DVSL) control strategy considering lane assignment, which sets dynamic speed limits for each lane to attract vehicle lane-changing behaviors before the bottleneck and reduce the impact of traffic capacity drop. Experimental results show that the proposed DVSL control strategy can alleviate traffic congestion and improve efficiency.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Matthew Dicks, Andrew Paskaramoorthy, Tim Gebbie
Summary: In this study, we investigate the learning dynamics of a single reinforcement learning optimal execution trading agent when it interacts with an event-driven agent-based financial market model. The results show that the agents with smaller state spaces converge faster and are able to intuitively learn to trade using spread and volume states. The introduction of the learning agent has a robust impact on the moments of the model, except for the Hurst exponent, which decreases, and it can increase the micro-price volatility as trading volumes increase.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Zhouzhou Yao, Xianyu Wu, Yang Yang, Ning Li
Summary: This paper developed a cooperative lane-changing decision system based on digital technology and indirect reciprocity. By introducing image scoring and a Q-learning based reinforcement learning algorithm, drivers can continuously evaluate gains and adjust their strategies. The study shows that this decision system can improve driver cooperation and traffic efficiency, achieving over 50% cooperation probability under any connected vehicles penetration and traffic density, and reaching 100% cooperation probability under high penetration and medium to high traffic density.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Josephine Nanyondo, Henry Kasumba
Summary: This paper presents a multi-class Aw-Rascle (AR) model with area occupancy expressed in terms of vehicle class proportions. The qualitative properties of the proposed equilibrium velocity and the stability conditions of the model are established. The numerical results show the effect of proportional densities on the flow of vehicle classes, indicating the realism of the proposed model.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Oliver Smirnov
Summary: This study proposes a new method for simultaneously estimating the parameters of the 2D Ising model. The method solves a constrained optimization problem, where the objective function is a pseudo-log-likelihood and the constraint is the Hamiltonian of the external field. Monte Carlo simulations were conducted using models of different shapes and sizes to evaluate the performance of the method with and without the Hamiltonian constraint. The results demonstrate that the proposed estimation method yields lower variance across all model shapes and sizes compared to a simple pseudo-maximum likelihood.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Przemyslaw Chelminiak
Summary: The study investigates the first-passage properties of a non-linear diffusion equation with diffusivity dependent on the concentration/probability density through a power-law relationship. The survival probability and first-passage time distribution are determined based on the power-law exponent, and both exact and approximate expressions are derived, along with their asymptotic representations. The results pertain to diffusing particles that are either freely or harmonically trapped. The mean first-passage time is finite for the harmonically trapped particle, while it is divergent for the freely diffusing particle.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Hidemaro Suwa
Summary: The choice of transition kernel is crucial for the performance of the Markov chain Monte Carlo method. A one-parameter rejection control transition kernel is proposed, and it is shown that the rejection process plays a significant role in determining the sampling efficiency.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
Article
Physics, Multidisciplinary
Xudong Wang, Yao Chen
Summary: This article investigates the joint influence of expanding medium and constant force on particle diffusion. By starting from the Langevin picture and introducing the effect of external force in two different ways, two models with different force terms are obtained. Detailed analysis and derivation yield the Fokker-Planck equations and moments for the two models. The sustained force behaves as a decoupled force, while the intermittent force changes the diffusion behavior with specific effects depending on the expanding rate of the medium.
PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS
(2024)
