Symmetry in Engineering Sciences II
Department of Engineering, University of Almeria, ceiA3, 04120 Almeria, Spain
*
Author to whom correspondence should be addressed.
Symmetry 2020, 12(7), 1077; https://doi.org/10.3390/sym12071077
Submission received: 27 June 2020
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Accepted: 27 June 2020
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Published: 1 July 2020
(This article belongs to the Special Issue Symmetry in Engineering Sciences II)
Abstract
:Symmetry can be understood in two different ways: as a property or as a principle. As Plato said, the symmetry that can be seen in nature is not random in itself, because it is a result of the symmetries of the physical laws. Thus, the principles of symmetry have been used to solve mechanical problems since antiquity. Today, these principles are still being researched; for example, in chemical engineering, the spatial symmetry properties of crystal lattices are being studied, or in electrical engineering, the temporal symmetry of the periodic processes of oscillators can be observed. This Special Issue is dedicated to symmetry in engineering sciences (electrical, mechanical, civil, and others) and aims to cover both engineering solutions related to symmetry and the search for patterns to understand the phenomena observed.
1. Introduction
Symmetry is a common standard that is extensively studied in various areas of research. In particular, complex systems with symmetric and asymmetric properties have emerged in the engineering sciences. For example, the study of asymmetric and symmetric failures in power systems is a fundamental issue in electrical engineering. Symmetrical and synchronized systems are often used to meet the stability criteria of rotating structures in mechanical engineering. On the other hand, in telecommunications engineering, since the speed or the amount of data is the same in both directions, many systems are symmetrical. In civil engineering, the stability of objects depends on symmetry, and there have been studies of the equilibrium statics of structures. Moreover, as a final example, symmetric network structures and symmetric algorithms are usually studied in computer engineering. In this Special Issue, researchers are invited to submit innovative scientific papers and review contributions related to all engineering fields in which symmetry is considered in theory or practice. The topics of interest include symmetry in:
- Electrical engineering: power, electronics, electromechanics, computer, control, microwaves, telecommunications, etc.
- Mechanical engineering: acoustical, aerospace, automotive, marine, railway, thermal, etc.
- Civil engineering: architectural, construction, earthquakes, environmental, hydraulics, mining, structural, transportation, etc.
- Chemical engineering: biochemical, molecular, processes, thermodynamics, etc.
- Other interdisciplinary engineering disciplines: agricultural, biomedical, graphical modeling, industrial, information, materials, metallurgy, military, nanotechnology, control, automation, robotics, etc.
- Topology of complex networks in engineering.
2. Publication Statistics
Details of the call for papers for this Special Issue regarding the articles that were published or rejected are follows: number of articles submitted (26), rejected (10; 38.5%), and published (16; 61.5%).
The regional distribution of authors by countries for the published articles is presented in Table 1, in which it is possible to observe that 74 authors were included, from seven countries. Note that it is usual for an item to be signed by more than one author and for authors to be collaborating with others from different affiliations. The mean number of authors per published manuscript was between four and five.
3. Authors’ Affiliations
This Special Issue’s authors and their first affiliations are reflected in Table 2.
4. Topics
Table 3 summarizes the research carried out by identifying the topics to which the manuscripts belong, according to the proposed topics in the Special Issue. It was noted that the topic of symmetry within two particular fields has come to dominate the rest: electrical engineering and civil engineering.
Author Contributions
The authors all made equal contributions to this article. All authors have read and agreed to the published version of the manuscript.
Funding
This research received no external funding.
Conflicts of Interest
The authors declare no conflict of interest.
References
- Gómez-Déniz, E.; Gómez, L. The rayleigh birnbaum saunders distribution: A general fading model. Symmetry 2020, 12, 389. [Google Scholar] [CrossRef] [Green Version]
- Zhang, F.; Chen, S.-L.; He, Y.; Ye, G.; Zhang, C.; Yang, G. A Kinematic Calibration Method of a 3T1R 4-Degree-of-Freedom Symmetrical Parallel Manipulator. Symmetry 2020, 12, 357. [Google Scholar] [CrossRef] [Green Version]
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- Su, J.; Jie, Y.; Niu, X.; Liu, C.; Liu, X. Mechanical behavior of tunnel lining with cracks at different positions. Symmetry 2020, 12, 194. [Google Scholar] [CrossRef] [Green Version]
- Velázquez, J.; Cavas, F.; Bolarín, J.M.; Alió, J. 3D Printed personalized corneal models as a tool for improving patient’s knowledge of an asymmetric disease. Symmetry 2020, 12, 151. [Google Scholar] [CrossRef] [Green Version]
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- Li, Y.; Dai, S.; Zhao, L.; Yan, X.; Shi, Y. Topological design methods for mecanum wheel configurations of an omnidirectional mobile robot. Symmetry 2019, 11, 1268. [Google Scholar] [CrossRef] [Green Version]
- Alcayde, A.; Velilla, C.; San-Antonio-Gómez, C.; Peña, A.; Pérez-Romero, A.; Manzano-Agugliaro, F. Basket-handle arch and its optimum symmetry generation as a structural element and keeping the aesthetic point of view. Symmetry 2019, 11, 1243. [Google Scholar] [CrossRef] [Green Version]
- Niu, K.; Liu, J.; Wang, Y. Research methodology: Application of railway luggage and package transportation scheme formulation based on a dynamic time–space service network. Symmetry 2019, 11, 1226. [Google Scholar] [CrossRef] [Green Version]
- Hanif, M.H.; Adnan, M.; Shah, S.A.R.; Khan, N.M.; Nadeem, M.; Javed, J.; Akbar, M.W.; Farooq, A.; Waseem, M. Rainfall runoff analysis and sustainable soil bed optimization engineering process: Application of an advanced decision-making technique. Symmetry 2019, 11, 1224. [Google Scholar] [CrossRef] [Green Version]
- Yang, K.; Yang, G.; Chen, S.-L.; Wang, Y.; Zhang, C.; Fang, Z.; Zheng, T.; Wang, C. Study on stiffness-oriented cable tension distribution for a symmetrical cable-driven mechanism. Symmetry 2019, 11, 1158. [Google Scholar] [CrossRef] [Green Version]
- Zhang, L.; Feng, X.; Yang, Y.; Ding, C. Ding routing for hazardous materials transportation in urban areas. Symmetry 2019, 11, 1091. [Google Scholar] [CrossRef] [Green Version]
- Su, G.-D.; Chang, C.-C.; Lin, C.-C. High-precision authentication scheme based on matrix encoding for AMBTC-compressed images. Symmetry 2019, 11, 996. [Google Scholar] [CrossRef] [Green Version]
Table 1.
Regional distribution of authors by country.
| Country | Number of Authors |
|---|---|
| China | 47 |
| Spain | 15 |
| Pakistan | 8 |
| Australia | 1 |
| USA | 1 |
| Germany | 1 |
| Taiwan | 1 |
| Total | 74 |
Table 2.
Authors’ affiliations.
| Author | First Affiliation | Reference |
|---|---|---|
| Gómez–Déniz, E. | University of Las Palmas de Gran Canaria | [1] |
| Gómez, L. | University of Las Palmas de Gran Canaria | [1] |
| Zhang, F. | Shanghai University | [2] |
| Chen, S. | Chinese Academy of Sciences | [2] |
| He, Y. | Shanghai University | [2] |
| Ye, G. | Ningbo Ruyi Joint Stock Co | [2] |
| Zhang, C. | Chinese Academy of Sciences | [2] |
| Yang, G. | Chinese Academy of Sciences | [2] |
| Shang, X. | University of Mining and Technology | [3] |
| Zhang, Z. | University of Mining and Technology | [3] |
| Su, J. | Beijing Jiaotong University | [4] |
| Jie, Y. | Beijing Jiaotong University | [4] |
| Niu, X. | Beijing Municipal Engineering Research Institute | [4] |
| Liu, C. | Beijing Jiaotong University | [4] |
| Liu, X. | Beijing Jiaotong University | [4] |
| Velázquez, J.S. | Technical University of Cartagena | [5] |
| Cavas, F. | Technical University of Cartagena | [5] |
| Bolarín, J.M. | Miguel Hernández University | [5] |
| Alió, J.L. | Miguel Hernández University | [5] |
| Zhang, S. | Zaozhuang University | [6] |
| Sun, Z. | Zaozhuang University | [6] |
| Lu, J. | Zaozhuang University | [6] |
| Li, L. | Zaozhuang University | [6] |
| Yu, C. | Zaozhuang University | [6] |
| Cao, D. | Hebei University of Technology | [6] |
| García–Vallejo, D. | Universidad de Sevilla | [7] |
| Alcayde, A. | Universidad de Almeria | [7] |
| López-Martínez, J. | Universidad de Almeria | [7] |
| Montoya, F.G. | Universidad de Almeria | [7] |
| Wang, S. | Nanjing University of Aeronautics and Astronautics | [8] |
| Wang, X. | Nanjing University of Aeronautics and Astronautics | [8] |
| Wang, Y. | Beihang University | [8] |
| Ye, H. | Beihang University | [8] |
| Qin, H. | Beihang University | [9] |
| Wu, Z. | Beihang University | [9] |
| Li, Y. | China University of Mining and Technology | [10] |
| Dai, S. | Stevens Institute of Technology | [10] |
| Zhao, L. | China University of Mining and Technology | [10] |
| Yan, X. | China University of Mining and Technology | [10] |
| Shi, Y. | Stevens Institute of Technology | [10] |
| Alcayde, A. | Universidad de Almeria | [11] |
| Velilla, C. | Universidad Politécnica de Madrid | [11] |
| San Antonio–Gómez, C. | Universidad Politécnica de Madrid | [11] |
| Peña–Fernández, A. | Universidad de Almeria | [11] |
| Pérez–Romero, A. | Universidad de Sevilla | [11] |
| Manzano–Agugliaro, F. | Universidad de Almeria | [11] |
| Niu, K. | Beijing Jiaotong University | [12] |
| Liu, J. | Beijing Jiaotong University | [12] |
| Wang, Y. | Beijing Jiaotong University | [12] |
| Hanif, M.H. | Pakistan Institute of Engineering & Technology | [13] |
| Adnan, M. | Pakistan Institute of Engineering & Technology | [13] |
| Shah, S.A.R. | Pakistan Institute of Engineering & Technology | [13] |
| Khan, N.M. | Pakistan Engineering Council | [13] |
| Nadeem, M. | Pakistan Institute of Engineering & Technology | [13] |
| Javed, J. | Pakistan Institute of Engineering & Technology | [13] |
| Akbar, M.W. | Pakistan Institute of Engineering & Technology | [13] |
| Farooq, A. | Pakistan Institute of Engineering & Technology | [13] |
| Waseem, M. | University of Bayreuth | [13] |
| Yang, K. | Chinese Academy of Sciences | [14] |
| Yang, G. | Chinese Academy of Sciences | [14] |
| Chen, S.L. | Chinese Academy of Sciences | [14] |
| Wang, Y. | Chinese Academy of Sciences | [14] |
| Zhang, C. | Chinese Academy of Sciences | [14] |
| Fang, Z. | Chinese Academy of Sciences | [14] |
| Zheng, T. | Chinese Academy of Sciences | [14] |
| Wang, C. | Chinese Academy of Sciences | [14] |
| Zhang, L. | Beijing Jiaotong University | [15] |
| Feng, X. | Guangxi Traffic Technician College | [15] |
| Yang, Y. | Beijing Jiaotong University | [15] |
| Ding, C. | Beijing Jiaotong University | [15] |
| Su, G.D. | Fuqing Branch of Fujian Normal University | [16] |
| Chang, C.C. | Feng Chia University | [16] |
| Lin, C.C. | Providence University | [16] |
Table 3.
Symmetry topics.
| Symmetry in | Number of Manuscripts |
|---|---|
| Electrical Engineering | 2 |
| Mechanical Engineering | 6 |
| Civil Engineering | 4 |
| Chemical Engineering | 0 |
| Other Interdisciplinary Engineering Disciplines | 2 |
| Topology of Complex Networks in Engineering | 2 |
| Total |
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MDPI and ACS Style
Montoya, F.G.; Baños, R.; Alcayde, A.; Manzano-Agugliaro, F. Symmetry in Engineering Sciences II. Symmetry 2020, 12, 1077. https://doi.org/10.3390/sym12071077
AMA Style
Montoya FG, Baños R, Alcayde A, Manzano-Agugliaro F. Symmetry in Engineering Sciences II. Symmetry. 2020; 12(7):1077. https://doi.org/10.3390/sym12071077
Chicago/Turabian StyleMontoya, Francisco G., Raúl Baños, Alfredo Alcayde, and Francisco Manzano-Agugliaro. 2020. "Symmetry in Engineering Sciences II" Symmetry 12, no. 7: 1077. https://doi.org/10.3390/sym12071077
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