Symmetry
http://www.mdpi.com/journal/symmetry
Latest open access articles published in Symmetry at http://www.mdpi.com/journal/symmetry<![CDATA[Symmetry, Vol. 8, Pages 147: Comprehensive Reputation-Based Security Mechanism against Dynamic SSDF Attack in Cognitive Radio Networks]]>
http://www.mdpi.com/2073-8994/8/12/147
Collaborative spectrum sensing (CSS) was envisioned to improve the reliability of spectrum sensing in centralized cognitive radio networks (CRNs). However, secondary users (SUs)’ changeable environment and ease of compromise make CSS vulnerable to security threats, which further mislead the global decision making and degrade the overall performance. A popular attack in CSS is the called spectrum sensing data falsification (SSDF) attack. In the SSDF attack, malicious cognitive users (MUs) send false sensing results to the fusion center, which significantly degrades detection accuracy. In this paper, a comprehensive reputation-based security mechanism against dynamic SSDF attack for CRNs is proposed. In the mechanism, the reliability of SUs in collaborative sensing is measured with comprehensive reputation values in accordance with the SUs’ current and historical sensing behaviors. Meanwhile a punishment strategy is presented to revise the reputation, in which a reward factor and a penalty factor are introduced to encourage SUs to engage in positive and honest sensing activities. The whole mechanism focuses on ensuring the correctness of the global decision continuously. Specifically, the proposed security scheme can effectively alleviate the effect of users’ malicious behaviors on network decision making, which contributes greatly to enhancing the fairness and robustness of CRNs. Considering that the attack strategy adopted by MUs has been gradually transforming from simplicity, fixedness and singleness into complexity, dynamic and crypticity, we introduce two dynamic behavior patterns (true to false and then to true (TFT) and false to true and then to false (FTF)) to further validate the effectiveness of our proposed defense mechanism. Abundant simulation results verify the rationality and validity of our proposed mechanism.Symmetry2016-12-03812Article10.3390/sym81201471472073-89942016-12-03doi: 10.3390/sym8120147Fang YeXun ZhangYibing Li<![CDATA[Symmetry, Vol. 8, Pages 145: On Center, Periphery and Average Eccentricity for the Convex Polytopes]]>
http://www.mdpi.com/2073-8994/8/12/145
A vertex v is a peripheral vertex in G if its eccentricity is equal to its diameter, and periphery P ( G ) is a subgraph of G induced by its peripheral vertices. Further, a vertex v in G is a central vertex if e ( v ) = r a d ( G ) , and the subgraph of G induced by its central vertices is called center C ( G ) of G . Average eccentricity is the sum of eccentricities of all of the vertices in a graph divided by the total number of vertices, i.e., a v e c ( G ) = { 1 n ∑ e G ( u ) ; u ∈ V ( G ) } . If every vertex in G is central vertex, then C ( G ) = G , and hence, G is self-centered. In this report, we find the center, periphery and average eccentricity for the convex polytopes.Symmetry2016-12-02812Article10.3390/sym81201451452073-89942016-12-02doi: 10.3390/sym8120145Waqas NazeerShin KangSaima NazeerMobeen MunirImrana KousarAmmara SeharYoung Kwun<![CDATA[Symmetry, Vol. 8, Pages 146: Design of a Sustainable and Efficient Transportation Station (SETS) Based on Renewable Sources and Efficient Electric Drives]]>
http://www.mdpi.com/2073-8994/8/12/146
The need for reduction in power consumption for public facilities has increased after the occurrences of multiple blackout events. In an effort to enable the development of green and smart social infrastructure, this paper introduces a design for a sustainable and efficient transportation system (SETS). For this design, renewable power sources and efficient electric drives are considered to be crucial technologies. Considering the subway station as an illustrative example, a power system design that uses wind and solar energy as major power sources is studied. The adjustable speed electric drive system that uses synchronous reluctance machines for ventilation systems contributes to increasing the overall power consumption efficiency. The effectiveness of the proposed SETS system is verified through a set of various field measurement data and simulation results. While the verification results demonstrate that operation of SETS is enabled by effective integration of renewable sources and efficient ventilation systems, future research directions have also been identified.Symmetry2016-12-02812Article10.3390/sym81201461462073-89942016-12-02doi: 10.3390/sym8120146Myungchin KimJeongtae KimSungwoo Bae<![CDATA[Symmetry, Vol. 8, Pages 144: Using Convolutional Neural Network Filters to Measure Left-Right Mirror Symmetry in Images]]>
http://www.mdpi.com/2073-8994/8/12/144
We propose a method for measuring symmetry in images by using filter responses from Convolutional Neural Networks (CNNs). The aim of the method is to model human perception of left/right symmetry as closely as possible. Using the Convolutional Neural Network (CNN) approach has two main advantages: First, CNN filter responses closely match the responses of neurons in the human visual system; they take information on color, edges and texture into account simultaneously. Second, we can measure higher-order symmetry, which relies not only on color, edges and texture, but also on the shapes and objects that are depicted in images. We validated our algorithm on a dataset of 300 music album covers, which were rated according to their symmetry by 20 human observers, and compared results with those from a previously proposed method. With our method, human perception of symmetry can be predicted with high accuracy. Moreover, we demonstrate that the inclusion of features from higher CNN layers, which encode more abstract image content, increases the performance further. In conclusion, we introduce a model of left/right symmetry that closely models human perception of symmetry in CD album covers.Symmetry2016-12-01812Article10.3390/sym81201441442073-89942016-12-01doi: 10.3390/sym8120144Anselm BrachmannChristoph Redies<![CDATA[Symmetry, Vol. 8, Pages 143: A New Bayesian Edge-Linking Algorithm Using Single-Target Tracking Techniques]]>
http://www.mdpi.com/2073-8994/8/12/143
This paper proposes novel edge-linking algorithms capable of producing a set of edge segments from a binary edge map generated by a conventional edge-detection algorithm. These proposed algorithms transform the conventional edge-linking problem into a single-target tracking problem, which is a well-known problem in object tracking. The conversion of the problem enables us to apply sophisticated Bayesian inference to connect the edge points. We test our proposed approaches on real images that are corrupted with noise.Symmetry2016-12-01812Article10.3390/sym81201431432073-89942016-12-01doi: 10.3390/sym8120143Ji Yoon<![CDATA[Symmetry, Vol. 8, Pages 142: Fluctuating Asymmetry of Craniological Features of Small Mammals as a Reflection of Heterogeneity of Natural Populations]]>
http://www.mdpi.com/2073-8994/8/12/142
Fluctuating asymmetry (FA) in nine species of small mammals (Insectivora and Rodentia) was estimated using 10 cranial features (foramina for nerves and blood vessels). The main criterion was the occurrence of the fluctuating asymmetry manifestations (OFAM). A total of 2300 skulls collected in the taiga and forest-tundra of Yakutia (Northeast Asia) were examined. The examined species are characterized by comparable OFAM values in the vast territories of the taiga zone; on the ecological periphery of the range an increased FA level is registered. Asymmetric manifestations in analyzed features are equally likely to occur in males and females. OFAM values in juveniles are higher than in adults; this difference is more pronounced on the periphery of the geographic range. Among juveniles, lower FA levels are observed in individuals that have bred. It can be surmised that the risk of elimination of individuals with high FA levels increases in stressful periods (active reproduction and winter). In conditions that are close to optimal, populations demonstrate relatively homogeneous FA levels, while on the periphery of the area an increase in occurrence of disturbances in developmental stability is observed, which leads, on one hand, to higher average FA for the population and, on the other hand, to heterogeneity of the population in this parameter.Symmetry2016-11-29812Article10.3390/sym81201421422073-89942016-11-29doi: 10.3390/sym8120142Elena ShadrinaYakov Vol’pert<![CDATA[Symmetry, Vol. 8, Pages 141: Comparing Bayesian and Maximum Likelihood Predictors in Structural Equation Modeling of Children’s Lifestyle Index]]>
http://www.mdpi.com/2073-8994/8/12/141
Several factors may influence children’s lifestyle. The main purpose of this study is to introduce a children’s lifestyle index framework and model it based on structural equation modeling (SEM) with Maximum likelihood (ML) and Bayesian predictors. This framework includes parental socioeconomic status, household food security, parental lifestyle, and children’s lifestyle. The sample for this study involves 452 volunteer Chinese families with children 7–12 years old. The experimental results are compared in terms of root mean square error, coefficient of determination, mean absolute error, and mean absolute percentage error metrics. An analysis of the proposed causal model suggests there are multiple significant interconnections among the variables of interest. According to both Bayesian and ML techniques, the proposed framework illustrates that parental socioeconomic status and parental lifestyle strongly impact children’s lifestyle. The impact of household food security on children’s lifestyle is rejected. However, there is a strong relationship between household food security and both parental socioeconomic status and parental lifestyle. Moreover, the outputs illustrate that the Bayesian prediction model has a good fit with the data, unlike the ML approach. The reasons for this discrepancy between ML and Bayesian prediction are debated and potential advantages and caveats with the application of the Bayesian approach in future studies are discussed.Symmetry2016-11-28812Article10.3390/sym81201411412073-89942016-11-28doi: 10.3390/sym8120141Che RadziHuang HuiHashem Salarzadeh Jenatabadi<![CDATA[Symmetry, Vol. 8, Pages 139: Attribute Control Chart Construction Based on Fuzzy Score Number]]>
http://www.mdpi.com/2073-8994/8/12/139
There is much uncertainty and fuzziness in product quality attributes or quality parameters of a manufacturing process, so the traditional quality control chart can be difficult to apply. This paper proposes a fuzzy control chart. The plotted data was obtained by transforming expert scores into fuzzy numbers. Two types of nonconformity judgment rules—necessity and possibility measurement rules—are proposed. Through graphical analysis, the nonconformity judging method (i.e., assessing directly based on the shape feature of a fuzzy control chart) is proposed. For four different widely used membership functions, control levels were analyzed and compared by observing gaps between the upper and lower control limits. The result of the case study validates the feasibility and reliability of the proposed approach.Symmetry2016-11-26812Article10.3390/sym81201391392073-89942016-11-26doi: 10.3390/sym8120139Shiwang HouHui WangShunxiao Feng<![CDATA[Symmetry, Vol. 8, Pages 140: Nonclassical Symmetries of a Nonlinear Diffusion–Convection/Wave Equation and Equivalents Systems]]>
http://www.mdpi.com/2073-8994/8/12/140
It is generally known that classical point and potential Lie symmetries of differential equations (the latter calculated as point symmetries of an equivalent system) can be different. We question whether this is true when the symmetries are extended to nonclassical symmetries. In this paper, we consider two classes of nonlinear partial differential equations; the first one is a diffusion–convection equation, the second one a wave, where we will show that the majority of the nonclassical point symmetries are included in the nonclassical potential symmetries. We highlight a special case were the opposite is true.Symmetry2016-11-26812Article10.3390/sym81201401402073-89942016-11-26doi: 10.3390/sym8120140Daniel ArrigoBrandon AshleySeth BloombergThomas Deatherage<![CDATA[Symmetry, Vol. 8, Pages 138: Data Aggregation Gateway Framework for CoAP Group Communications]]>
http://www.mdpi.com/2073-8994/8/12/138
In this paper, a data aggregation gateway framework (DA-GW) for constrained application protocol (CoAP) group communications is proposed. The DA-GW framework is designed to improve the throughput performance and energy efficiency of group communication to monitor and control multiple sensor devices collectively with a single user terminal. The DA-GW consists of four function blocks—the message analyzer, group manager, message scheduler and data handler—and three informative databases—the client database, resource database and information database. The DA-GW performs group management and group communication through each functional block and stores resources in the informative databases. The DA-GW employs international standard-based data structures and provides the interoperability of heterogeneous devices used in various applications. The DA-GW is implemented using a Java-based open source framework called jCoAP to evaluate the functions and performance of the DA-GW. The experiment results showed that the DA-GW framework revealed better performance than existing group communication methods in terms of throughput and energy consumption.Symmetry2016-11-24812Article10.3390/sym81201381382073-89942016-11-24doi: 10.3390/sym8120138Minki ChaJung-Hyok KwonSungJin KimTaeshik ShonEui-Jik Kim<![CDATA[Symmetry, Vol. 8, Pages 136: Big Bounce Genesis and Possible Experimental Tests: A Brief Review]]>
http://www.mdpi.com/2073-8994/8/11/136
We review the recent status of big bounce genesis as a new possibility of using dark matter particles’ mass and interaction cross-section to test the existence of a bounce universe at the early stage of evolution in our currently-observed universe. To study the dark matter production and evolution inside the bounce universe, called big bounce genesis for short, we propose a model independent approach. We shall present the motivation for proposing big bounce, as well as the model independent predictions, which can be tested by dark matter direct searches. A positive finding shall have profound impact on our understanding of the early universe physics.Symmetry2016-11-23811Review10.3390/sym81101361362073-89942016-11-23doi: 10.3390/sym8110136Yeuk-Kwan CheungChanghong LiJoannis Vergados<![CDATA[Symmetry, Vol. 8, Pages 137: Evaluation and Classification of Overseas Talents in China Based on the BWM for Intuitionistic Relations]]>
http://www.mdpi.com/2073-8994/8/11/137
Efficient utilization of human resources is an important force for the sustainable development of society and the economy. Against the backdrop of the development of economic globalization, the Chinese Government is presently implementing the strategy of “Strengthening the Nation with Talent” to assist the exploitation and management of human resources. Overseas talents have recently become an important resource. How to scientifically evaluate and classify overseas talents has become an important research topic, and it is necessary to seek a systematic decision aid. This paper introduces a novel methodology to evaluate and classify overseas talents in China under the intuitionistic relations environment. Firstly, we determine the weighted values of decision makers and criteria through defining geometry consistency. Secondly, we construct a non-linear Best-Worst-Method (BWM) model with intuitionistic preference relations. A highlight of this BWM model for intuitionistic relations is taking both positive and negative aspects into consideration, which is different from the original BWM. Finally, the proposed methodology is applied to an illustrative example of overseas talent evaluation, indicating the simultaneous efficiency and practicability of the method.Symmetry2016-11-23811Article10.3390/sym81101371372073-89942016-11-23doi: 10.3390/sym8110137Qing YangZaisheng ZhangXinshang YouTong Chen<![CDATA[Symmetry, Vol. 8, Pages 135: The Novel Concept of “Behavioural Instability” and Its Potential Applications]]>
http://www.mdpi.com/2073-8994/8/11/135
The concept of developmental instability (DI) is a well-known indicator of environmental and genetic stress and is often investigated using various indices such as fluctuating asymmetry, directional asymmetry, antisymmetry and phenotypic variance. Investigations dealing with DI are using morphometric traits. The aim of this investigation is to present the novel concept of behavioural instability in which the trait measured is a behavioural trait. We apply the conventional indices used for the estimation of developmental instability on directional movement—clockwise (CW) and counter-clockwise (CCW) movement of 19 highly inbred lines of Drosophila melanogaster tested in a circular arena. We show that it is possible to quantify behavioural instability using the indices traditionally used to investigate DI. Results revealed several significant differences among lines, depending on the index utilized. The perspectives of utilizing the concept in biological research such as toxicology, evolutionary and stress biology are discussed.Symmetry2016-11-18811Article10.3390/sym81101351352073-89942016-11-18doi: 10.3390/sym8110135Cino PertoldiSimon BahrndorffZorana Kurbalija NovicicPalle Duun Rohde<![CDATA[Symmetry, Vol. 8, Pages 132: Segmentation of Brain Tumors in MRI Images Using Three-Dimensional Active Contour without Edge]]>
http://www.mdpi.com/2073-8994/8/11/132
Brain tumor segmentation in magnetic resonance imaging (MRI) is considered a complex procedure because of the variability of tumor shapes and the complexity of determining the tumor location, size, and texture. Manual tumor segmentation is a time-consuming task highly prone to human error. Hence, this study proposes an automated method that can identify tumor slices and segment the tumor across all image slices in volumetric MRI brain scans. First, a set of algorithms in the pre-processing stage is used to clean and standardize the collected data. A modified gray-level co-occurrence matrix and Analysis of Variance (ANOVA) are employed for feature extraction and feature selection, respectively. A multi-layer perceptron neural network is adopted as a classifier, and a bounding 3D-box-based genetic algorithm is used to identify the location of pathological tissues in the MRI slices. Finally, the 3D active contour without edge is applied to segment the brain tumors in volumetric MRI scans. The experimental dataset consists of 165 patient images collected from the MRI Unit of Al-Kadhimiya Teaching Hospital in Iraq. Results of the tumor segmentation achieved an accuracy of 89% ± 4.7% compared with manual processes.Symmetry2016-11-18811Article10.3390/sym81101321322073-89942016-11-18doi: 10.3390/sym8110132Ali HasanFarid MezianeRob AspinHamid Jalab<![CDATA[Symmetry, Vol. 8, Pages 134: Some Invariants of Circulant Graphs]]>
http://www.mdpi.com/2073-8994/8/11/134
Topological indices and polynomials are predicting properties like boiling points, fracture toughness, heat of formation, etc., of different materials, and thus save us from extra experimental burden. In this article we compute many topological indices for the family of circulant graphs. At first, we give a general closed form of M-polynomial of this family and recover many degree-based topological indices out of it. We also compute Zagreb indices and Zagreb polynomials of this family. Our results extend many existing results.Symmetry2016-11-18811Article10.3390/sym81101341342073-89942016-11-18doi: 10.3390/sym8110134Mobeen MunirWaqas NazeerZakia ShahzadiShin Kang<![CDATA[Symmetry, Vol. 8, Pages 133: Nutritional Stress Causes Heterogeneous Relationships with Multi-Trait FA in Lesser Black-Backed Gull Chicks: An Aviary Experiment]]>
http://www.mdpi.com/2073-8994/8/11/133
Environmental stressors have the potential to induce perturbations in the development of young individuals, leading to aberrant and unstable development. This may manifest as fluctuating asymmetry (FA; small, non-directional changes in the bilateral symmetry of morphological traits). Although widely regarded as a proxy for stress effects, the use of FA as a biomarker is still a topic of much debate. We investigated the applicability of FA as an indicator of nutritional stress (brought about by energetic constraints) by experimental manipulation of the diet composition and quantity during the growth of Lesser Black-backed Gull (Larus fuscus) chicks. FA as an endpoint was measured across the tarsus, wing and 10th primary feather when chicks reached 30 days of age. Although levels of asymmetry were found to increase with stress in the feather, relationships with tarsus and wing FA were mixed and mostly non-significant. Furthermore, we did not find any correlations in unsigned FA between traits, indicating the absence of organism-wide asymmetry. Our study was therefore unable to find unequivocal evidence in support of the application of FA as a reliable estimator of nutritional stress.Symmetry2016-11-17811Article10.3390/sym81101331332073-89942016-11-17doi: 10.3390/sym8110133Trisha GuptaCátia SantosAlejandro SotilloLiesbeth De NeveEric StienenWendt MüllerLuc Lens<![CDATA[Symmetry, Vol. 8, Pages 131: An Improved Protocol for the Password Authenticated Association of IEEE 802.15.6 Standard That Alleviates Computational Burden on the Node]]>
http://www.mdpi.com/2073-8994/8/11/131
The IEEE Std 802.15.6 is an international standard for wireless body area networks (WBANs). It contains many aspects of communications, and also provides security services, since some communications in WBANs can carry sensitive information. In this standard, the password authenticated association is a protocol for two participants to identify each other and establish a new master key based on a pre-shared short password. However, recent research shows that this protocol is vulnerable to several attacks. In this paper, we propose an improved protocol which can resist all of these attacks. Moreover, the improved protocol alleviates computational burden on one side of the two participants, the node, which is usually less powerful compared with the other side, the hub.Symmetry2016-11-17811Article10.3390/sym81101311312073-89942016-11-17doi: 10.3390/sym8110131Jie ZhangXin HuangPaul CraigAlan MarshallDawei Liu<![CDATA[Symmetry, Vol. 8, Pages 130: Image Intelligent Detection Based on the Gabor Wavelet and the Neural Network]]>
http://www.mdpi.com/2073-8994/8/11/130
This paper first analyzes the one-dimensional Gabor function and expands it to a two-dimensional one. The two-dimensional Gabor function generates the two-dimensional Gabor wavelet through measure stretching and rotation. At last, the two-dimensional Gabor wavelet transform is employed to extract the image feature information. Based on the back propagation (BP) neural network model, the image intelligent test model based on the Gabor wavelet and the neural network model is built. The human face image detection is adopted as an example. Results suggest that, although there are complex textures and illumination variations on the images of the face database named AT&amp;T, the detection accuracy rate of the proposed method can reach above 0.93. In addition, extensive simulations based on the Yale and extended Yale B datasets further verify the effectiveness of the proposed method.Symmetry2016-11-15811Article10.3390/sym81101301302073-89942016-11-15doi: 10.3390/sym8110130Yajun XuFengmei LiangGang ZhangHuifang Xu<![CDATA[Symmetry, Vol. 8, Pages 128: Invariant Subspaces of the Two-Dimensional Nonlinear Evolution Equations]]>
http://www.mdpi.com/2073-8994/8/11/128
In this paper, we develop the symmetry-related methods to study invariant subspaces of the two-dimensional nonlinear differential operators. The conditional Lie–Bäcklund symmetry and Lie point symmetry methods are used to construct invariant subspaces of two-dimensional differential operators. We first apply the multiple conditional Lie–Bäcklund symmetries to derive invariant subspaces of the two-dimensional operators. As an application, the invariant subspaces for a class of two-dimensional nonlinear quadratic operators are provided. Furthermore, the invariant subspace method in one-dimensional space combined with the Lie symmetry reduction method and the change of variables is used to obtain invariant subspaces of the two-dimensional nonlinear operators.Symmetry2016-11-15811Article10.3390/sym81101281282073-89942016-11-15doi: 10.3390/sym8110128Chunrong ZhuChangzheng Qu<![CDATA[Symmetry, Vol. 8, Pages 129: The Design and Analysis of a Secure Personal Healthcare System Based on Certificates]]>
http://www.mdpi.com/2073-8994/8/11/129
Due to the development of information technology (IT), it has been applied to various fields such as the smart home, medicine, healthcare, and the smart car. For these fields, IT has been providing continuous prevention and management, including health conditions beyond the mere prevention of disease, improving the quality of life. e-Healthcare is a health management and medical service to provide prevention, diagnosis, treatment, and the follow-up management of diseases at any time and place in connection with information communication technology, without requiring patients to visit hospitals. However, e-Healthcare has been exposed to eavesdropping, manipulation, and the forgery of information that is personal, biological, medical, etc., and is a security threat from malicious attackers. This study suggests a security service model to exchange personal health records (PHRs) for e-Healthcare environments. To be specific, this study suggests a scheme in which communicators are able to securely authorize and establish security channels by constituting the infrastructure each organization relies on. In addition, the possibility of establishing a security service model is indicated by suggesting an e-Healthcare system for a secure e-Healthcare environment as a secure personal health record system. This is anticipated to provide securer communication in e-Healthcare environments in the future through the scheme suggested in this study.Symmetry2016-11-14811Article10.3390/sym81101291292073-89942016-11-14doi: 10.3390/sym8110129Jungho KangHague ChungJeongkyu LeeJong Park<![CDATA[Symmetry, Vol. 8, Pages 127: Affine Geometry, Visual Sensation, and Preference for Symmetry of Things in a Thing]]>
http://www.mdpi.com/2073-8994/8/11/127
Evolution and geometry generate complexity in similar ways. Evolution drives natural selection while geometry may capture the logic of this selection and express it visually, in terms of specific generic properties representing some kind of advantage. Geometry is ideally suited for expressing the logic of evolutionary selection for symmetry, which is found in the shape curves of vein systems and other natural objects such as leaves, cell membranes, or tunnel systems built by ants. The topology and geometry of symmetry is controlled by numerical parameters, which act in analogy with a biological organism’s DNA. The introductory part of this paper reviews findings from experiments illustrating the critical role of two-dimensional (2D) design parameters, affine geometry and shape symmetry for visual or tactile shape sensation and perception-based decision making in populations of experts and non-experts. It will be shown that 2D fractal symmetry, referred to herein as the “symmetry of things in a thing”, results from principles very similar to those of affine projection. Results from experiments on aesthetic and visual preference judgments in response to 2D fractal trees with varying degrees of asymmetry are presented. In a first experiment (psychophysical scaling procedure), non-expert observers had to rate (on a scale from 0 to 10) the perceived beauty of a random series of 2D fractal trees with varying degrees of fractal symmetry. In a second experiment (two-alternative forced choice procedure), they had to express their preference for one of two shapes from the series. The shape pairs were presented successively in random order. Results show that the smallest possible fractal deviation from “symmetry of things in a thing” significantly reduces the perceived attractiveness of such shapes. The potential of future studies where different levels of complexity of fractal patterns are weighed against different degrees of symmetry is pointed out in the conclusion.Symmetry2016-11-14811Article10.3390/sym81101271272073-89942016-11-14doi: 10.3390/sym8110127Birgitta Dresp-Langley<![CDATA[Symmetry, Vol. 8, Pages 126: Linear Weingarten Helicoidal Surfaces in Isotropic Space]]>
http://www.mdpi.com/2073-8994/8/11/126
In the present paper, we study helicoidal surfaces in the three-dimensional isotropic space I 3 and construct helicoidal surfaces satisfying a linear equation in terms of the Gaussian curvature and the mean curvature of the surface.Symmetry2016-11-14811Article10.3390/sym81101261262073-89942016-11-14doi: 10.3390/sym8110126Dae YoonJae Lee<![CDATA[Symmetry, Vol. 8, Pages 125: Improvement in Scoliosis Top View: Evaluation of Vertebrae Localization in Scoliotic Spine-Spine Axial Presentation]]>
http://www.mdpi.com/2073-8994/8/11/125
Morphological analysis of the scoliotic spine is based on two-dimensional X-rays: coronal and sagittal. The three-dimensional character of scoliosis has raised the necessity for analyzing scoliosis in three planes. We proposed a new user-friendly method of graphical presentation of the spine in the third plane–the Spine Axial Presentation (SAP). Eighty-five vertebrae of patients with scoliosis were analyzed. Due to different positions during X-rays (standing) and computer tomography (CT) (supine), the corresponding measurements cannot be directly compared. As a solution, a software creating Digital Reconstructed Radiographs (DRRs) from CT scans was developed to replace regular X-rays with DRRs. Based on the measurements performed on DRRs, the coordinates of vertebral bodies central points were defined. Next, the geometrical centers of vertebral bodies were determined on CT scans. The reproducibility of measurements was tested with Intraclass Correlation Coefficient (ICC), using p = 0.05. The intra-observer reproducibility and inter-observer reliability for vertebral body central point’s coordinates (x, y, z) were high for results obtained based on DRRs and CT scans, as well as for comparison results obtained based on DRR and CT scans. Based on two standard radiographs, it is possible to localize vertebral bodies in 3D space. The position of vertebral bodies can be present in the Spine Axial Presentation.Symmetry2016-11-14811Article10.3390/sym81101251252073-89942016-11-14doi: 10.3390/sym8110125Paweł GłówkaDominik GawełBartosz KasprzakMichał NowakTomasz Kotwicki<![CDATA[Symmetry, Vol. 8, Pages 124: Fluctuating Asymmetry in Two Common Freshwater Fishes as a Biological Indicator of Urbanization and Environmental Stress within the Middle Chattahoochee Watershed]]>
http://www.mdpi.com/2073-8994/8/11/124
Deviations in bilateral symmetry or fluctuating asymmetry of an organism may result under environmental stressors that reduce developmental homeostasis and stability. Anthropogenic stressors such as increased urbanization can negatively impact environmental quality of aquatic ecosystems. Researchers have stressed the value in finding easy, accurate and inexpensive methods for assessing potential stress within ecosystems. Here we use fluctuating asymmetry (FA) as a useful quantitative tool in assessing the environmental quality and potential urban-based stressors within eight creeks of the Bull and Upatoi Creeks Watershed within the larger watershed of the Middle Chattahoochee. Using Geographic Information System (GIS), we characterize land-use patterns and a decreasing urbanization gradient as related to each creek’s eastward position from Columbus, Georgia. We collected two common fishes (redbreast sunfish; Lepomis auritus and bluegill; Lepomis macrochirus), measured both metric and meristic traits and investigated if the degree of FA in these two common fishes correlated with the urbanization gradient across creeks. We found significant differences in FA among creeks with one of the highest FA measures for the most urban creek. Principal component analysis (PCA) scores of urbanization and water chemistry were regressed against FA scores. We found no significant relationship between urbanization and FA nor environmental water chemistry and FA among creeks. We comment on the use of FA as a potential response variable and biological indicator of environmental stress within this watershed.Symmetry2016-11-10811Article10.3390/sym81101241242073-89942016-11-10doi: 10.3390/sym8110124William LutterschmidtSamantha MartinJacob Schaefer<![CDATA[Symmetry, Vol. 8, Pages 122: On the Magnetic Evolution in Friedmann Universes and the Question of Cosmic Magnetogenesis]]>
http://www.mdpi.com/2073-8994/8/11/122
We analyse the evolution of primordial magnetic fields in spatially flat Friedmann universes and reconsider the belief that, after inflation, these fields decay adiabatically on all scales. Without abandoning classical electromagnetism or standard cosmology, we demonstrate that this is not necessarily the case for superhorizon-sized magnetic fields. The underlying reason for this is causality, which confines the post-inflationary process of electric-current formation, electric-field elimination and magnetic-flux freezing within the horizon. As a result, the adiabatic magnetic decay is not a priori guaranteed on super-Hubble scales. Instead, after inflation, large-scale magnetic fields obey a power-law solution, where one of the modes drops at a rate slower than the adiabatic. Whether this slowly decaying mode can dominate and dictate the post-inflationary magnetic evolution depends on the initial conditions. These are determined by the evolution of the field during inflation and by the nature of the transition from the de Sitter phase to the reheating era and then to the subsequent epochs of radiation and dust. We discuss two alternative and complementary scenarios to illustrate the role and the implications of the initial conditions for cosmic magnetogenesis. Our main claim is that magnetic fields can be superadiabatically amplified after inflation, as long as they remain outside the horizon. This means that inflation-produced fields can reach astrophysically relevant residual strengths without breaking away from standard physics. Moreover, using the same causality arguments, one can constrain (or in some cases assist) the non-conventional scenarios of primordial magnetogenesis that amplify their fields during inflation. Finally, we show that our results extend naturally to the marginally open and the marginally closed Friedmann universes.Symmetry2016-11-09811Article10.3390/sym81101221222073-89942016-11-09doi: 10.3390/sym8110122Christos Tsagas<![CDATA[Symmetry, Vol. 8, Pages 123: A Longitudinal Study of Changes in Fluctuating Asymmetry with Age in Jamaican Youth]]>
http://www.mdpi.com/2073-8994/8/11/123
Fluctuating asymmetry (FA), random deviation from perfect bilateral symmetry, is an indicator of developmental stability. Examining the ontogeny of FA can illustrate whether symmetry is actively maintained as the organism grows or breaks down as perturbations accumulate with age. Previous studies of changes in human FA with age have been cross-sectional studies and give conflicting results. We analyzed data from a longitudinal study of bodily FA in Jamaicans, using a composite index of seven paired traits. In addition, 288 children (ages 5–12) were first measured in 1996, and many were re-measured in 2002 and 2006 (maximum age = 22 years). Both within-individual longitudinal comparisons and between-individual comparisons across age groups demonstrate changes in FA with age. In males and females, FA increased until around age 13, but the pattern of change differed between the sexes. In males, FA increased rapidly approaching adolescence and then slightly declined into early adulthood. The increase in female FA was more gradual and then leveled off. The patterns observed likely reflect accumulation of developmental errors over time, rapid physical changes during puberty (especially in boys), and then regulation of symmetry when transitioning into adulthood. Although most changes in symmetry over time probably reflect random processes, the magnitude and direction of asymmetry in an individual at one point in time tended to be positively (though weakly) related to asymmetry in later years, pointing to underlying differences among individuals in developmental stability.Symmetry2016-11-09811Article10.3390/sym81101231232073-89942016-11-09doi: 10.3390/sym8110123Brian PalestisRobert Trivers<![CDATA[Symmetry, Vol. 8, Pages 121: Multilevel Editing of B-Spline Curves with Robust Orientation of Details]]>
http://www.mdpi.com/2073-8994/8/11/121
We facilitate the editing of hierarchical B-spline curves at multiple resolutions by expressing a displacement function at each level in rotation minimizing frames (RMFs) on the curve at the next lower level. When the curve is edited at a particular level, RMFs at all the higher levels are updated, and the control points of the displacement function at each higher level are obtained from these new RMFs. This transfers details created at the current level to higher levels. Our method presents a hundred-fold faster way to reflect editing results compared to the traditional approach using Frenet frames. We demonstrate the effectiveness of our technique by showing several examples of editing curves with fine details.Symmetry2016-11-08811Article10.3390/sym81101211212073-89942016-11-08doi: 10.3390/sym8110121Hae-Do HwangDong-Geun ParkSeung-Hyun Yoon<![CDATA[Symmetry, Vol. 8, Pages 120: Event-Centered Maze Generation Method for Mobile Virtual Reality Applications]]>
http://www.mdpi.com/2073-8994/8/11/120
This study proposes a method of effectively creating mobile virtual reality scenes centered at events for the purpose of providing new experiences in virtual reality environment to users. For this purpose, this paper uses Prim’s maze generation algorithm to automatically create maze environments that have different patterns every time and to compute mazes with finite paths. This paper designs a scheme of creating virtual reality scenes based on event-centered mazes to maximize users’ tension and immersion. Here, event components that are appropriate for the maze environment are defined and maze patterns are created centered at the event point where events that are appropriate for the maze pattern are automatically created. Finally, the paper analyzes whether the proposed virtual reality scene based on event-centered mazes is helpful in enhancing users’ immersion and arousing their interest through diverse experiments.Symmetry2016-11-04811Article10.3390/sym81101201202073-89942016-11-04doi: 10.3390/sym8110120Kisung JeongJinmo Kim<![CDATA[Symmetry, Vol. 8, Pages 119: Uncertain Quality Function Deployment Using a Hybrid Group Decision Making Model]]>
http://www.mdpi.com/2073-8994/8/11/119
Quality function deployment (QFD) is a widely used quality system tool for translating customer requirements (CRs) into the engineering design requirements (DRs) of products or services. The conventional QFD analysis, however, has been criticized as having some limitations such as in the assessment of relationships between CRs and DRs, the determination of CR weights and the prioritization of DRs. This paper aims to develop a new hybrid group decision-making model based on hesitant 2-tuple linguistic term sets and an extended QUALIFLEX (qualitative flexible multiple criteria method) approach for handling QFD problems with incomplete weight information. First, hesitant linguistic term sets are combined with interval 2-tuple linguistic variables to express various uncertainties in the assessment information of QFD team members. Borrowing the idea of grey relational analysis (GRA), a multiple objective optimization model is constructed to determine the relative weights of CRs. Then, an extended QUALIFLEX approach with an inclusion comparison method is suggested to determine the ranking of the DRs identified in QFD. Finally, an analysis of a market segment selection problem is conducted to demonstrate and validate the proposed QFD approach.Symmetry2016-11-04811Article10.3390/sym81101191192073-89942016-11-04doi: 10.3390/sym8110119Ze-Ling WangJian-Xin YouHu-Chen Liu<![CDATA[Symmetry, Vol. 8, Pages 117: M-Polynomials and Topological Indices of Titania Nanotubes]]>
http://www.mdpi.com/2073-8994/8/11/117
Titania is one of the most comprehensively studied nanostructures due to their widespread applications in the production of catalytic, gas sensing, and corrosion-resistant materials. M-polynomial of nanotubes has been vastly investigated, as it produces many degree-based topological indices, which are numerical parameters capturing structural and chemical properties. These indices are used in the development of quantitative structure-activity relationships (QSARs) in which the biological activity and other properties of molecules, such as boiling point, stability, strain energy, etc., are correlated with their structure. In this report, we provide M-polynomials of single-walled titania (SW TiO2) nanotubes and recover important topological degree-based indices to theoretically judge these nanotubes. We also plot surfaces associated to single-walled titania (SW TiO2) nanotubes.Symmetry2016-10-31811Article10.3390/sym81101171172073-89942016-10-31doi: 10.3390/sym8110117Mobeen MunirWaqas NazeerAbdul NizamiShazia RafiqueShin Kang<![CDATA[Symmetry, Vol. 8, Pages 110: On the Phenomenology of an Accelerated Large-Scale Universe]]>
http://www.mdpi.com/2073-8994/8/11/110
In this review paper, several new results towards the explanation of the accelerated expansion of the large-scale universe is discussed. On the other hand, inflation is the early-time accelerated era and the universe is symmetric in the sense of accelerated expansion. The accelerated expansion of is one of the long standing problems in modern cosmology, and physics in general. There are several well defined approaches to solve this problem. One of them is an assumption concerning the existence of dark energy in recent universe. It is believed that dark energy is responsible for antigravity, while dark matter has gravitational nature and is responsible, in general, for structure formation. A different approach is an appropriate modification of general relativity including, for instance, f ( R ) and f ( T ) theories of gravity. On the other hand, attempts to build theories of quantum gravity and assumptions about existence of extra dimensions, possible variability of the gravitational constant and the speed of the light (among others), provide interesting modifications of general relativity applicable to problems of modern cosmology, too. In particular, here two groups of cosmological models are discussed. In the first group the problem of the accelerated expansion of large-scale universe is discussed involving a new idea, named the varying ghost dark energy. On the other hand, the second group contains cosmological models addressed to the same problem involving either new parameterizations of the equation of state parameter of dark energy (like varying polytropic gas), or nonlinear interactions between dark energy and dark matter. Moreover, for cosmological models involving varying ghost dark energy, massless particle creation in appropriate radiation dominated universe (when the background dynamics is due to general relativity) is demonstrated as well. Exploring the nature of the accelerated expansion of the large-scale universe involving generalized holographic dark energy model with a specific Nojiri-Odintsov cut-off is presented to finalize the paper.Symmetry2016-10-31811Review10.3390/sym81101101102073-89942016-10-31doi: 10.3390/sym8110110Martiros Khurshudyan<![CDATA[Symmetry, Vol. 8, Pages 118: Asymmetric Facial Bone Fragmentation Mirrors Asymmetric Distribution of Cranial Neuromasts in Blind Mexican Cavefish]]>
http://www.mdpi.com/2073-8994/8/11/118
Craniofacial asymmetry is a convergent trait widely distributed across animals that colonize the extreme cave environment. Although craniofacial asymmetry can be discerned easily, other complex phenotypes (such as sensory organ position and numerical variation) are challenging to score and compare. Certain bones of the craniofacial complex demonstrate substantial asymmetry, and co-localize to regions harboring dramatically expanded numbers of mechanosensory neuromasts. To determine if a relationship exists between this expansion and bone fragmentation in cavefish, we developed a quantitative measure of positional symmetry across the left-right axis. We found that three different cave-dwelling populations were significantly more asymmetric compared to surface-dwelling fish. Moreover, cave populations did not differ in the degree of neuromast asymmetry. This work establishes a method for quantifying symmetry of a complex phenotype, and demonstrates that facial bone fragmentation mirrors the asymmetric distribution of neuromasts in different cavefish populations. Further developmental studies will provide a clearer picture of the developmental and cellular changes that accompany this extreme phenotype, and help illuminate the genetic basis for facial asymmetry in vertebrates.Symmetry2016-10-31811Article10.3390/sym81101181182073-89942016-10-31doi: 10.3390/sym8110118Joshua GrossAndrew GangidineAmanda Powers<![CDATA[Symmetry, Vol. 8, Pages 116: Associations between Floral Asymmetry and Individual Genetic Variability Differ among Three Prickly Pear (Opuntia echios) Populations]]>
http://www.mdpi.com/2073-8994/8/11/116
While stress is expected to increase developmental instability (DI), not all studies confirm this. This heterogeneity could in part be due to the use of subtle differences between the left and right side of bilateral symmetrical organisms to quantify DI, leading to large sampling error obscuring associations with DI. Traits that develop simultaneously more than twice (such as flower petals or bird feathers) reflect individual DI more reliably, such that stronger associations are expected to emerge. Furthermore, some studies have shown differences in strengths of associations among populations. We studied the association between individual genetic diversity and DI in flower petals within three Opuntia echios populations inhabiting Galápagos. Quantifying individual DI through variation in length and width of a high number of petals within individual cacti, lead to a strong association between DI and genetic diversity in one population. We conclude that associations between individual DI and genetic diversity can be more easily revealed by measuring traits that develop repeatedly.Symmetry2016-10-29811Article10.3390/sym81101161162073-89942016-10-29doi: 10.3390/sym8110116Philippe HelsenStefan Van Dongen<![CDATA[Symmetry, Vol. 8, Pages 114: CPT Symmetry and Its Violation]]>
http://www.mdpi.com/2073-8994/8/11/114
One of the most fundamental symmetries in physics is CPT invariance. This article reviews the conditions under which CPT symmetry holds by recalling two proofs of the CPT theorem: The original Lagrangian-based analysis and the more rigorous one in the context of axiomatic quantum field theory. The presentation of the proofs is followed by a discussion of the major physical implications that arise from CPT symmetry. Motivated by recent theoretical and experimental interest in CPT tests, various approaches to the violation of CPT symmetry are mentioned, and it is briefly discussed how they evade the CPT theorem. An attempt has been made to keep this work self-contained and at a level suitable for a wider readership by excising as many technical aspects as possible.Symmetry2016-10-28811Review10.3390/sym81101141142073-89942016-10-28doi: 10.3390/sym8110114Ralf Lehnert<![CDATA[Symmetry, Vol. 8, Pages 115: Regular and Chiral Polyhedra in Euclidean Nets]]>
http://www.mdpi.com/2073-8994/8/11/115
We enumerate the regular and chiral polyhedra (in the sense of Grünbaum’s skeletal approach) whose vertex and edge sets are a subset of those of the primitive cubic lattice, the face-centred cubic lattice, or the body-centred cubic lattice.Symmetry2016-10-28811Article10.3390/sym81101151152073-89942016-10-28doi: 10.3390/sym8110115Daniel Pellicer<![CDATA[Symmetry, Vol. 8, Pages 113: Optimal Inequalities for the Casorati Curvatures of Submanifolds in Generalized Space Forms Endowed with Semi-Symmetric Non-Metric Connections]]>
http://www.mdpi.com/2073-8994/8/11/113
In this paper, we prove some optimal inequalities involving the intrinsic scalar curvature and the extrinsic Casorati curvature of submanifolds in a generalized complex space form with a semi-symmetric non-metric connection and a generalized Sasakian space form with a semi-symmetric non-metric connection. Moreover, we show that in both cases, the equalities hold if and only if submanifolds are invariantly quasi-umbilical.Symmetry2016-10-27811Article10.3390/sym81101131132073-89942016-10-27doi: 10.3390/sym8110113Guoqing HeHairong LiuLiang Zhang<![CDATA[Symmetry, Vol. 8, Pages 111: The Standard-Model Extension and Gravitational Tests]]>
http://www.mdpi.com/2073-8994/8/11/111
The Standard-Model Extension (SME) provides a comprehensive effective field-theory framework for the study of CPT and Lorentz symmetry. This work reviews the structure and philosophy of the SME and provides some intuitive examples of symmetry violation. The results of recent gravitational tests performed within the SME are summarized including analysis of results from the Laser Interferometer Gravitational-Wave Observatory (LIGO), sensitivities achieved in short-range gravity experiments, constraints from cosmic-ray data, and results achieved by studying planetary ephemerids. Some proposals and ongoing efforts will also be considered including gravimeter tests, tests of the Weak Equivalence Principle, and antimatter experiments. Our review of the above topics is augmented by several original extensions of the relevant work. We present new examples of symmetry violation in the SME and use the cosmic-ray analysis to place first-ever constraints on 81 additional operators.Symmetry2016-10-27811Article10.3390/sym81101111112073-89942016-10-27doi: 10.3390/sym8110111Jay Tasson<![CDATA[Symmetry, Vol. 8, Pages 112: Collaborative Spectrum Sensing Algorithm Based on Exponential Entropy in Cognitive Radio Networks]]>
http://www.mdpi.com/2073-8994/8/11/112
Traditional detectors for spectrum sensing in cognitive radio networks always become disabled when noise uncertainty is severe. Shannon entropy-based detection methods have aroused widespread attention in recent years due to the characteristics of effective anti-noise uncertainty. However, in existing entropy-based sensing schemes, the uniform quantization method cannot guarantee the maximum entropy distribution when primary users do not exist, and cannot effectively distinguish between two hypotheses, which severely limits the promotion of detection performance. Moreover, the Shannon entropy-based sensing schemes are prone to misconvergence occurring when estimating entropy values, thus causing failure detection, which leads to system detection inefficiency and resource waste. These are the two major serious defects in Shannon entropy-based detectors, which restrict the performance improvement. In this paper, a novel non-uniform quantized exponential entropy-based (NQEE) detector is proposed for local sensing to deal with the problems of maximum entropy distribution and detection failure. To further improve the reliability of the detection, a collaborative spectrum sensing algorithm based on an NQEE detector with multiple fusion rules is presented. Simulation results verify that the detection performance of the improved local entropy-based detector is superior to the existing Shannon entropy-based detectors and is proved to be robust to noise power uncertainty. In addition, the novel collaborative detection algorithm outperforms the traditional collaborative spectrum detection method to a great degree.Symmetry2016-10-26811Article10.3390/sym81101121122073-89942016-10-26doi: 10.3390/sym8110112Fang YeXun ZhangYibing Li<![CDATA[Symmetry, Vol. 8, Pages 109: A Novel Texture Feature Description Method Based on the Generalized Gabor Direction Pattern and Weighted Discrepancy Measurement Model]]>
http://www.mdpi.com/2073-8994/8/11/109
Texture feature description is a remarkable challenge in the fields of computer vision and pattern recognition. Since the traditional texture feature description method, the local binary pattern (LBP), is unable to acquire more detailed direction information and always sensitive to noise, we propose a novel method based on generalized Gabor direction pattern (GGDP) and weighted discrepancy measurement model (WDMM) to overcome those defects. Firstly, a novel patch-structure direction pattern (PDP) is proposed, which can extract rich feature information and be insensitive to noise. Then, motivated by searching for a description method that can explore richer and more discriminant texture features and reducing the local Gabor feature vector’s high dimension problem, we extend PDP to form the GGDP method with multi-channel Gabor space. Furthermore, WDMM, which can effectively measure the feature distance between two images, is presented for the classification and recognition of image samples. Simulated experiments on olivetti research laboratory (ORL), Carnegie Mellon University pose, illumination, and expression (CMUPIE) and Yale B face databases under different illumination or facial expression conditions indicate that the proposed method outperforms other existing classical methods.Symmetry2016-10-25811Article10.3390/sym81101091092073-89942016-10-25doi: 10.3390/sym8110109Ting ChenXiangmo ZhaoLiang DaiLicheng ZhangJiarui Wang<![CDATA[Symmetry, Vol. 8, Pages 108: Planar Harmonic and Monogenic Polynomials of Type A]]>
http://www.mdpi.com/2073-8994/8/10/108
Harmonic polynomials of type A are polynomials annihilated by the Dunkl Laplacian associated to the symmetric group acting as a reflection group on R N . The Dunkl operators are denoted by T j for 1 ≤ j ≤ N , and the Laplacian Δ κ = ∑ j = 1 N T j 2 . This paper finds the homogeneous harmonic polynomials annihilated by all T j for j &gt; 2 . The structure constants with respect to the Gaussian and sphere inner products are computed. These harmonic polynomials are used to produce monogenic polynomials, those annihilated by a Dirac-type operator.Symmetry2016-10-21810Article10.3390/sym81001081082073-89942016-10-21doi: 10.3390/sym8100108Charles Dunkl<![CDATA[Symmetry, Vol. 8, Pages 107: Scenario-Based Digital Forensics Challenges in Cloud Computing]]>
http://www.mdpi.com/2073-8994/8/10/107
The aim of digital forensics is to extract information to answer the 5Ws (Why, When, Where, What, and Who) from the data extracted from the evidence. In order to achieve this, most digital forensic processes assume absolute control of digital evidence. However, in a cloud environment forensic investigation, this is not always possible. Additionally, the unique characteristics of cloud computing create new technical, legal and architectural challenges when conducting a forensic investigation. We propose a hypothetical scenario to uncover and explain the challenges forensic practitioners face during cloud investigations. Additionally, we also provide solutions to address the challenges. Our hypothetical case scenario has shown that, in the long run, better live forensic tools, development of new methods tailored for cloud investigations and new procedures and standards are indeed needed. Furthermore, we have come to the conclusion that forensic investigations biggest challenge is not technical but legal.Symmetry2016-10-20810Article10.3390/sym81001071072073-89942016-10-20doi: 10.3390/sym8100107Erik Miranda LopezSeo MoonJong Park<![CDATA[Symmetry, Vol. 8, Pages 106: Security Scheme Based on Parameter Hiding Technic for Mobile Communication in a Secure Cyber World]]>
http://www.mdpi.com/2073-8994/8/10/106
Long Term Evolution (LTE) and Long Term Evolution-Advanced (LTE-A) support a better data transmission service than 3G dose and are globally commercialized technologies in a cyber world that is essential for constructing a future mobile environment, since network traffics have exponentially increased as people have started to use more than just one mobile device. However, when User Equipment (UE) is executing initial attach processes to access LTE networks, there is a vulnerability in which identification parameters like International Mobile Subscriber Identity (IMSI) and Radio Network Temporary Identities (RNTI) are transmitted as plain texts. It can threat various services that are commercialized therewith in a cyber world. Therefore, a security scheme is proposed in this paper where identification parameters can be securely transmitted and hidden in four cases where initial attach occurs between UE and Mobility Management Entity (MME). The proposed security scheme not only supports encrypted transmission of identification parameters but also mutual authentication between Evolved Node B (eNB) and MME to make a secure cyber world. Additionally, performance analysis results using an OPNET simulator showed the satisfaction of the average delay rate that is specified in LTE standards.Symmetry2016-10-17810Article10.3390/sym81001061062073-89942016-10-17doi: 10.3390/sym8100106Jong ParkHyungjoo KimJungho Kang<![CDATA[Symmetry, Vol. 8, Pages 105: Testing Lorentz and CPT Invariance with Neutrinos]]>
http://www.mdpi.com/2073-8994/8/10/105
Neutrino experiments can be considered sensitive tools to test Lorentz and CPT invariance. Taking advantage of the great variety of neutrino experiments, including neutrino oscillations, weak decays, and astrophysical neutrinos, the generic experimental signatures of the breakdown of these fundamental symmetries in the neutrino sector are presented.Symmetry2016-10-11810Review10.3390/sym81001051052073-89942016-10-11doi: 10.3390/sym8100105Jorge Díaz<![CDATA[Symmetry, Vol. 8, Pages 104: A Search Complexity Improvement of Vector Quantization to Immittance Spectral Frequency Coefficients in AMR-WB Speech Codec]]>
http://www.mdpi.com/2073-8994/8/10/104
An adaptive multi-rate wideband (AMR-WB) code is a speech codec developed on the basis of an algebraic code-excited linear-prediction (ACELP) coding technique, and has a double advantage of low bit rates and high speech quality. This coding technique is widely used in modern mobile communication systems for a high speech quality in handheld devices. However, a major disadvantage is that a vector quantization (VQ) of immittance spectral frequency (ISF) coefficients occupies a significant computational load in the AMR-WB encoder. Hence, this paper presents a triangular inequality elimination (TIE) algorithm combined with a dynamic mechanism and an intersection mechanism, abbreviated as the DI-TIE algorithm, to remarkably improve the complexity of ISF coefficient quantization in the AMR-WB speech codec. Both mechanisms are designed in a way that recursively enhances the performance of the TIE algorithm. At the end of this work, this proposal is experimentally validated as a superior search algorithm relative to a conventional TIE, a multiple TIE (MTIE), and an equal-average equal-variance equal-norm nearest neighbor search (EEENNS) approach. With a full search algorithm as a benchmark for search load comparison, this work provides a search load reduction above 77%, a figure far beyond 36% in the TIE, 49% in the MTIE, and 68% in the EEENNS approach.Symmetry2016-09-30810Article10.3390/sym81001041042073-89942016-09-30doi: 10.3390/sym8100104Bing-Jhih YaoCheng-Yu YehShaw-Hwa Hwang<![CDATA[Symmetry, Vol. 8, Pages 102: A POCS Algorithm Based on Text Features for the Reconstruction of Document Images at Super-Resolution]]>
http://www.mdpi.com/2073-8994/8/10/102
In order to address the problem of the uncertainty of existing noise models and of the complexity and changeability of the edges and textures of low-resolution document images, this paper presents a projection onto convex sets (POCS) algorithm based on text features. The current method preserves the edge details and smooths the noise in text images by adding text features as constraints to original POCS algorithms and converting the fixed threshold to an adaptive one. In this paper, the optimized scale invariant feature transform (SIFT) algorithm was used for the registration of continuous frames, and finally the image was reconstructed under the improved POCS theoretical framework. Experimental results showed that the algorithm can significantly smooth the noise and eliminate noise caused by the shadows of the lines. The lines of the reconstructed text are smoother and the stroke contours of the reconstructed text are clearer, and this largely eliminates the text edge vibration to enhance the resolution of the document image text.Symmetry2016-09-29810Article10.3390/sym81001021022073-89942016-09-29doi: 10.3390/sym8100102Fengmei LiangYajun XuMengxia ZhangLiyuan Zhang<![CDATA[Symmetry, Vol. 8, Pages 103: Cloud-Based Parameter-Driven Statistical Services and Resource Allocation in a Heterogeneous Platform on Enterprise Environment]]>
http://www.mdpi.com/2073-8994/8/10/103
A fundamental key for enterprise users is a cloud-based parameter-driven statistical service and it has become a substantial impact on companies worldwide. In this paper, we demonstrate the statistical analysis for some certain criteria that are related to data and applied to the cloud server for a comparison of results. In addition, we present a statistical analysis and cloud-based resource allocation method for a heterogeneous platform environment by performing a data and information analysis with consideration of the application workload and the server capacity, and subsequently propose a service prediction model using a polynomial regression model. In particular, our aim is to provide stable service in a given large-scale enterprise cloud computing environment. The virtual machines (VMs) for cloud-based services are assigned to each server with a special methodology to satisfy the uniform utilization distribution model. It is also implemented between users and the platform, which is a main idea of our cloud computing system. Based on the experimental results, we confirm that our prediction model can provide sufficient resources for statistical services to large-scale users while satisfying the uniform utilization distribution.Symmetry2016-09-29810Article10.3390/sym81001031032073-89942016-09-29doi: 10.3390/sym8100103Sungju LeeTaikyeong Jeong<![CDATA[Symmetry, Vol. 8, Pages 100: Smartphone User Identity Verification Using Gait Characteristics]]>
http://www.mdpi.com/2073-8994/8/10/100
Smartphone-based biometrics offers a wide range of possible solutions, which could be used to authenticate users and thus to provide an extra level of security and theft prevention. We propose a method for positive identification of smartphone user’s identity using user’s gait characteristics captured by embedded smartphone sensors (gyroscopes, accelerometers). The method is based on the application of the Random Projections method for feature dimensionality reduction to just two dimensions. Then, a probability distribution function (PDF) of derived features is calculated, which is compared against known user PDF. The Jaccard distance is used to evaluate distance between two distributions, and the decision is taken based on thresholding. The results for subject recognition are at an acceptable level: we have achieved a grand mean Equal Error Rate (ERR) for subject identification of 5.7% (using the USC-HAD dataset). Our findings represent a step towards improving the performance of gait-based user identity verification technologies.Symmetry2016-09-29810Article10.3390/sym81001001002073-89942016-09-29doi: 10.3390/sym8100100Robertas DamaševičiusRytis MaskeliūnasAlgimantas VenčkauskasMarcin Woźniak<![CDATA[Symmetry, Vol. 8, Pages 99: Structural Distortion Stabilizing the Antiferromagnetic and Semiconducting Ground State of BaMn2As2]]>
http://www.mdpi.com/2073-8994/8/10/99
We report evidence that the experimentally found antiferromagnetic structure as well as the semiconducting ground state of BaMn 2 As 2 are caused by optimally-localized Wannier states of special symmetry existing at the Fermi level of BaMn 2 As 2 . In addition, we find that a (small) tetragonal distortion of the crystal is required to stabilize the antiferromagnetic semiconducting state. To our knowledge, this distortion has not yet been established experimentally.Symmetry2016-09-28810Article10.3390/sym8100099992073-89942016-09-28doi: 10.3390/sym8100099Ekkehard Krüger<![CDATA[Symmetry, Vol. 8, Pages 101: Maternal Stress Affects Fetal Growth but Not Developmental Instability in Rabbits]]>
http://www.mdpi.com/2073-8994/8/10/101
Developmental instability (DI), often measured by fluctuating asymmetry (FA) or the frequency of phenodeviants (fPD), is thought to increase with stress. However, specifically for stressors of maternal origin, evidence of such negative associations with DI is scarce. Whereas effects of maternal stress on DI have predominately been examined retroactively in humans, very little is known from experiments with well-defined stress levels in animal model systems. The aim of this study was to examine the effects of maternal exposure to three doses (plus a control) of a toxic compound affecting maternal condition on DI of their offspring in rabbits. Presence of maternal stress induced by the treatment was confirmed by a decrease in food consumption and weight gain of gravid females in the medium and high dose. Major abnormalities and mortality were unaffected by dose, suggesting the lack of toxic effects of the compound on the offspring. In spite of string maternal stress, offspring FA did not increase with dose. The treatment did lead to elevated fPD, but most were transient, reflecting growth retardation. Furthermore, a consistent association between fPD and FA was absent. These findings indicate that DI is not increased by maternal stress in this animal model.Symmetry2016-09-27810Article10.3390/sym81001011012073-89942016-09-27doi: 10.3390/sym8100101Jessica BotsMatteo BrenoLuc De SchaepdrijverStefan Van Dongen<![CDATA[Symmetry, Vol. 8, Pages 97: M-Polynomial and Related Topological Indices of Nanostar Dendrimers]]>
http://www.mdpi.com/2073-8994/8/9/97
Dendrimers are highly branched organic macromolecules with successive layers of branch units surrounding a central core. The M-polynomial of nanotubes has been vastly investigated as it produces many degree-based topological indices. These indices are invariants of the topology of graphs associated with molecular structure of nanomaterials to correlate certain physicochemical properties like boiling point, stability, strain energy, etc. of chemical compounds. In this paper, we first determine M-polynomials of some nanostar dendrimers and then recover many degree-based topological indices.Symmetry2016-09-2189Article10.3390/sym8090097972073-89942016-09-21doi: 10.3390/sym8090097Mobeen MunirWaqas NazeerShazia RafiqueShin Kang<![CDATA[Symmetry, Vol. 8, Pages 98: Two-Dimensional Hermite Filters Simplify the Description of High-Order Statistics of Natural Images]]>
http://www.mdpi.com/2073-8994/8/9/98
Natural image statistics play a crucial role in shaping biological visual systems, understanding their function and design principles, and designing effective computer-vision algorithms. High-order statistics are critical for conveying local features but they are challenging to study, largely because their number and variety is large. Here, via the use of two-dimensional Hermite (TDH) functions, we identify a covert symmetry in high-order statistics of natural images that simplifies this task. This emerges from the structure of TDH functions, which are an orthogonal set of functions that are organized into a hierarchy of ranks. Specifically, we find that the shape (skewness and kurtosis) of the distribution of filter coefficients depends only on the projection of the function onto a one-dimensional subspace specific to each rank. The characterization of natural image statistics provided by TDH filter coefficients reflects both their phase and amplitude structure, and we suggest an intuitive interpretation for the special subspace within each rank.Symmetry2016-09-2189Article10.3390/sym8090098982073-89942016-09-21doi: 10.3390/sym8090098Qin HuJonathan Victor<![CDATA[Symmetry, Vol. 8, Pages 96: ANFIS-Based Modeling for Photovoltaic Characteristics Estimation]]>
http://www.mdpi.com/2073-8994/8/9/96
Due to the high cost of photovoltaic (PV) modules, an accurate performance estimation method is significantly valuable for studying the electrical characteristics of PV generation systems. Conventional analytical PV models are usually composed by nonlinear exponential functions and a good number of unknown parameters must be identified before using. In this paper, an adaptive-network-based fuzzy inference system (ANFIS) based modeling method is proposed to predict the current-voltage characteristics of PV modules. The effectiveness of the proposed modeling method is evaluated through comparison with Villalva’s model, radial basis function neural networks (RBFNN) based model and support vector regression (SVR) based model. Simulation and experimental results confirm both the feasibility and the effectiveness of the proposed method.Symmetry2016-09-1689Article10.3390/sym8090096962073-89942016-09-16doi: 10.3390/sym8090096Ziqiang BiJieming MaXinyu PanJian WangYu Shi<![CDATA[Symmetry, Vol. 8, Pages 95: Approach to Multi-Criteria Group Decision-Making Problems Based on the Best-Worst-Method and ELECTRE Method]]>
http://www.mdpi.com/2073-8994/8/9/95
This paper proposes a novel approach to cope with the multi-criteria group decision-making problems. We give the pairwise comparisons based on the best-worst-method (BWM), which can decrease comparison times. Additionally, our comparison results are determined with the positive and negative aspects. In order to deal with the decision matrices effectively, we consider the elimination and choice translation reality (ELECTRE III) method under the intuitionistic multiplicative preference relations environment. The ELECTRE III method is designed for a double-automatic system. Under a certain limitation, without bothering the decision-makers to reevaluate the alternatives, this system can adjust some special elements that have the most influence on the group’s satisfaction degree. Moreover, the proposed method is suitable for both the intuitionistic multiplicative preference relation and the interval valued fuzzy preference relations through the transformation formula. An illustrative example is followed to demonstrate the rationality and availability of the novel method.Symmetry2016-09-0989Article10.3390/sym8090095952073-89942016-09-09doi: 10.3390/sym8090095Xinshang YouTong ChenQing Yang<![CDATA[Symmetry, Vol. 8, Pages 94: Lorentz Transformations from Intrinsic Symmetries]]>
http://www.mdpi.com/2073-8994/8/9/94
We reveal the frame-exchange space-inversion (FESI) symmetry and the frame-exchange time-inversion (FETI) symmetry in the Lorentz transformation and propose a symmetry principle stating that the space-time transformation between two inertial frames is invariant under the FESI or the FETI transformation. In combination with the principle of relativity and the presumed nature of Euclidean space and time, the symmetry principle is employed to derive the proper orthochronous Lorentz transformation without assuming the constancy of the speed of light and specific mathematical requirements (such as group property) a priori. We explicitly demonstrate that the constancy of the speed of light in all inertial frames can be derived using the velocity reciprocity property, which is a deductive consequence of the space–time homogeneity and the space isotropy. The FESI or the FETI symmetry remains to be preserved in the Galilean transformation at the non-relativistic limit. Other similar symmetry operations result in either trivial transformations or improper and/or non-orthochronous Lorentz transformations, which do not form groups.Symmetry2016-09-0989Article10.3390/sym8090094942073-89942016-09-09doi: 10.3390/sym8090094Sheng Chao<![CDATA[Symmetry, Vol. 8, Pages 93: Modeling and Optimization of a Tree Based on Virtual Reality for Immersive Virtual Landscape Generation]]>
http://www.mdpi.com/2073-8994/8/9/93
This study proposes a modeling method that can effectively generate multiple diverse digital trees for creating immersive virtual landscape based on virtual reality and an optimization method for real-time rendering. The proposed method simplifies a process of procedures from growth of tree models to the generation of the three-dimensional branch geometric model. Here, the procedural branch graph (PBG) algorithm is proposed, which simultaneously and effectively generates diverse trees that have a similar branch pattern. Moreover, the optimization method is designed in a polygon-based branch model which controls the resolution of tree models according to the distance from the camera to generate a tree model structure that is appropriate for an immersive system based on virtual reality. Finally, a virtual reality system is established based on the Oculus SDK (Software Development Kit) and Unity3D engine. In this process, the image processing-based pixel to tree (PTT) method is proposed as a technique for easily and efficiently generating a virtual landscape by allocating multiple trees on terrain. An immersive virtual landscape that has a stereoscopic perception and spatial impression is created through the proposed method and whether it can deliver experience of nature in virtual reality to the users was checked through an experiment.Symmetry2016-09-0989Article10.3390/sym8090093932073-89942016-09-09doi: 10.3390/sym8090093Jinmo Kim<![CDATA[Symmetry, Vol. 8, Pages 92: Energy Conservation Law in Industrial Architecture: An Approach through Geometric Algebra]]>
http://www.mdpi.com/2073-8994/8/9/92
Since 1892, the electrical engineering scientific community has been seeking a power theory for interpreting the power flow within electric networks under non-sinusoidal conditions. Although many power theories have been proposed regarding non-sinusoidal operation, an adequate solution is yet to be found. Using the framework based on complex algebra in non-sinusoidal circuit analysis (frequency domain), the verification of the energy conservation law is only possible in sinusoidal situations. In this case, reactive energy turns out to be proportional to the energy difference between the average electric and magnetic energies stored in the loads and its cancellation is mathematically trivial. However, in industrial architecture, apparent power definition of electric loads (non-sinusoidal conditions) is inconsistent with the energy conservation law. Up until now, in the classical complex algebra approach, this goal is only valid in the case of purely resistive loads. Thus, in this paper, a new circuit analysis approach using geometric algebra is used to develop the most general proof of energy conservation in industrial building loads. In terms of geometric objects, this powerful tool calculates the voltage, current, and apparent power in electrical systems in non-sinusoidal, linear/nonlinear situations. In contrast to the traditional method developed by Steinmetz, the suggested powerful tool extends the concept of phasor to multivector-phasors and is performed in a new Generalized Complex Geometric Algebra structure (CGn), where Gn is the Clifford algebra in n-dimensional real space and C is the complex vector space. To conclude, a numerical example illustrates the clear advantages of the approach suggested in this paper.Symmetry2016-09-0689Article10.3390/sym8090092922073-89942016-09-06doi: 10.3390/sym8090092Juan BravoManuel Castilla<![CDATA[Symmetry, Vol. 8, Pages 90: The Combination of a Fuzzy Analytical Hierarchy Process and the Taguchi Method to Evaluate the Malaysian Users’ Willingness to Pay for Public Transportation]]>
http://www.mdpi.com/2073-8994/8/9/90
This study is an attempt to overcome the lack of reliable estimates on the willingness of Malaysian users to pay for public transportation (particularly buses) through a combined analysis of a fuzzy analytical hierarchy process (F-AHP) and the Taguchi method. This is a ground-breaking study in the attempt to evaluate the bus users’ satisfaction factors based on the F-AHP, and find the pattern for the users’ willingness to pay (WTP) characteristic by reducing the travel time with the Taguchi application. The data were collected from the public transportation users’ intentions in Kelang Valley, Kuala Lumpur, Malaysia. The results convinced us that, for complex data, one requires flexible approaches that can adjust their combination methods to the properties of analyzed datasets. This study is interested in initiating the use of a system combination strategy to have a better understanding of the factors that motivate the public transportation users to be willing to pay for the public transportation’s fare.Symmetry2016-09-0289Article10.3390/sym8090090902073-89942016-09-02doi: 10.3390/sym8090090Hashem Salarzadeh JenatabadiPeyman BabashamsiNur Yusoff<![CDATA[Symmetry, Vol. 8, Pages 91: Higgs Phase in a Gauge U(1) Non-Linear CP1-Model. Two Species of BPS Vortices and Their Zero Modes]]>
http://www.mdpi.com/2073-8994/8/9/91
In this paper, zero modes of fluctuation are dissected around the two species of BPS vortices existing in the critical Higgs phase, where the scalar and vector meson masses are equal, of a gauged U ( 1 ) nonlinear CP 1 -model. If 2 π n , n ∈ Z , is the quantized magnetic flux of the two species of BPS vortex solutions, 2 n linearly-independent vortex zero modes for each species are found and described. The existence of two species of moduli spaces of dimension 2 n of these stringy topological defects is thus locally shown.Symmetry2016-09-0189Article10.3390/sym8090091912073-89942016-09-01doi: 10.3390/sym8090091Alberto Alonso-IzquierdoJuan Mateos-Guilarte<![CDATA[Symmetry, Vol. 8, Pages 89: Social Content Recommendation Based on Spatial-Temporal Aware Diffusion Modeling in Social Networks]]>
http://www.mdpi.com/2073-8994/8/9/89
User interactions in online social networks (OSNs) enable the spread of information and enhance the information dissemination process, but at the same time they exacerbate the information overload problem. In this paper, we propose a social content recommendation method based on spatial-temporal aware controlled information diffusion modeling in OSNs. Users interact more frequently when they are close to each other geographically, have similar behaviors, and fall into similar demographic categories. Considering these facts, we propose multicriteria-based social ties relationship and temporal-aware probabilistic information diffusion modeling for controlled information spread maximization in OSNs. The proposed social ties relationship modeling takes into account user spatial information, content trust, opinion similarity, and demographics. We suggest a ranking algorithm that considers the user ties strength with friends and friends-of-friends to rank users in OSNs and select highly influential injection nodes. These nodes are able to improve social content recommendations, minimize information diffusion time, and maximize information spread. Furthermore, the proposed temporal-aware probabilistic diffusion process categorizes the nodes and diffuses the recommended content to only those users who are highly influential and can enhance information dissemination. The experimental results show the effectiveness of the proposed scheme.Symmetry2016-09-0189Article10.3390/sym8090089892073-89942016-09-01doi: 10.3390/sym8090089Farman UllahSungchang Lee<![CDATA[Symmetry, Vol. 8, Pages 88: The Conformal Camera in Modeling Active Binocular Vision]]>
http://www.mdpi.com/2073-8994/8/9/88
Primate vision is an active process that constructs a stable internal representation of the 3D world based on 2D sensory inputs that are inherently unstable due to incessant eye movements. We present here a mathematical framework for processing visual information for a biologically-mediated active vision stereo system with asymmetric conformal cameras. This model utilizes the geometric analysis on the Riemann sphere developed in the group-theoretic framework of the conformal camera, thus far only applicable in modeling monocular vision. The asymmetric conformal camera model constructed here includes the fovea’s asymmetric displacement on the retina and the eye’s natural crystalline lens tilt and decentration, as observed in ophthalmological diagnostics. We extend the group-theoretic framework underlying the conformal camera to the stereo system with asymmetric conformal cameras. Our numerical simulation shows that the theoretical horopter curves in this stereo system are conics that well approximate the empirical longitudinal horopters of the primate vision system.Symmetry2016-08-3189Article10.3390/sym8090088882073-89942016-08-31doi: 10.3390/sym8090088Jacek Turski<![CDATA[Symmetry, Vol. 8, Pages 87: Weyl, Majorana and Dirac Fields from a Unified Perspective]]>
http://www.mdpi.com/2073-8994/8/9/87
A self-contained derivation of the formalism describing Weyl, Majorana and Dirac fields from a unified perspective is given based on a concise description of the representation theory of the proper orthochronous Lorentz group. Lagrangian methods play no role in the present exposition, which covers several fundamental aspects of relativistic field theory, which are commonly not included in introductory courses when treating fermionic fields via the Dirac equation in the first place.Symmetry2016-08-3089Article10.3390/sym8090087872073-89942016-08-30doi: 10.3390/sym8090087Andreas Aste<![CDATA[Symmetry, Vol. 8, Pages 86: Facial Feature Movements Caused by Various Emotions: Differences According to Sex]]>
http://www.mdpi.com/2073-8994/8/9/86
Facial muscle micro movements for eight emotions were induced via visual and auditory stimuli and were verified according to sex. Thirty-one main facial features were chosen from the Kinect API out of 121 initially obtained facial features; the average change of pixel value was measured after image alignment. The proposed method is advantageous as it allows for comparisons. Facial micro-expressions are analyzed in real time using 31 facial feature points. The amount of micro-expressions for the various emotion stimuli was comparatively analyzed for differences according to sex. Men’s facial movements were similar for each emotion, whereas women’s facial movements were different for each emotion. The six feature positions were significantly different according to sex; in particular, the inner eyebrow of the right eye had a confidence level of p &lt; 0.01. Consequently, discriminative power showed that men’s ability to separate one emotion from the others was lower compared to women’s ability in terms of facial expression, despite men’s average movements being higher compared to women’s. Additionally, the asymmetric phenomena around the left eye region of women appeared more strongly in cases of positive emotions.Symmetry2016-08-3089Article10.3390/sym8090086862073-89942016-08-30doi: 10.3390/sym8090086Kun SuhYoonkyoung KimEui Lee<![CDATA[Symmetry, Vol. 8, Pages 85: A Survey of Public Key Infrastructure-Based Security for Mobile Communication Systems]]>
http://www.mdpi.com/2073-8994/8/9/85
Mobile communication security techniques are employed to guard the communication between the network entities. Mobile communication cellular systems have become one of the most important communication systems in recent times and are used by millions of people around the world. Since the 1990s, considerable efforts have been taken to improve both the communication and security features of the mobile communications systems. However, these improvements divide the mobile communications field into different generations according to the communication and security techniques such as A3, A5 and A8 algorithms for 2G-GSM cellular system, 3G-authentication and key agreement (AKA), evolved packet system-authentication and key agreement (EPS-AKA), and long term evolution-authentication and key agreement (LTE-AKA) algorithms for 3rd generation partnership project (3GPP) systems. Furthermore, these generations have many vulnerabilities, and huge security work is involved to solve such problems. Some of them are in the field of the public key cryptography (PKC) which requires a high computational cost and more network flexibility to be achieved. As such, the public key infrastructure (PKI) is more compatible with the modern generations due to the superior communications features. This paper surveys the latest proposed works on the security of GSM, CDMA, and LTE cellular systems using PKI. Firstly, we present the security issues for each generation of mobile communication systems, then we study and analyze the latest proposed schemes and give some comparisons. Finally, we introduce some new directions for the future scope. This paper classifies the mobile communication security schemes according to the techniques used for each cellular system and covers some of the PKI-based security techniques such as authentication, key agreement, and privacy preserving.Symmetry2016-08-2689Review10.3390/sym8090085852073-89942016-08-26doi: 10.3390/sym8090085Mohammed RamadanGuohong DuFagen LiChunxiang Xu<![CDATA[Symmetry, Vol. 8, Pages 84: The Algorithm of Continuous Optimization Based on the Modified Cellular Automaton]]>
http://www.mdpi.com/2073-8994/8/9/84
This article is devoted to the application of the cellular automata mathematical apparatus to the problem of continuous optimization. The cellular automaton with an objective function is introduced as a new modification of the classic cellular automaton. The algorithm of continuous optimization, which is based on dynamics of the cellular automaton having the property of geometric symmetry, is obtained. The results of the simulation experiments with the obtained algorithm on standard test functions are provided, and a comparison between the analogs is shown.Symmetry2016-08-2589Article10.3390/sym8090084842073-89942016-08-25doi: 10.3390/sym8090084Oleg EvsutinAlexander ShelupanovRoman MeshcheryakovDmitry BondarenkoAngelika Rashchupkina<![CDATA[Symmetry, Vol. 8, Pages 83: Revisiting the Optical PT-Symmetric Dimer]]>
http://www.mdpi.com/2073-8994/8/9/83
Optics has proved a fertile ground for the experimental simulation of quantum mechanics. Most recently, optical realizations of PT -symmetric quantum mechanics have been shown, both theoretically and experimentally, opening the door to international efforts aiming at the design of practical optical devices exploiting this symmetry. Here, we focus on the optical PT -symmetric dimer, a two-waveguide coupler where the materials show symmetric effective gain and loss, and provide a review of the linear and nonlinear optical realizations from a symmetry-based point of view. We go beyond a simple review of the literature and show that the dimer is just the smallest of a class of planar N-waveguide couplers that are the optical realization of the Lorentz group in 2 + 1 dimensions. Furthermore, we provide a formulation to describe light propagation through waveguide couplers described by non-Hermitian mode coupling matrices based on a non-Hermitian generalization of the Ehrenfest theorem.Symmetry2016-08-2489Review10.3390/sym8090083832073-89942016-08-24doi: 10.3390/sym8090083José Huerta MoralesJulio GuerreroServando López-AguayoBlas Rodríguez-Lara<![CDATA[Symmetry, Vol. 8, Pages 82: Decoration of the Truncated Tetrahedron—An Archimedean Polyhedron—To Produce a New Class of Convex Equilateral Polyhedra with Tetrahedral Symmetry]]>
http://www.mdpi.com/2073-8994/8/8/82
The Goldberg construction of symmetric cages involves pasting a patch cut out of a regular tiling onto the faces of a Platonic host polyhedron, resulting in a cage with the same symmetry as the host. For example, cutting equilateral triangular patches from a 6.6.6 tiling of hexagons and pasting them onto the full triangular faces of an icosahedron produces icosahedral fullerene cages. Here we show that pasting cutouts from a 6.6.6 tiling onto the full hexagonal and triangular faces of an Archimedean host polyhedron, the truncated tetrahedron, produces two series of tetrahedral (Td) fullerene cages. Cages in the first series have 28n2 vertices (n ≥ 1). Cages in the second (leapfrog) series have 3 × 28n2. We can transform all of the cages of the first series and the smallest cage of the second series into geometrically convex equilateral polyhedra. With tetrahedral (Td) symmetry, these new polyhedra constitute a new class of “convex equilateral polyhedra with polyhedral symmetry”. We also show that none of the other Archimedean polyhedra, six with octahedral symmetry and six with icosahedral, can host full-face cutouts from regular tilings to produce cages with the host’s polyhedral symmetry.Symmetry2016-08-2088Article10.3390/sym8080082822073-89942016-08-20doi: 10.3390/sym8080082Stan ScheinAlexander YehKris CoolsaetJames Gayed<![CDATA[Symmetry, Vol. 8, Pages 81: Cosmological Reflection of Particle Symmetry]]>
http://www.mdpi.com/2073-8994/8/8/81
The standard model involves particle symmetry and the mechanism of its breaking. Modern cosmology is based on inflationary models with baryosynthesis and dark matter/energy, which involves physics beyond the standard model. Studies of the physical basis of modern cosmology combine direct searches for new physics at accelerators with its indirect non-accelerator probes, in which cosmological consequences of particle models play an important role. The cosmological reflection of particle symmetry and the mechanisms of its breaking are the subject of the present review.Symmetry2016-08-2088Review10.3390/sym8080081812073-89942016-08-20doi: 10.3390/sym8080081Maxim Khlopov<![CDATA[Symmetry, Vol. 8, Pages 80: Superconducting Gap Symmetry of LaFeP(O,F) Observed by Impurity Doping Effect]]>
http://www.mdpi.com/2073-8994/8/8/80
We have investigated Mn, Co and Ni substitution effects on polycrystalline samples of LaFePO0.95F0.05 by resistivity and magnetoresistance measurements. In LaFe1-xMxPO0.95F0.05 (M = Mn, Co and Ni), the superconducting transition temperature (Tc) monotonously decreases with increasing the impurity doping level of x. There is a clear difference of Tc suppression rates among Mn, Co and Ni doping cases, and the decreasing rate of Tc by Mn doping as a magnetic impurity is larger than those by the nonmagnetic doping impurities (Co/Ni). This result indicates that in LaFePO0.95F0.05, Tc is rapidly suppressed by the pair-breaking effect of magnetic impurities, and the pairing symmetry is a full-gapped s-wave. In the nonmagnetic impurity-doped systems, the residual resistivity in the normal state has nearly the same value when Tc becomes zero. The residual resistivity value is almost consistent with the universal value of sheet resistance for two-dimensional superconductors, suggesting that Tc is suppressed by electron localization in Co/Ni-doped LaFePO0.95F0.05.Symmetry2016-08-1788Article10.3390/sym8080080802073-89942016-08-17doi: 10.3390/sym8080080Shigeki MiyasakaSinnosuke SuzukiSetsuko Tajima<![CDATA[Symmetry, Vol. 8, Pages 79: Modeling Bottom-Up Visual Attention Using Dihedral Group D4]]>
http://www.mdpi.com/2073-8994/8/8/79
In this paper, first, we briefly describe the dihedral group D 4 that serves as the basis for calculating saliency in our proposed model. Second, our saliency model makes two major changes in a latest state-of-the-art model known as group-based asymmetry. First, based on the properties of the dihedral group D 4 , we simplify the asymmetry calculations associated with the measurement of saliency. This results is an algorithm that reduces the number of calculations by at least half that makes it the fastest among the six best algorithms used in this research article. Second, in order to maximize the information across different chromatic and multi-resolution features, the color image space is de-correlated. We evaluate our algorithm against 10 state-of-the-art saliency models. Our results show that by using optimal parameters for a given dataset, our proposed model can outperform the best saliency algorithm in the literature. However, as the differences among the (few) best saliency models are small, we would like to suggest that our proposed model is among the best and the fastest among the best. Finally, as a part of future work, we suggest that our proposed approach on saliency can be extended to include three-dimensional image data.Symmetry2016-08-1588Article10.3390/sym8080079792073-89942016-08-15doi: 10.3390/sym8080079Puneet Sharma<![CDATA[Symmetry, Vol. 8, Pages 78: Automatic Frequency Identification under Sample Loss in Sinusoidal Pulse Width Modulation Signals Using an Iterative Autocorrelation Algorithm]]>
http://www.mdpi.com/2073-8994/8/8/78
In this work, we present a simple algorithm to calculate automatically the Fourier spectrum of a Sinusoidal Pulse Width Modulation Signal (SPWM). Modulated voltage signals of this kind are used in industry by speed drives to vary the speed of alternating current motors while maintaining a smooth torque. Nevertheless, the SPWM technique produces undesired harmonics, which yield stator heating and power losses. By monitoring these signals without human interaction, it is possible to identify the harmonic content of SPWM signals in a fast and continuous manner. The algorithm is based in the autocorrelation function, commonly used in radar and voice signal processing. Taking advantage of the symmetry properties of the autocorrelation, the algorithm is capable of estimating half of the period of the fundamental frequency; thus, allowing one to estimate the necessary number of samples to produce an accurate Fourier spectrum. To deal with the loss of samples, i.e., the scan backlog, the algorithm iteratively acquires and trims the discrete sequence of samples until the required number of samples reaches a stable value. The simulation shows that the algorithm is not affected by either the magnitude of the switching pulses or the acquisition noise.Symmetry2016-08-1088Article10.3390/sym8080078782073-89942016-08-10doi: 10.3390/sym8080078Alejandro SaidYasser DavizónPiero Espino-RománRoberto Rodríguez-SaidCarlos Hernández-Santos<![CDATA[Symmetry, Vol. 8, Pages 77: The Role of Orthogonal Polynomials in Tailoring Spherical Distributions to Kurtosis Requirements]]>
http://www.mdpi.com/2073-8994/8/8/77
This paper carries out an investigation of the orthogonal-polynomial approach to reshaping symmetric distributions to fit in with data requirements so as to cover the multivariate case. With this objective in mind, reference is made to the class of spherical distributions, given that they provide a natural multivariate generalization of univariate even densities. After showing how to tailor a spherical distribution via orthogonal polynomials to better comply with kurtosis requirements, we provide operational conditions for the positiveness of the resulting multivariate Gram–Charlier-like expansion, together with its kurtosis range. Finally, the approach proposed here is applied to some selected spherical distributions.Symmetry2016-08-0588Article10.3390/sym8080077772073-89942016-08-05doi: 10.3390/sym8080077Luca BagnatoMario FalivaMaria Zoia<![CDATA[Symmetry, Vol. 8, Pages 76: Almost Contact Metric Structures on 5-Dimensional Nilpotent Lie Algebras]]>
http://www.mdpi.com/2073-8994/8/8/76
We study almost contact metric structures on 5-dimensional nilpotent Lie algebras and investigate the class of left invariant almost contact metric structures on corresponding Lie groups. We determine certain classes that a five-dimensional nilpotent Lie group can not be equipped with.Symmetry2016-08-0488Article10.3390/sym8080076762073-89942016-08-04doi: 10.3390/sym8080076Nülifer ÖzdemirMehmet SolgunŞirin Aktay<![CDATA[Symmetry, Vol. 8, Pages 74: M&E-NetPay: A Micropayment System for Mobile and Electronic Commerce]]>
http://www.mdpi.com/2073-8994/8/8/74
As an increasing number of people purchase goods and services online, micropayment systems are becoming particularly important for mobile and electronic commerce. We have designed and developed such a system called M&amp;E-NetPay (Mobile and Electronic NetPay). With open interoperability and mobility, M&amp;E-NetPay uses web services to connect brokers and vendors, providing secure, flexible and reliable credit services over the Internet. In particular, M&amp;E-NetPay makes use of a secure, inexpensive and debit-based off-line protocol that allows vendors to interact only with customers, after validating coins. The design of the architecture and protocol of M&amp;E-NetPay are presented, together with the implementation of its prototype in ringtone and wallpaper sites. To validate our system, we have conducted its evaluations on performance, usability and heuristics. Furthermore, we compare our system to the CORBA-based (Common Object Request Broker Architecture) off-line micro-payment systems. The results have demonstrated that M&amp;E-NetPay outperforms the .NET-based M&amp;E-NetPay system in terms of performance and user satisfaction.Symmetry2016-08-0388Article10.3390/sym8080074742073-89942016-08-03doi: 10.3390/sym8080074Xiaodi HuangJinsong BaoXiaoling DaiEdwin SinghWeidong HuangChangqin Huang<![CDATA[Symmetry, Vol. 8, Pages 75: Fuzzy System-Based Face Detection Robust to In-Plane Rotation Based on Symmetrical Characteristics of a Face]]>
http://www.mdpi.com/2073-8994/8/8/75
As face recognition technology has developed, it has become widely used in various applications such as door access control, intelligent surveillance, and mobile phone security. One of its applications is its adoption in TV environments to supply viewers with intelligent services and high convenience. In a TV environment, the in-plane rotation of a viewer’s face frequently occurs because he or she may decide to watch the TV from a lying position, which degrades the accuracy of the face recognition. Nevertheless, there has been little previous research to deal with this problem. Therefore, we propose a new fuzzy system–based face detection algorithm that is robust to in-plane rotation based on the symmetrical characteristics of a face. Experimental results on two databases with one open database show that our method outperforms previous methods.Symmetry2016-08-0388Article10.3390/sym8080075752073-89942016-08-03doi: 10.3390/sym8080075Hyung HongWon LeeYeong KimKi KimDat NguyenKang Park<![CDATA[Symmetry, Vol. 8, Pages 73: Broken versus Non-Broken Time Reversal Symmetry: Irreversibility and Response]]>
http://www.mdpi.com/2073-8994/8/8/73
We review some approaches to macroscopic irreversibility from reversible microscopic dynamics, introducing the contribution of time dependent perturbations within the framework of recent developments in non-equilibrium statistical physics. We show that situations commonly assumed to violate the time reversal symmetry (presence of magnetic fields, rotating reference frames, and some time dependent perturbations) in reality do not violate this symmetry, and can be treated with standard theories and within standard experimental protocols.Symmetry2016-07-2988Article10.3390/sym8080073732073-89942016-07-29doi: 10.3390/sym8080073Sara Dal CengioLamberto Rondoni<![CDATA[Symmetry, Vol. 8, Pages 72: Small-Amplitude Nonlinear Modes under the Combined Effect of the Parabolic Potential, Nonlocality and PT Symmetry]]>
http://www.mdpi.com/2073-8994/8/8/72
We consider nonlinear modes of the nonlinear Schrödinger equation with nonlocal nonlinearities and and PT -symmetric parabolic potential. We show that there exists a set of continuous families of nonlinear modes and study their linear stability in the limit of small nonlinearity. It is demonstrated that either PT symmetry or the nonlocality can be used to manage the stability of the small-amplitude nonlinear modes. The stability properties are also found to depend on the particular shape of the nonlocal kernel. Numerical simulations show that the stability results remain valid not only for the infinitesimally small nonlinear modes, but also for the modes of finite amplitude.Symmetry2016-07-2888Article10.3390/sym8080072722073-89942016-07-28doi: 10.3390/sym8080072Dmitry ZezyulinVladimir Konotop<![CDATA[Symmetry, Vol. 8, Pages 71: SCPL: A Social Cooperative Programming Language to Automate Cooperative Processes in (A)Symmetric Social Networks]]>
http://www.mdpi.com/2073-8994/8/8/71
In recent years, the increasing use of social networks and applications—especially those used in an asymmetric way—has significantly changed the business processes in many organizations. These applications provide new cooperative ways of performing these processes by taking advantage of the interactions among users. However, the high number of these applications has led to a lack of automation in their interactions and, thus, the need of manually connecting to these networks to perform recurrent and repetitive tasks. In order to automate these operations, this paper presents SCPL, a Domain Specific Language (DSL) that enables connectivity among different social networks and applications and provides a way to automate their management. The main contribution of this paper is showing how SCPL can be used to specify collaborative tasks using symmetric and asymmetric social networks in a transparent way.Symmetry2016-07-2888Article10.3390/sym8080071712073-89942016-07-28doi: 10.3390/sym8080071José ConejeroFernando Sánchez-FigueroaRoberto Rodríguez-EcheverríaJuan Preciado<![CDATA[Symmetry, Vol. 8, Pages 70: Unveiling the Dynamics of the Universe]]>
http://www.mdpi.com/2073-8994/8/8/70
We explore the dynamics and evolution of the Universe at early and late times, focusing on both dark energy and extended gravity models and their astrophysical and cosmological consequences. Modified theories of gravity not only provide an alternative explanation for the recent expansion history of the universe, but they also offer a paradigm fundamentally distinct from the simplest dark energy models of cosmic acceleration. In this review, we perform a detailed theoretical and phenomenological analysis of different modified gravity models and investigate their consistency. We also consider the cosmological implications of well motivated physical models of the early universe with a particular emphasis on inflation and topological defects. Astrophysical and cosmological tests over a wide range of scales, from the solar system to the observable horizon, severely restrict the allowed models of the Universe. Here, we review several observational probes—including gravitational lensing, galaxy clusters, cosmic microwave background temperature and polarization, supernova and baryon acoustic oscillations measurements—and their relevance in constraining our cosmological description of the Universe.Symmetry2016-07-2688Review10.3390/sym8080070702073-89942016-07-26doi: 10.3390/sym8080070Pedro AvelinoTiago BarreiroC. CarvalhoAntonio da SilvaFrancisco LoboPrado Martín-MorunoJosé MimosoNelson NunesDiego Rubiera-GarcíaDiego Sáez-GómezLara SousaIsmael TerenoArlindo Trindade<![CDATA[Symmetry, Vol. 8, Pages 69: A Logistic Based Mathematical Model to Optimize Duplicate Elimination Ratio in Content Defined Chunking Based Big Data Storage System]]>
http://www.mdpi.com/2073-8994/8/7/69
Deduplication is an efficient data reduction technique, and it is used to mitigate the problem of huge data volume in big data storage systems. Content defined chunking (CDC) is the most widely used algorithm in deduplication systems. The expected chunk size is an important parameter of CDC, and it influences the duplicate elimination ratio (DER) significantly. We collected two realistic datasets to perform an experiment. The experimental results showed that the current approach of setting the expected chunk size to 4 KB or 8 KB empirically cannot optimize DER. Therefore, we present a logistic based mathematical model to reveal the hidden relationship between the expected chunk size and the DER. This model provides a theoretical basis for optimizing DER by setting the expected chunk size reasonably. We used the collected datasets to verify this model. The experimental results showed that the R2 values, which describe the goodness of fit, are above 0.9, validating the correctness of this mathematic model. Based on the DER model, we discussed how to make DER close to the optimum by setting the expected chunk size reasonably.Symmetry2016-07-2187Article10.3390/sym8070069692073-89942016-07-21doi: 10.3390/sym8070069Longxiang WangXiaoshe DongXingjun ZhangFuliang GuoYinfeng WangWeifeng Gong<![CDATA[Symmetry, Vol. 8, Pages 68: Adaptive Image Matching Using Discrimination of Deformable Objects]]>
http://www.mdpi.com/2073-8994/8/7/68
We propose an efficient image-matching method for deformable-object image matching using discrimination of deformable objects and geometric similarity clustering between feature-matching pairs. A deformable transformation maintains a particular form in the whole image, despite local and irregular deformations. Therefore, the matching information is statistically analyzed to calculate the possibility of deformable transformations, and the images can be identified using the proposed method. In addition, a method for matching deformable object images is proposed, which clusters matching pairs with similar types of geometric deformations. Discrimination of deformable images showed about 90% accuracy, and the proposed deformable image-matching method showed an average 89% success rate and 91% accuracy with various transformations. Therefore, the proposed method robustly matches images, even with various kinds of deformation that can occur in them.Symmetry2016-07-2187Article10.3390/sym8070068682073-89942016-07-21doi: 10.3390/sym8070068Insu WonJaehyup JeongHunjun YangJangwoo KwonDongseok Jeong<![CDATA[Symmetry, Vol. 8, Pages 67: Computing the Surface Area of Three-Dimensional Scanned Human Data]]>
http://www.mdpi.com/2073-8994/8/7/67
An efficient surface area evaluation method is introduced by using smooth surface reconstruction for three-dimensional scanned human body data. Surface area evaluations for various body parts are compared with the results from the traditional alginate-based method, and quite high similarity between the two results is obtained. We expect that our surface area evaluation method can be an alternative to measuring surface area by the cumbersome alginate method.Symmetry2016-07-2087Article10.3390/sym8070067672073-89942016-07-20doi: 10.3390/sym8070067Seung-Hyun YoonJieun Lee<![CDATA[Symmetry, Vol. 8, Pages 66: Relationship between Fractal Dimension and Spectral Scaling Decay Rate in Computer-Generated Fractals]]>
http://www.mdpi.com/2073-8994/8/7/66
Two measures are commonly used to describe scale-invariant complexity in images: fractal dimension (D) and power spectrum decay rate (β). Although a relationship between these measures has been derived mathematically, empirical validation across measurements is lacking. Here, we determine the relationship between D and β for 1- and 2-dimensional fractals. We find that for 1-dimensional fractals, measurements of D and β obey the derived relationship. Similarly, in 2-dimensional fractals, measurements along any straight-line path across the fractal’s surface obey the mathematically derived relationship. However, the standard approach of vision researchers is to measure β of the surface after 2-dimensional Fourier decomposition rather than along a straight-line path. This surface technique provides measurements of β that do not obey the mathematically derived relationship with D. Instead, this method produces values of β that imply that the fractal’s surface is much smoother than the measurements along the straight lines indicate. To facilitate communication across disciplines, we provide empirically derived equations for relating each measure of β to D. Finally, we discuss implications for future research on topics including stress reduction and the perception of motion in the context of a generalized equation relating β to D.Symmetry2016-07-1987Article10.3390/sym8070066662073-89942016-07-19doi: 10.3390/sym8070066Alexander BiesCooper BoydstonRichard TaylorMargaret Sereno<![CDATA[Symmetry, Vol. 8, Pages 65: A Model-Driven Framework to Develop Personalized Health Monitoring]]>
http://www.mdpi.com/2073-8994/8/7/65
Both distributed healthcare systems and the Internet of Things (IoT) are currently hot topics. The latter is a new computing paradigm to enable advanced capabilities in engineering various applications, including those for healthcare. For such systems, the core social requirement is the privacy/security of the patient information along with the technical requirements (e.g., energy consumption) and capabilities for adaptability and personalization. Typically, the functionality of the systems is predefined by the patient’s data collected using sensor networks along with medical instrumentation; then, the data is transferred through the Internet for treatment and decision-making. Therefore, systems creation is indeed challenging. In this paper, we propose a model-driven framework to develop the IoT-based prototype and its reference architecture for personalized health monitoring (PHM) applications. The framework contains a multi-layered structure with feature-based modeling and feature model transformations at the top and the application software generation at the bottom. We have validated the framework using available tools and developed an experimental PHM to test some aspects of the functionality of the reference architecture in real time. The main contribution of the paper is the development of the model-driven computational framework with emphasis on the synergistic effect of security and energy issues.Symmetry2016-07-1887Article10.3390/sym8070065652073-89942016-07-18doi: 10.3390/sym8070065Algimantas VenčkauskasVytautas ŠtuikysJevgenijus ToldinasNerijus Jusas<![CDATA[Symmetry, Vol. 8, Pages 64: A Modified GrabCut Using a Clustering Technique to Reduce Image Noise]]>
http://www.mdpi.com/2073-8994/8/7/64
In this paper, a modified GrabCut algorithm is proposed using a clustering technique to reduce image noise. GrabCut is an image segmentation method based on GraphCut starting with a user-specified bounding box around the object to be segmented. In the modified version, the original image is filtered using the median filter to reduce noise and then the quantized image using K-means algorithm is used for the normal GrabCut method for object segmentation. This new process showed that it improved the object segmentation performance a lot and the extract segmentation result compared to the standard method.Symmetry2016-07-1487Article10.3390/sym8070064642073-89942016-07-14doi: 10.3390/sym8070064GangSeong LeeSangHun LeeGaOn KimJongHun ParkYoungSoo Park<![CDATA[Symmetry, Vol. 8, Pages 63: Cubature Formulas of Multivariate Polynomials Arising from Symmetric Orbit Functions]]>
http://www.mdpi.com/2073-8994/8/7/63
The paper develops applications of symmetric orbit functions, known from irreducible representations of simple Lie groups, in numerical analysis. It is shown that these functions have remarkable properties which yield to cubature formulas, approximating a weighted integral of any function by a weighted finite sum of function values, in connection with any simple Lie group. The cubature formulas are specialized for simple Lie groups of rank two. An optimal approximation of any function by multivariate polynomials arising from symmetric orbit functions is discussed.Symmetry2016-07-1487Article10.3390/sym8070063632073-89942016-07-14doi: 10.3390/sym8070063Jiří HrivnákLenka MotlochováJiří Patera<![CDATA[Symmetry, Vol. 8, Pages 62: Image Region Duplication Forgery Detection Based on Angular Radial Partitioning and Harris Key-Points]]>
http://www.mdpi.com/2073-8994/8/7/62
Region duplication forgery where a part of the image itself is copied and pasted onto a different part of the same image grid is becoming more popular in image manipulation. The forgers often apply geometric transformations such as rotation and scaling operations to make the forgery imperceptible. In this study, an image region duplication forgery detection algorithm is proposed based on the angular radial partitioning and Harris key-points. Two standard databases have been used: image data manipulation and MICC-F220 (Media Integration and Communication Center– of the University of Florence) for experimentation. Experiment results demonstrate that the proposed technique can detect rotated regions in multiples of 30 degrees and can detect region duplication with different scaling factors from 0.8, to 1.2. More experimental results are presented to confirm the effectiveness of detecting region duplication that has undergone other changes, such as Gaussian noise, and JPEG compression.Symmetry2016-07-1387Article10.3390/sym8070062622073-89942016-07-13doi: 10.3390/sym8070062Diaa UliyanHamid JalabAinuddin Abdul WahabSomayeh Sadeghi<![CDATA[Symmetry, Vol. 8, Pages 61: Stochastic Cooperative Decision Approach for Studying the Symmetric Behavior of People in Wireless Indoor Location Systems]]>
http://www.mdpi.com/2073-8994/8/7/61
Nowadays, several wireless location systems have been developed in the research world. The goal of these systems has always been to find the greatest accuracy as possible. However, if every node takes data from the environment, we can gather a lot of information, which may help us understand what is happening around our network in a cooperative way. In order to develop this cooperative location and tracking system, we have implemented a sensor network to capture data from user devices. From this captured data we have observed a symmetry behavior in people’s movements at a specific site. By using these data and the symmetry feature, we have developed a statistical cooperative approach to predict the new user’s location. The system has been tested in a real environment, evaluating the next location predicted by the system and comparing it with the next location in the real track, thus getting satisfactory results. Better results have been obtained when the stochastic cooperative approach uses the transition matrix with symmetry.Symmetry2016-07-1387Article10.3390/sym8070061612073-89942016-07-13doi: 10.3390/sym8070061Jesús TomásMiguel Garcia-PinedaAlejandro CánovasJaime Lloret<![CDATA[Symmetry, Vol. 8, Pages 60: Massless Majorana-Like Charged Carriers in Two-Dimensional Semimetals]]>
http://www.mdpi.com/2073-8994/8/7/60
The band structure of strongly correlated two-dimensional (2D) semimetal systems is found to be significantly affected by the spin-orbit coupling (SOC), resulting in SOC-induced Fermi surfaces. Dirac, Weyl and Majorana representations are used for the description of different semimetals, though the band structures of all these systems are very similar. We develop a theoretical approach to the band theory of two-dimensional semimetals within the Dirac–Hartree–Fock self-consistent field approximation. It reveals partially breaking symmetry of the Dirac cone affected by quasi-relativistic exchange interactions for 2D crystals with hexagonal symmetry. Fermi velocity becomes an operator within this approach, and elementary excitations have been calculated in the tight-binding approximation when taking into account the exchange interaction of π ( p z ) -electron with its three nearest π ( p z ) -electrons. These excitations are described by the massless Majorana equation instead of the Dirac one. The squared equation for this field is of the Klein–Gordon–Fock type. Such a feature of the band structure of 2D semimetals as the appearance of four pairs of nodes is shown to be described naturally within the developed formalism. Numerical simulation of band structure has been performed for the proposed 2D-model of graphene and a monolayer of Pb atoms.Symmetry2016-07-0887Article10.3390/sym8070060602073-89942016-07-08doi: 10.3390/sym8070060Halina GrushevskayaGeorge Krylov<![CDATA[Symmetry, Vol. 8, Pages 59: Breathers in Hamiltonian PT -Symmetric Chains of Coupled Pendula under a Resonant Periodic Force]]>
http://www.mdpi.com/2073-8994/8/7/59
We derive a Hamiltonian version of the PT -symmetric discrete nonlinear Schrödinger equation that describes synchronized dynamics of coupled pendula driven by a periodic movement of their common strings. In the limit of weak coupling between the pendula, we classify the existence and spectral stability of breathers (time-periodic solutions localized in the lattice) supported near one pair of coupled pendula. Orbital stability or instability of breathers is proved in a subset of the existence region.Symmetry2016-07-0887Article10.3390/sym8070059592073-89942016-07-08doi: 10.3390/sym8070059Alexander ChernyavskyDmitry Pelinovsky<![CDATA[Symmetry, Vol. 8, Pages 58: Power Spectral Deviation-Based Voice Activity Detection Incorporating Teager Energy for Speech Enhancement]]>
http://www.mdpi.com/2073-8994/8/7/58
In this paper, we propose a robust voice activity detection (VAD) algorithm to effectively distinguish speech from non-speech in various noisy environments. The proposed VAD utilizes power spectral deviation (PSD), using Teager energy (TE) to provide a better representation of the PSD, resulting in improved decision performance for speech segments. In addition, the TE-based likelihood ratio and speech absence probability are derived in each frame to modify the PSD for further VAD. We evaluate the performance of the proposed VAD algorithm by objective testing in various environments and obtain better results that those attained by of the conventional methods.Symmetry2016-07-0687Article10.3390/sym8070058582073-89942016-07-06doi: 10.3390/sym8070058Sang-Kyun KimSang-Ick KangYoung-Jin ParkSanghyuk LeeSangmin Lee<![CDATA[Symmetry, Vol. 8, Pages 57: k-Essence Non-Minimally Coupled with Gauss–Bonnet Invariant for Inflation]]>
http://www.mdpi.com/2073-8994/8/7/57
In this paper, we investigated inflationary solutions for a subclass of Horndeski models where a scalar field is non-minimally coupled with the Gauss–Bonnet invariant. Examples of canonical scalar field and k-essence to support the early-time acceleration are considered. The formalism to calculate the perturbations in a Friedmann–Robertson–Walker (FRW) universe and to derive the spectral index and the tensor-to-scalar ratio is furnished.Symmetry2016-06-2887Article10.3390/sym8070057572073-89942016-06-28doi: 10.3390/sym8070057Ratbay MyrzakulovLorenzo Sebastiani<![CDATA[Symmetry, Vol. 8, Pages 56: Electrodynamics of a Cosmic Dark Fluid]]>
http://www.mdpi.com/2073-8994/8/7/56
Cosmic Dark Fluid is considered as a non-stationary medium, in which electromagnetic waves propagate, and magneto-electric field structures emerge and evolve. A medium-type representation of the Dark Fluid allows us to involve in its analysis the concepts and mathematical formalism elaborated in the framework of classical covariant electrodynamics of continua, and to distinguish dark analogs of well-known medium-effects, such as optical activity, pyro-electricity, piezo-magnetism, electro- and magneto-striction and dynamo-optical activity. The Dark Fluid is assumed to be formed by a duet of a Dark Matter (a pseudoscalar axionic constituent) and Dark Energy (a scalar element); respectively, we distinguish electrodynamic effects induced by these two constituents of the Dark Fluid. The review contains discussions of 10 models, which describe electrodynamic effects induced by Dark Matter and/or Dark Energy. The models are accompanied by examples of exact solutions to the master equations, correspondingly extended; applications are considered for cosmology and space-times with spherical and pp-wave symmetries. In these applications we focused the attention on three main electromagnetic phenomena induced by the Dark Fluid: first, emergence of Longitudinal Magneto-Electric Clusters; second, generation of anomalous electromagnetic responses; third, formation of Dark Epochs in the Universe history.Symmetry2016-06-2887Article10.3390/sym8070056562073-89942016-06-28doi: 10.3390/sym8070056Alexander Balakin<![CDATA[Symmetry, Vol. 8, Pages 55: Entangled Harmonic Oscillators and Space-Time Entanglement]]>
http://www.mdpi.com/2073-8994/8/7/55
The mathematical basis for the Gaussian entanglement is discussed in detail, as well as its implications in the internal space-time structure of relativistic extended particles. It is shown that the Gaussian entanglement shares the same set of mathematical formulas with the harmonic oscillator in the Lorentz-covariant world. It is thus possible to transfer the concept of entanglement to the Lorentz-covariant picture of the bound state, which requires both space and time separations between two constituent particles. These space and time variables become entangled as the bound state moves with a relativistic speed. It is shown also that our inability to measure the time-separation variable leads to an entanglement entropy together with a rise in the temperature of the bound state. As was noted by Paul A. M. Dirac in 1963, the system of two oscillators contains the symmetries of the O ( 3 , 2 ) de Sitter group containing two O ( 3 , 1 ) Lorentz groups as its subgroups. Dirac noted also that the system contains the symmetry of the S p ( 4 ) group, which serves as the basic language for two-mode squeezed states. Since the S p ( 4 ) symmetry contains both rotations and squeezes, one interesting case is the combination of rotation and squeeze, resulting in a shear. While the current literature is mostly on the entanglement based on squeeze along the normal coordinates, the shear transformation is an interesting future possibility. The mathematical issues on this problem are clarified.Symmetry2016-06-2887Article10.3390/sym8070055552073-89942016-06-28doi: 10.3390/sym8070055Sibel BaşkalYoung KimMarilyn Noz<![CDATA[Symmetry, Vol. 8, Pages 54: Top-N Recommender Systems Using Genetic Algorithm-Based Visual-Clustering Methods]]>
http://www.mdpi.com/2073-8994/8/7/54
The drastic increase of websites is one of the causes behind the recent information overload on the internet. A recommender system (RS) has been developed for helping users filter information. However, the cold-start and sparsity problems lead to low performance of the RS. In this paper, we propose methods including the visual-clustering recommendation (VCR) method, the hybrid between the VCR and user-based methods, and the hybrid between the VCR and item-based methods. The user-item clustering is based on the genetic algorithm (GA). The recommendation performance of the proposed methods was compared with that of traditional methods. The results showed that the GA-based visual clustering could properly cluster user-item binary images. They also demonstrated that the proposed recommendation methods were more efficient than the traditional methods. The proposed VCR2 method yielded an F1 score roughly three times higher than the traditional approaches.Symmetry2016-06-2487Article10.3390/sym8070054542073-89942016-06-24doi: 10.3390/sym8070054Ukrit MarungNipon Theera-UmponSansanee Auephanwiriyakul<![CDATA[Symmetry, Vol. 8, Pages 53: Three New Classes of Solvable N-Body Problems of Goldfish Type with Many Arbitrary Coupling Constants]]>
http://www.mdpi.com/2073-8994/8/7/53
Three new classes of N-body problems of goldfish type are identified, with N an arbitrary positive integer ( N ≥ 2 ). These models are characterized by nonlinear Newtonian (“accelerations equal forces”) equations of motion describing N equal point-particles moving in the complex z-plane. These highly nonlinear equations feature many arbitrary coupling constants, yet they can be solved by algebraic operations. Some of these N-body problems are isochronous, their generic solutions being all completely periodic with an overall period T independent of the initial data (but quite a few of these solutions are actually periodic with smaller periods T / p with p a positive integer); other models are isochronous for an open region of initial data, while the motions for other initial data are not periodic, featuring instead scattering phenomena with some of the particles incoming from, or escaping to, infinity in the remote past or future.Symmetry2016-06-2487Article10.3390/sym8070053532073-89942016-06-24doi: 10.3390/sym8070053Francesco Calogero<![CDATA[Symmetry, Vol. 8, Pages 52: Parity-Time Symmetry and the Toy Models of Gain-Loss Dynamics near the Real Kato’s Exceptional Points]]>
http://www.mdpi.com/2073-8994/8/6/52
For a given operator D ( t ) of an observable in theoretical parity-time symmetric quantum physics (or for its evolution-generator analogues in the experimental gain-loss classical optics, etc.) the instant t c r i t i c a l of a spontaneous breakdown of the parity-time alias gain-loss symmetry should be given, in the rigorous language of mathematics, the Kato’s name of an “exceptional point”, t c r i t i c a l = t ( E P ) . In the majority of conventional applications the exceptional point (EP) values are not real. In our paper, we pay attention to several exactly tractable toy-model evolutions for which at least some of the values of t ( E P ) become real. These values are interpreted as “instants of a catastrophe”, be it classical or quantum. In the classical optical setting the discrete nature of our toy models might make them amenable to simulations. In the latter context the instant of Big Bang is mentioned as an illustrative sample of possible physical meaning of such an EP catastrophe in quantum cosmology.Symmetry2016-06-2086Article10.3390/sym8060052522073-89942016-06-20doi: 10.3390/sym8060052Miloslav Znojil<![CDATA[Symmetry, Vol. 8, Pages 51: On Classification of Symmetry Reductions for the Eikonal Equation]]>
http://www.mdpi.com/2073-8994/8/6/51
We study the relationship between the classification of three-dimensional nonconjugate subalgebras of the Lie algebra of the Poincaré group P ( 1 , 4 ) and the types of symmetry reduction of the eikonal equation to ordinary differential equations (ODEs).Symmetry2016-06-1786Article10.3390/sym8060051512073-89942016-06-17doi: 10.3390/sym8060051Vasyl FedorchukVolodymyr Fedorchuk<![CDATA[Symmetry, Vol. 8, Pages 50: Exact and Numerical Solutions of a Spatially-Distributed Mathematical Model for Fluid and Solute Transport in Peritoneal Dialysis]]>
http://www.mdpi.com/2073-8994/8/6/50
The nonlinear mathematical model for solute and fluid transport induced by the osmotic pressure of glucose and albumin with the dependence of several parameters on the hydrostatic pressure is described. In particular, the fractional space available for macromolecules (albumin was used as a typical example) and fractional fluid void volume were assumed to be different functions of hydrostatic pressure. In order to find non-uniform steady-state solutions analytically, some mathematical restrictions on the model parameters were applied. Exact formulae (involving hypergeometric functions) for the density of fluid flux from blood to tissue and the fluid flux across tissues were constructed. In order to justify the applicability of the analytical results obtained, a wide range of numerical simulations were performed. It was found that the analytical formulae can describe with good approximation the fluid and solute transport (especially the rate of ultrafiltration) for a wide range of values of the model parameters.Symmetry2016-06-1686Article10.3390/sym8060050502073-89942016-06-16doi: 10.3390/sym8060050Roman ChernihaKateryna GozakJacek Waniewski<![CDATA[Symmetry, Vol. 8, Pages 48: Optimal Face-Iris Multimodal Fusion Scheme]]>
http://www.mdpi.com/2073-8994/8/6/48
Multimodal biometric systems are considered a way to minimize the limitations raised by single traits. This paper proposes new schemes based on score level, feature level and decision level fusion to efficiently fuse face and iris modalities. Log-Gabor transformation is applied as the feature extraction method on face and iris modalities. At each level of fusion, different schemes are proposed to improve the recognition performance and, finally, a combination of schemes at different fusion levels constructs an optimized and robust scheme. In this study, CASIA Iris Distance database is used to examine the robustness of all unimodal and multimodal schemes. In addition, Backtracking Search Algorithm (BSA), a novel population-based iterative evolutionary algorithm, is applied to improve the recognition accuracy of schemes by reducing the number of features and selecting the optimized weights for feature level and score level fusion, respectively. Experimental results on verification rates demonstrate a significant improvement of proposed fusion schemes over unimodal and multimodal fusion methods.Symmetry2016-06-1586Article10.3390/sym8060048482073-89942016-06-15doi: 10.3390/sym8060048Omid SharifiMaryam Eskandari<![CDATA[Symmetry, Vol. 8, Pages 49: Neutrino Signals in Electron-Capture Storage-Ring Experiments]]>
http://www.mdpi.com/2073-8994/8/6/49
Neutrino signals in electron-capture decays of hydrogen-like parent ions P in storage-ring experiments at GSI are reconsidered, with special emphasis placed on the storage-ring quasi-circular motion of the daughter ions D in two-body decays P → D + ν e . It is argued that, to the extent that daughter ions are detected, these detection rates might exhibit modulations with periods of order seconds, similar to those reported in the GSI storage-ring experiments for two-body decay rates. New dedicated experiments in storage rings, or using traps, could explore these modulations.Symmetry2016-06-1586Article10.3390/sym8060049492073-89942016-06-15doi: 10.3390/sym8060049Avraham Gal