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JCR Impact Factor: 0.699
JCR 5-Year IF: 0.674
Issues per year: 4
Current issue: Nov 2018
Next issue: Feb 2019
Avg review time: 83 days


Stefan cel Mare
University of Suceava
Faculty of Electrical Engineering and
Computer Science
13, Universitatii Street
Suceava - 720229

Print ISSN: 1582-7445
Online ISSN: 1844-7600
WorldCat: 643243560
doi: 10.4316/AECE


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Monofractal and Multifractal Analysis of Discharge Signals in Transformer Pressboards, CEKLI, S., UZUNOGLU, C. P., UGUR, M.
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k-Degree Anonymity Model for Social Network Data Publishing, MACWAN, K. R., PATEL, S. J.
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Clarivate Analytics published the InCites Journal Citations Report for 2017. The JCR Impact Factor of Advances in Electrical and Computer Engineering is 0.699, and the JCR 5-Year Impact Factor is 0.674.

Thomson Reuters published the Journal Citations Report for 2016. The JCR Impact Factor of Advances in Electrical and Computer Engineering is 0.595, and the JCR 5-Year Impact Factor is 0.661.

With new technologies, such as mobile communications, internet of things, and wide applications of social media, organizations generate a huge volume of data, much faster than several years ago. Big data, characterized by high volume, diversity and velocity, increasingly drives decision making and is changing the landscape of business intelligence, from governments to private organizations, from communities to individuals. Big data analytics that discover insights from evidences has a high demand for computing efficiency, knowledge discovery, problem solving, and event prediction. We dedicate a special section of Issue 4/2017 to Big Data. Prospective authors are asked to make the submissions for this section no later than the 31st of May 2017, placing "BigData - " before the paper title in OpenConf.

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  4/2010 - 7

Investigation and Calculation of Magnetic Field in Tubular Linear Reluctance Motor Using FEM

MOSALLANEJAD, A. See more information about MOSALLANEJAD, A. on SCOPUS See more information about MOSALLANEJAD, A. on IEEExplore See more information about MOSALLANEJAD, A. on Web of Science, SHOULAIE, A. See more information about SHOULAIE, A. on SCOPUS See more information about SHOULAIE, A. on SCOPUS See more information about SHOULAIE, A. on Web of Science
Click to see author's profile in See more information about the author on SCOPUS SCOPUS, See more information about the author on IEEE Xplore IEEE Xplore, See more information about the author on Web of Science Web of Science

Download PDF pdficon (845 KB) | Citation | Downloads: 1,786 | Views: 3,197

Author keywords
tubular linear reluctance motors, magnetic flux density, FEM analyses

References keywords
reluctance(6), magnetics(6), oscillating(4), magnetic(4), field(4)
Blue keywords are present in both the references section and the paper title.

About this article
Date of Publication: 2010-11-30
Volume 10, Issue 4, Year 2010, On page(s): 43 - 48
ISSN: 1582-7445, e-ISSN: 1844-7600
Digital Object Identifier: 10.4316/AECE.2010.04007
Web of Science Accession Number: 000284782700007
SCOPUS ID: 78649712782

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In this paper the magnetic flux density of tubular linear reluctance motor (TLRM) in open type magnetic circuit is studied. Also, all magnetic flux density calculation methods in winding of tubular linear reluctance motor are described. The effect of structure parameters on magnetic flux density is also discussed. Electromagnetic finite-element analysis is used for simulation of magnetic field, and simulation results of the magnetic field analysis with DC voltage excitation are compared with results obtained from calculation methods. The comparison yields a good agreement.

References | Cited By  «-- Click to see who has cited this paper

[1] Syed A. Nasar and I. Boldea, "Linear Electrical Motors : Theory, Design, and Practical Application", Prentice-Hall, 1987

[2] Eric R Laithwaite " A History Of Linear Electrical Motors", London: Macmillan, 1987, pp. 31-59.

[3] S. A. Nasar and I. Boldea, "Linear Electric Motors," Englewood Cliffs, Prentice-Hall, 1987.

[4] J. J. Blakley, "A linear oscillating ferroresonant machine", IEEE Transactions On Magnetics, vol. 19, no. 4, 1983, pp. 1574-1579.
[CrossRef] [Web of Science Times Cited 18] [SCOPUS Times Cited 19]

[5] D. A. Bresie and J. A. Andrews, "Design Of A Reluctance Accelerator", IEEE Transactions On Magnetics, vol. 27, no. 1, 1991.
[CrossRef] [Web of Science Times Cited 21] [SCOPUS Times Cited 27]

[6] E. A. Mendrela Z. J. Pudlowski, "Transients And Dynamics In A Linear Reluctance Self-Oscillating Motor", IEEE Transactions on Energy Conversion, vol. 7, no. 1, 1992.
[CrossRef] [Web of Science Times Cited 19] [SCOPUS Times Cited 28]

[7] B. Tomczuk and M. Sobol, "A Field-Network Model of a Linear Oscillating Motor and Its Dynamics Characteristics", IEEE Transactions On Magnetics, vol. 41, no. 8, 2005.
[CrossRef] [Web of Science Times Cited 20] [SCOPUS Times Cited 32]

[8] Cheng-Tsung Liu, Jian-Long Kuo, Ling-Fong Chen, Yan-Nan Chen, Yu-Jen Lee, and Chia-Tu Leu, "Fast 3-D Magnetic Field Analysis Of Transverse Flux Linear Reluctance Propulsion Machine By Fourier Projection Method", IEEE Transactions on Magnetics vol. 31, no. 6, pp. 4223-4225, 1995.
[CrossRef] [SCOPUS Times Cited 2]

[9] Qiang Li and Kok-Meng Lee, "An Adaptive Meshless Method for Magnetic Field Computation", IEEE Trans. on Magnetic, vol. 42, no. 8, 2006.
[CrossRef] [Web of Science Times Cited 28] [SCOPUS Times Cited 33]

[10] Song-Min Wang, Takashi Miyano and Mont Hubbard, "Electromagnetic Field Analysis and Dynamic Simulation of a Two-Valve Solenoid Actuator", IEEE Transactions on Magnetics, vol. 29, no. 2, 1993 .
[CrossRef] [Web of Science Times Cited 11] [SCOPUS Times Cited 19]

[11] J. Corda and S. M. Jamil, "Experimental Determination of Equivalent-Circuit Parameters of a Tubular Switched Reluctance Machine With Solid-Steel Magnetic Core", IEEE Transactions on Industrial Electronics, vol. 57, no. 1, pp. 304-310, 2010.
[CrossRef] [Web of Science Times Cited 24] [SCOPUS Times Cited 29]

[12] Z. Q. Zhu, X. Chen "Analysis of an E-Core Interior Permanent Magnet Linear Oscillating Actuator", IEEE Transactions on Magnetics, vol. 45, no. 10, 2009.
[CrossRef] [Web of Science Times Cited 31] [SCOPUS Times Cited 45]

[13] A. Waindok, G. Mazur, "A Mathematical and Physical Models of the Three-Stage Reluctance Accelerator", IEEE 2009.
[CrossRef] [SCOPUS Times Cited 10]

[14] S. Gibson, G. W. Jewell, R. E. Clark, "Variable-air gap, cylindrical, linear variable reluctance actuators for high-force, medium-stroke applications", Published in IET Electric Power Applications, Revised on 21st January 2008

References Weight

Web of Science® Citations for all references: 172 TCR
SCOPUS® Citations for all references: 244 TCR

Web of Science® Average Citations per reference: 11 ACR
SCOPUS® Average Citations per reference: 16 ACR

TCR = Total Citations for References / ACR = Average Citations per Reference

We introduced in 2010 - for the first time in scientific publishing, the term "References Weight", as a quantitative indication of the quality ... Read more

Citations for references updated on 2019-02-13 04:10 in 70 seconds.

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