Application Research of Chaotic Carrier Frequency Modulation Technology in Two‐Stage Matrix Converter

Wang, Kai; Li, Liwei; Yong, Lan; Dong, Peng; Xia, Guoting

doi:10.1155/2019/2614327

Cited by 31 publications

(17 citation statements)

References 42 publications

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“…Similar studies can be found in recent References [58][59][60][61]. Due to the complexity of the structural information and the electronic structures of the periodic table elements [62][63][64][65][66][67][68][69][70][71], a challenge of their data-mining is the definition of suitable descriptors as the model inputs. In the past decades, there was a large number of descriptors that have been applied for the machine learning process of chemical and materials systems, such as bond length, bond angle, and group contribution analysis [72].…”

Section: Mining the Trends And Properties In Chemistry And Materialssupporting

confidence: 62%

Data-Mining for Processes in Chemistry, Materials, and Engineering

Zhang

Zhao

2019

Processes

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With the rapid development of machine learning techniques, data-mining for processes in chemistry, materials, and engineering has been widely reported in recent years. In this discussion, we summarize some typical applications for process optimization, design, and evaluation of chemistry, materials, and engineering. Although the research and application targets are various, many important common points still exist in their data-mining. We then propose a generalized strategy based on the philosophy of data-mining, which should be applicable for the design and optimization targets for processes in various fields with both scientific and industrial purposes.

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Section: Mining the Trends And Properties In Chemistry And Materialssupporting

confidence: 62%

Data-Mining for Processes in Chemistry, Materials, and Engineering

Zhang

Zhao

2019

Processes

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“…Although SIFCP-WRMS has its effectiveness in solving dual uncertainties presented as intervalfuzzy parameters or interval-scenarios, and the results can provide useful strategies for planning the WRMS under the conflict of economic objective, water demand, and sewage discharge, in this study, only one water source (i.e., water from the Water Diversion Project) was considered, and the other water sources, such as surface water, groundwater, and reclaimed water would be further considered to improve the applicability of the SIFCP-WRMS model [43,44]. Moreover, the flow of natural surface water is affected by a variety of factors from climate, topographic, and other aspects, thus, the stochastic programming should be integrated into the SIFCP-WRMS model [45][46][47][48]. Figure 10.…”

Section: Discussionmentioning

confidence: 99%

A Scenario-Based Optimization Model for Planning Sustainable Water-Resources Process Management under Uncertainty

Miao

Zuo

et al. 2019

Processes

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Discrepancies between water demand and supply are intensifying and creating a need for sustainable water resource process management associated with rapid economic development, population growth, and urban expansion. In this study, a scenario-based interval fuzzy-credibility constrained programming (SIFCP) method is developed for planning a water resource management system (WRMS) that can handle uncertain information by using interval values, fuzzy sets, and scenario analysis. The SIFCP-WRMS model is then applied to plan the middle route of the South-to-North Water Diversion Project (SNWDP) in Henan Province, China. Solutions of different water distribution proportion scenarios and varied credibility levels are considered. Results reveal that different water-distribution proportion scenarios and uncertainties used in the SIFCP-WRMS model can lead to changed water allocations, sewage discharges, chemical oxygen demand (COD) emissions, and system benefits. Results also indicate that the variation of scenarios (i.e., from S2 to S3) can result in a change of 9% over the planning horizon for water allocation in the industrial sector. Findings can help decision-makers resolve conflicts among economic objective, water resource demand, and sewage discharge, as well as COD emissions.

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“…2019GGX103022. In addition, the authors have bene ted a lot from closer collaborations with researcher and partners regarding their works [48][49][50][51][52][53][54][55][56][57] in the eld of electrical engineering, electrochemical engineering, and materials science and engineering. estimation error is relatively at the middle of the test, but it was eliminated later.…”

Section: Complexitymentioning

confidence: 99%

Online State of Charge Estimation of Lithium-Ion Cells Using Particle Filter-Based Hybrid Filtering Approach

2020

Self Cite

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Filtering based state of charge (SOC) estimation with an equivalent circuit model is commonly extended to Lithium-ion (Li-ion) batteries for electric vehicle (EV) or similar energy storage applications. During the last several decades, different implementations of online parameter identification such as Kalman filters have been presented in literature. However, if the system is a moving EV during rapid acceleration or regenerative braking or when using heating or air conditioning, most of the existing works suffer from poor prediction of state and state estimation error covariance, leading to the problem of accuracy degeneracy of the algorithm. On this account, this paper presents a particle filter-based hybrid filtering method particularly for SOC estimation of Li-ion cells in EVs. A sampling importance resampling particle filter is used in combination with a standard Kalman filter and an unscented Kalman filter as a proposal distribution for the particle filter to be made much faster and more accurate. Test results show that the error on the state estimate is less than 0.8% despite additive current measurement noise with 0.05 A deviation.

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Application Research of Chaotic Carrier Frequency Modulation Technology in Two‐Stage Matrix Converter

Cited by 31 publications

References 42 publications

Data-Mining for Processes in Chemistry, Materials, and Engineering

Data-Mining for Processes in Chemistry, Materials, and Engineering

A Scenario-Based Optimization Model for Planning Sustainable Water-Resources Process Management under Uncertainty

Online State of Charge Estimation of Lithium-Ion Cells Using Particle Filter-Based Hybrid Filtering Approach

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