Entropy

293 KiB

Open AccessArticle

A Geodesic-Based Riemannian Gradient Approach to Averaging on the Lorentz Group

by Jing Wang, Huafei Sun and Didong Li

Entropy 2017, 19(12), 698; https://doi.org/10.3390/e19120698 - 20 Dec 2017

Cited by 1 | Viewed by 4050

In this paper, we propose an efficient algorithm to solve the averaging problem on the Lorentz group

O (n, k)

. Firstly, we introduce the geometric structures of

O (n, k)

endowed with a Riemannian metric where [...] Read more.

In this paper, we propose an efficient algorithm to solve the averaging problem on the Lorentz group

O (n, k)

. Firstly, we introduce the geometric structures of

O (n, k)

endowed with a Riemannian metric where geodesic could be written in closed form. Then, the algorithm is presented based on the Riemannian-steepest-descent approach. Finally, we compare the above algorithm with the Euclidean gradient algorithm and the extended Hamiltonian algorithm. Numerical experiments show that the geodesic-based Riemannian-steepest-descent algorithm performs the best in terms of the convergence rate. Full article

(This article belongs to the Special Issue Entropic Aspects Arising from Geometric Descriptions of Physical Phenomena)

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3283 KiB

Open AccessArticle

Normalised Mutual Information of High-Density Surface Electromyography during Muscle Fatigue

by Adrian Bingham, Sridhar P. Arjunan, Beth Jelfs and Dinesh K. Kumar

Entropy 2017, 19(12), 697; https://doi.org/10.3390/e19120697 - 20 Dec 2017

Cited by 16 | Viewed by 6016

Abstract

This study has developed a technique for identifying the presence of muscle fatigue based on the spatial changes of the normalised mutual information (NMI) between multiple high density surface electromyography (HD-sEMG) channels. Muscle fatigue in the tibialis anterior (TA) during isometric contractions at [...] Read more.

This study has developed a technique for identifying the presence of muscle fatigue based on the spatial changes of the normalised mutual information (NMI) between multiple high density surface electromyography (HD-sEMG) channels. Muscle fatigue in the tibialis anterior (TA) during isometric contractions at 40% and 80% maximum voluntary contraction levels was investigated in ten healthy participants (Age range: 21 to 35 years; Mean age = 26 years; Male = 4, Female = 6). HD-sEMG was used to record 64 channels of sEMG using a 16 by 4 electrode array placed over the TA. The NMI of each electrode with every other electrode was calculated to form an NMI distribution for each electrode. The total NMI for each electrode (the summation of the electrode’s NMI distribution) highlighted regions of high dependence in the electrode array and was observed to increase as the muscle fatigued. To summarise this increase, a function, M(k), was defined and was found to be significantly affected by fatigue and not by contraction force. The technique discussed in this study has overcome issues regarding electrode placement and was used to investigate how the dependences between sEMG signals within the same muscle change spatially during fatigue. Full article

(This article belongs to the Special Issue Information Theory Applied to Physiological Signals)

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1112 KiB

Open AccessArticle

Hypothesis Tests for Bernoulli Experiments: Ordering the Sample Space by Bayes Factors and Using Adaptive Significance Levels for Decisions

by Carlos A. de B. Pereira, Eduardo Y. Nakano, Victor Fossaluza, Luís Gustavo Esteves, Mark A. Gannon and Adriano Polpo

Entropy 2017, 19(12), 696; https://doi.org/10.3390/e19120696 - 20 Dec 2017

Cited by 8 | Viewed by 6320

Abstract

The main objective of this paper is to find the relation between the adaptive significance level presented here and the sample size. We statisticians know of the inconsistency, or paradox, in the current classical tests of significance that are based on p-value [...] Read more.

The main objective of this paper is to find the relation between the adaptive significance level presented here and the sample size. We statisticians know of the inconsistency, or paradox, in the current classical tests of significance that are based on p-value statistics that are compared to the canonical significance levels (10%, 5%, and 1%): “Raise the sample to reject the null hypothesis” is the recommendation of some ill-advised scientists! This paper will show that it is possible to eliminate this problem of significance tests. We present here the beginning of a larger research project. The intention is to extend its use to more complex applications such as survival analysis, reliability tests, and other areas. The main tools used here are the Bayes factor and the extended Neyman–Pearson Lemma. Full article

(This article belongs to the Special Issue Maximum Entropy and Bayesian Methods)

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537 KiB

Open AccessLetter

Molecular Conformational Manifolds between Gas-Liquid Interface and Multiphasic

by Rasoul Nasiri and Kai Hong Luo

Entropy 2017, 19(12), 695; https://doi.org/10.3390/e19120695 - 19 Dec 2017

Viewed by 3499

Abstract

The analysis of conformational changes of hydrocarbon molecules is imperative in the prediction of their transport properties in different phases, such as evaporation/condensation coefficients (β) in the gas-liquid interface and evaporation rates of fuel droplets (k) in multiphases. In [...] Read more.

The analysis of conformational changes of hydrocarbon molecules is imperative in the prediction of their transport properties in different phases, such as evaporation/condensation coefficients (β) in the gas-liquid interface and evaporation rates of fuel droplets (k) in multiphases. In this letter, we analyze the effects of entropic contributions (

T Δ S^{e v} (T)

) to

Δ G^{e v} (T)

during the evaporation/condensation of chain conformers at the interface with a modified version of the solvation model SMD/ωB97X-D/cc-pVTZ in which the temperature dependency of surface tension and the interfacial flow density of the conformers is taken into account. The evaporation/condensation coefficient (β) and evaporation rate (k) are respectively calculated using the statistical associating fluid theory (SAFT) and a combined quantum-classical reaction rate theory named quantum transition state theory-classical kinetic gas theory (QTST-CKGT). The detailed analyses show the importance of internal entropic states over the interfacial layer induced by meso-confinement phenomena in the very vicinity of fuel droplets surfaces. Full article

(This article belongs to the Special Issue Nonequilibrium Thermodynamics of Interfaces)

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Graphical abstract

3617 KiB

Open AccessArticle

Combined Forecasting of Rainfall Based on Fuzzy Clustering and Cross Entropy

by Baohui Men, Rishang Long, Yangsong Li, Huanlong Liu, Wei Tian and Zhijian Wu

Entropy 2017, 19(12), 694; https://doi.org/10.3390/e19120694 - 19 Dec 2017

Cited by 5 | Viewed by 4723

Abstract

Rainfall is an essential index to measure drought, and it is dependent upon various parameters including geographical environment, air temperature and pressure. The nonlinear nature of climatic variables leads to problems such as poor accuracy and instability in traditional forecasting methods. In this [...] Read more.

Rainfall is an essential index to measure drought, and it is dependent upon various parameters including geographical environment, air temperature and pressure. The nonlinear nature of climatic variables leads to problems such as poor accuracy and instability in traditional forecasting methods. In this paper, the combined forecasting method based on data mining technology and cross entropy is proposed to forecast the rainfall with full consideration of the time-effectiveness of historical data. In view of the flaws of the fuzzy clustering method which is easy to fall into local optimal solution and low speed of operation, the ant colony algorithm is adopted to overcome these shortcomings and, as a result, refine the model. The method for determining weights is also improved by using the cross entropy. Besides, the forecast is conducted by analyzing the weighted average rainfall based on Thiessen polygon in the Beijing–Tianjin–Hebei region. Since the predictive errors are calculated, the results show that improved ant colony fuzzy clustering can effectively select historical data and enhance the accuracy of prediction so that the damage caused by extreme weather events like droughts and floods can be greatly lessened and even kept at bay. Full article

(This article belongs to the Special Issue Entropy Applications in Environmental and Water Engineering)

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2157 KiB

Open AccessArticle

Chaos in a Cancer Model via Fractional Derivatives with Exponential Decay and Mittag-Leffler Law

by José Francisco Gómez-Aguilar, María Guadalupe López-López, Victor Manuel Alvarado-Martínez, Dumitru Baleanu and Hasib Khan

Entropy 2017, 19(12), 681; https://doi.org/10.3390/e19120681 - 19 Dec 2017

Cited by 80 | Viewed by 6133

Abstract

In this paper, a three-dimensional cancer model was considered using the Caputo-Fabrizio-Caputo and the new fractional derivative with Mittag-Leffler kernel in Liouville-Caputo sense. Special solutions using an iterative scheme via Laplace transform, Sumudu-Picard integration method and Adams-Moulton rule were obtained. We studied the [...] Read more.

In this paper, a three-dimensional cancer model was considered using the Caputo-Fabrizio-Caputo and the new fractional derivative with Mittag-Leffler kernel in Liouville-Caputo sense. Special solutions using an iterative scheme via Laplace transform, Sumudu-Picard integration method and Adams-Moulton rule were obtained. We studied the uniqueness and existence of the solutions. Novel chaotic attractors with total order less than three are obtained. Full article

(This article belongs to the Special Issue Wavelets, Fractals and Information Theory III)

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627 KiB

Open AccessArticle

Stochastic Thermodynamics: A Dynamical Systems Approach

by Tanmay Rajpurohit and Wassim M. Haddad

Entropy 2017, 19(12), 693; https://doi.org/10.3390/e19120693 - 17 Dec 2017

Cited by 8 | Viewed by 5117

Abstract

In this paper, we develop an energy-based, large-scale dynamical system model driven by Markov diffusion processes to present a unified framework for statistical thermodynamics predicated on a stochastic dynamical systems formalism. Specifically, using a stochastic state space formulation, we develop a nonlinear stochastic [...] Read more.

In this paper, we develop an energy-based, large-scale dynamical system model driven by Markov diffusion processes to present a unified framework for statistical thermodynamics predicated on a stochastic dynamical systems formalism. Specifically, using a stochastic state space formulation, we develop a nonlinear stochastic compartmental dynamical system model characterized by energy conservation laws that is consistent with statistical thermodynamic principles. In particular, we show that the difference between the average supplied system energy and the average stored system energy for our stochastic thermodynamic model is a martingale with respect to the system filtration. In addition, we show that the average stored system energy is equal to the mean energy that can be extracted from the system and the mean energy that can be delivered to the system in order to transfer it from a zero energy level to an arbitrary nonempty subset in the state space over a finite stopping time. Full article

(This article belongs to the Special Issue Entropy and Its Applications across Disciplines)

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1364 KiB

Open AccessArticle

Permutation Entropy: Too Complex a Measure for EEG Time Series?

by Sebastian Berger, Gerhard Schneider, Eberhard F. Kochs and Denis Jordan

Entropy 2017, 19(12), 692; https://doi.org/10.3390/e19120692 - 16 Dec 2017

Cited by 50 | Viewed by 12942

Abstract

Permutation entropy (PeEn) is a complexity measure that originated from dynamical systems theory. Specifically engineered to be robustly applicable to real-world data, the quantity has since been utilised for a multitude of time series analysis tasks. In electroencephalogram (EEG) analysis, value changes of [...] Read more.

Permutation entropy (PeEn) is a complexity measure that originated from dynamical systems theory. Specifically engineered to be robustly applicable to real-world data, the quantity has since been utilised for a multitude of time series analysis tasks. In electroencephalogram (EEG) analysis, value changes of PeEn correlate with clinical observations, among them the onset of epileptic seizures or the loss of consciousness induced by anaesthetic agents. Regarding this field of application, the present work suggests a relation between PeEn-based complexity estimation and spectral methods of EEG analysis: for ordinal patterns of three consecutive samples, the PeEn of an epoch of EEG appears to approximate the centroid of its weighted power spectrum. To substantiate this proposition, a systematic approach based on redundancy reduction is introduced and applied to sleep and epileptic seizure EEG. The interrelation demonstrated may aid the interpretation of PeEn in EEG, and may increase its comparability with other techniques of EEG analysis. Full article

(This article belongs to the Special Issue Permutation Entropy & Its Interdisciplinary Applications)

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476 KiB

Open AccessArticle

Spin Interaction under the Collision of Two Kerr-(Anti-)de Sitter Black Holes

by Bogeun Gwak and Daeho Ro

Entropy 2017, 19(12), 691; https://doi.org/10.3390/e19120691 - 15 Dec 2017

Cited by 7 | Viewed by 3210

Abstract

We investigate herein the spin interaction during collisions between Kerr-(anti-)de Sitter black holes. The spin interaction potential depends on the relative rotation directions of the black holes, and this potential can be released as gravitational radiation upon collision. The energy of the radiation [...] Read more.

We investigate herein the spin interaction during collisions between Kerr-(anti-)de Sitter black holes. The spin interaction potential depends on the relative rotation directions of the black holes, and this potential can be released as gravitational radiation upon collision. The energy of the radiation depends on the cosmological constant and corresponds to the spin interaction potential in the limit that one of the black holes has negligibly small mass and angular momentum. We then determine the approximate overall behaviors of the upper bounds on the radiation using thermodynamics. The results indicate that the spin interaction can consistently contribute to the radiation. In addition, the radiation depends on the stability of the black hole produced by the collision. Full article

(This article belongs to the Section Astrophysics, Cosmology, and Black Holes)

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Open AccessArticle

Non-Equilibrium Thermodynamic Analysis of Double Diffusive, Nanofluid Forced Convection in Catalytic Microreactors with Radiation Effects

by Lilian Govone, Mohsen Torabi, Graeme Hunt and Nader Karimi

Entropy 2017, 19(12), 690; https://doi.org/10.3390/e19120690 - 15 Dec 2017

Cited by 12 | Viewed by 4635

Abstract

This paper presents a theoretical investigation of the second law performance of double diffusive forced convection in microreactors with the inclusion of nanofluid and radiation effects. The investigated microreactors consist of a single microchannel, fully filled by a porous medium. The transport of [...] Read more.

This paper presents a theoretical investigation of the second law performance of double diffusive forced convection in microreactors with the inclusion of nanofluid and radiation effects. The investigated microreactors consist of a single microchannel, fully filled by a porous medium. The transport of heat and mass are analysed by including the thick walls and a first order, catalytic chemical reaction on the internal surfaces of the microchannel. Two sets of thermal boundary conditions are considered on the external surfaces of the microchannel; (1) constant temperature and (2) constant heat flux boundary condition on the lower wall and convective boundary condition on the upper wall. The local thermal non-equilibrium approach is taken to thermally analyse the porous section of the system. The mass dispersion equation is coupled with the transport of heat in the nanofluid flow through consideration of Soret effect. The problem is analytically solved and illustrations of the temperature fields, Nusselt number, total entropy generation rate and performance evaluation criterion (PEC) are provided. It is shown that the radiation effect tends to modify the thermal behaviour within the porous section of the system. The radiation parameter also reduces the overall temperature of the system. It is further demonstrated that, expectedly, the nanoparticles reduce the temperature of the system and increase the Nusselt number. The total entropy generation rate and consequently PEC shows a strong relation with radiation parameter and volumetric concentration of nanoparticles. Full article

(This article belongs to the Special Issue Non-Equilibrium Thermodynamics of Micro Technologies)

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233 KiB

Open AccessArticle

Entropy Analysis for a Nonlinear Fluid with a Nonlinear Heat Flux Vector

by Hyunjin Yang, Mehrdad Massoudi and A. D. Kirwan, Jr.

Entropy 2017, 19(12), 689; https://doi.org/10.3390/e19120689 - 14 Dec 2017

Cited by 2 | Viewed by 3133

Abstract

Flowing media in both industrial and natural processes are often characterized as assemblages of densely packed granular materials. Typically, the constitutive relations for the stress tensor and heat flux vector are fundamentally nonlinear. Moreover, these equations are coupled through the Clausius–Duhem inequality. However, [...] Read more.

Flowing media in both industrial and natural processes are often characterized as assemblages of densely packed granular materials. Typically, the constitutive relations for the stress tensor and heat flux vector are fundamentally nonlinear. Moreover, these equations are coupled through the Clausius–Duhem inequality. However, the consequences of this coupling are rarely studied. Here we address this issue by obtaining constraints imposed by the Clausius–Duhem inequality on the constitutive relations for both the stress tensor and the heat flux vector in which the volume fraction gradient plays an important role. A crucial result of the analysis is the restriction on the dependency of phenomenological coefficients appearing in the constitutive equations on the model objective functions. Full article

(This article belongs to the Section Thermodynamics)

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Open AccessArticle

Entropy and Compression Capture Different Complexity Features: The Case of Fetal Heart Rate

by João Monteiro-Santos, Hernâni Gonçalves, João Bernardes, Luís Antunes, Mohammad Nozari and Cristina Costa-Santos

Entropy 2017, 19(12), 688; https://doi.org/10.3390/e19120688 - 14 Dec 2017

Cited by 9 | Viewed by 4372

Abstract

Entropy and compression have been used to distinguish fetuses at risk of hypoxia from their healthy counterparts through the analysis of Fetal Heart Rate (FHR). Low correlation that was observed between these two approaches suggests that they capture different complexity features. This study [...] Read more.

Entropy and compression have been used to distinguish fetuses at risk of hypoxia from their healthy counterparts through the analysis of Fetal Heart Rate (FHR). Low correlation that was observed between these two approaches suggests that they capture different complexity features. This study aims at characterizing the complexity of FHR features captured by entropy and compression, using as reference international guidelines. Single and multi-scale approaches were considered in the computation of entropy and compression. The following physiologic-based features were considered: FHR baseline; percentage of abnormal long (%abLTV) and short (%abSTV) term variability; average short term variability; and, number of acceleration and decelerations. All of the features were computed on a set of 68 intrapartum FHR tracings, divided as normal, mildly, and moderately-severely acidemic born fetuses. The correlation between entropy/compression features and the physiologic-based features was assessed. There were correlations between compressions and accelerations and decelerations, but neither accelerations nor decelerations were significantly correlated with entropies. The %abSTV was significantly correlated with entropies (ranging between −0.54 and −0.62), and to a higher extent with compression (ranging between −0.80 and −0.94). Distinction between groups was clearer in the lower scales using entropy and in the higher scales using compression. Entropy and compression are complementary complexity measures. Full article

(This article belongs to the Special Issue Information Theory Applied to Physiological Signals)

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333 KiB

Open AccessArticle

Choosing between Higher Moment Maximum Entropy Models and Its Application to Homogeneous Point Processes with Random Effects

by Lotfi Khribi, Brenda MacGibbon and Marc Fredette

Entropy 2017, 19(12), 687; https://doi.org/10.3390/e19120687 - 14 Dec 2017

Viewed by 3755

Abstract

In the Bayesian framework, the usual choice of prior in the prediction of homogeneous Poisson processes with random effects is the gamma one. Here, we propose the use of higher order maximum entropy priors. Their advantage is illustrated in a simulation study and [...] Read more.

In the Bayesian framework, the usual choice of prior in the prediction of homogeneous Poisson processes with random effects is the gamma one. Here, we propose the use of higher order maximum entropy priors. Their advantage is illustrated in a simulation study and the choice of the best order is established by two goodness-of-fit criteria: Kullback–Leibler divergence and a discrepancy measure. This procedure is illustrated on a warranty data set from the automobile industry. Full article

(This article belongs to the Special Issue Maximum Entropy and Bayesian Methods)

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273 KiB

Open AccessArticle

Extremal Matching Energy of Random Polyomino Chains

by Tingzeng Wu, Huazhong Lü and Xuexin Zhang

Entropy 2017, 19(12), 684; https://doi.org/10.3390/e19120684 - 14 Dec 2017

Cited by 4 | Viewed by 3264

Abstract

Polyomino graphs is one of the research objectives in statistical physics and in modeling problems of surface chemistry. A random polyomino chain is a subgraph of a polyomino graph. The matching energy is defined as the sum of the absolute values of the [...] Read more.

Polyomino graphs is one of the research objectives in statistical physics and in modeling problems of surface chemistry. A random polyomino chain is a subgraph of a polyomino graph. The matching energy is defined as the sum of the absolute values of the zeros of the matching polynomial of a graph. In this paper, we characterize the graphs with the extremal matching energy among all random polyomino chains of a polyomino graph by the probability method. Full article

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774 KiB

Open AccessArticle

Do We Really Need to Catch Them All? A New User-Guided Social Media Crawling Method

by Fredrik Erlandsson, Piotr Bródka, Martin Boldt and Henric Johnson

Entropy 2017, 19(12), 686; https://doi.org/10.3390/e19120686 - 13 Dec 2017

Cited by 5 | Viewed by 5702

Abstract

[-15]With the growing use of popular social media services like Facebook and Twitter it is challenging to collect all content from the networks without access to the core infrastructure or paying for it. Thus, if all content cannot be collected one must consider [...] Read more.

[-15]With the growing use of popular social media services like Facebook and Twitter it is challenging to collect all content from the networks without access to the core infrastructure or paying for it. Thus, if all content cannot be collected one must consider which data are of most importance. In this work we present a novel User-guided Social Media Crawling method (USMC) that is able to collect data from social media, utilizing the wisdom of the crowd to decide the order in which user generated content should be collected to cover as many user interactions as possible. USMC is validated by crawling 160 public Facebook pages, containing content from 368 million users including 1.3 billion interactions, and it is compared with two other crawling methods. The results show that it is possible to cover approximately 75% of the interactions on a Facebook page by sampling just 20% of its posts, and at the same time reduce the crawling time by 53%. In addition, the social network constructed from the 20% sample contains more than 75% of the users and edges compared to the social network created from all posts, and it has similar degree distribution. Full article

(This article belongs to the Special Issue Entropy and Complexity of Data)

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2088 KiB

Open AccessArticle

Testing the Beta-Lognormal Model in Amazonian Rainfall Fields Using the Generalized Space q-Entropy

by Hernán D. Salas, Germán Poveda and Oscar J. Mesa

Entropy 2017, 19(12), 685; https://doi.org/10.3390/e19120685 - 13 Dec 2017

Cited by 4 | Viewed by 4571

Abstract

We study spatial scaling and complexity properties of Amazonian radar rainfall fields using the Beta-Lognormal Model (BL-Model) with the aim to characterize and model the process at a broad range of spatial scales. The Generalized Space q-Entropy Function (GSEF), an entropic measure [...] Read more.

We study spatial scaling and complexity properties of Amazonian radar rainfall fields using the Beta-Lognormal Model (BL-Model) with the aim to characterize and model the process at a broad range of spatial scales. The Generalized Space q-Entropy Function (GSEF), an entropic measure defined as a continuous set of power laws covering a broad range of spatial scales,

S_{q} (λ) \sim λ^{Ω (q)}

, is used as a tool to check the ability of the BL-Model to represent observed 2-D radar rainfall fields. In addition, we evaluate the effect of the amount of zeros, the variability of rainfall intensity, the number of bins used to estimate the probability mass function, and the record length on the GSFE estimation. Our results show that: (i) the BL-Model adequately represents the scaling properties of the q-entropy,

S_{q}

, for Amazonian rainfall fields across a range of spatial scales

λ

from 2 km to 64 km; (ii) the q-entropy in rainfall fields can be characterized by a non-additivity value,

q_{s a t}

, at which rainfall reaches a maximum scaling exponent,

Ω_{s a t}

; (iii) the maximum scaling exponent

Ω_{s a t}

is directly related to the amount of zeros in rainfall fields and is not sensitive to either the number of bins to estimate the probability mass function or the variability of rainfall intensity; and (iv) for small-samples, the GSEF of rainfall fields may incur in considerable bias. Finally, for synthetic 2-D rainfall fields from the BL-Model, we look for a connection between intermittency using a metric based on generalized Hurst exponents,

M (q_{1}, q_{2})

, and the non-extensive order (q-order) of a system,

Θ_{q}

, which relates to the GSEF. Our results do not exhibit evidence of such relationship. Full article

(This article belongs to the Special Issue Entropy Applications in Environmental and Water Engineering)

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4404 KiB

Open AccessArticle

Entropy Conditions Involved in the Nonlinear Coupled Constitutive Method for Solving Continuum and Rarefied Gas Flows

by Ke Tang and Hong Xiao

Entropy 2017, 19(12), 683; https://doi.org/10.3390/e19120683 - 12 Dec 2017

Cited by 4 | Viewed by 3985

Abstract

The numerical study of continuum-rarefied gas flows is of considerable interest because it can provide fundamental knowledge regarding flow physics. Recently, the nonlinear coupled constitutive method (NCCM) has been derived from the Boltzmann equation and implemented to investigate continuum-rarefied gas flows. In this [...] Read more.

The numerical study of continuum-rarefied gas flows is of considerable interest because it can provide fundamental knowledge regarding flow physics. Recently, the nonlinear coupled constitutive method (NCCM) has been derived from the Boltzmann equation and implemented to investigate continuum-rarefied gas flows. In this study, we first report the important and detailed issues in the use of the H theorem and positive entropy generation in the NCCM. Importantly, the unified nonlinear dissipation model and its relationships to the Rayleigh–Onsager function were demonstrated in the treatment of the collision term of the Boltzmann equation. In addition, we compare the Grad moment method, the Burnett equation, and the NCCM. Next, differences between the NCCM equations and the Navier–Stokes equations are explained in detail. For validation, numerical studies of rarefied and continuum gas flows were conducted. These studies include rarefied and/or continuum gas flows around a two-dimensional (2D) cavity, a 2D airfoil, a 2D cylinder, and a three-dimensional space shuttle. It was observed that the present results of the NCCM are in good agreement with those of the Direct Simulation Monte Carlo (DSMC) method in rarefied cases and are in good agreement with those of the Navier–Stokes equations in continuum cases. Finally, this study can be regarded as a theoretical basis of the NCCM for the development of a unified framework for solving continuum-rarefied gas flows. Full article

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Open AccessArticle

Channel Capacity of Coding System on Tsallis Entropy and q-Statistics

by Tatsuaki Tsuruyama

Entropy 2017, 19(12), 682; https://doi.org/10.3390/e19120682 - 12 Dec 2017

Cited by 4 | Viewed by 3828

Abstract

The field of information science has greatly developed, and applications in various fields have emerged. In this paper, we evaluated the coding system in the theory of Tsallis entropy for transmission of messages and aimed to formulate the channel capacity by maximization of [...] Read more.

The field of information science has greatly developed, and applications in various fields have emerged. In this paper, we evaluated the coding system in the theory of Tsallis entropy for transmission of messages and aimed to formulate the channel capacity by maximization of the Tsallis entropy within a given condition of code length. As a result, we obtained a simple relational expression between code length and code appearance probability and, additionally, a generalized formula of the channel capacity on the basis of Tsallis entropy statistics. This theoretical framework may contribute to data processing techniques and other applications. Full article

(This article belongs to the Section Information Theory, Probability and Statistics)

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Open AccessArticle

Altered Brain Complexity in Women with Primary Dysmenorrhea: A Resting-State Magneto-Encephalography Study Using Multiscale Entropy Analysis

by Intan Low, Po-Chih Kuo, Yu-Hsiang Liu, Cheng-Lin Tsai, Hsiang-Tai Chao, Jen-Chuen Hsieh, Li-Fen Chen and Yong-Sheng Chen

Entropy 2017, 19(12), 680; https://doi.org/10.3390/e19120680 - 11 Dec 2017

Cited by 11 | Viewed by 6261

Abstract

How chronic pain affects brain functions remains unclear. As a potential indicator, brain complexity estimated by entropy-based methods may be helpful for revealing the underlying neurophysiological mechanism of chronic pain. In this study, complexity features with multiple time scales and spectral features were [...] Read more.

How chronic pain affects brain functions remains unclear. As a potential indicator, brain complexity estimated by entropy-based methods may be helpful for revealing the underlying neurophysiological mechanism of chronic pain. In this study, complexity features with multiple time scales and spectral features were extracted from resting-state magnetoencephalographic signals of 156 female participants with/without primary dysmenorrhea (PDM) during pain-free state. Revealed by multiscale sample entropy (MSE), PDM patients (PDMs) exhibited loss of brain complexity in regions associated with sensory, affective, and evaluative components of pain, including sensorimotor, limbic, and salience networks. Significant correlations between MSE values and psychological states (depression and anxiety) were found in PDMs, which may indicate specific nonlinear disturbances in limbic and default mode network circuits after long-term menstrual pain. These findings suggest that MSE is an important measure of brain complexity and is potentially applicable to future diagnosis of chronic pain. Full article

(This article belongs to the Special Issue Information Theory Applied to Physiological Signals)

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Open AccessEditorial

Second-Law Analysis: A Powerful Tool for Analyzing Computational Fluid Dynamics (CFD) Results

by Yan Jin

Entropy 2017, 19(12), 679; https://doi.org/10.3390/e19120679 - 11 Dec 2017

Cited by 6 | Viewed by 3917

Abstract

Second-law analysis (SLA) is an important concept in thermodynamics, which basically assesses energy by its value in terms of its convertibility from one form to another.[...] Full article

(This article belongs to the Special Issue Entropy in Computational Fluid Dynamics)

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Open AccessArticle

Information Landscape and Flux, Mutual Information Rate Decomposition and Connections to Entropy Production

by Qian Zeng and Jin Wang

Entropy 2017, 19(12), 678; https://doi.org/10.3390/e19120678 - 11 Dec 2017

Cited by 12 | Viewed by 4155

Abstract

We explored the dynamics of two interacting information systems. We show that for the Markovian marginal systems, the driving force for information dynamics is determined by both the information landscape and information flux. While the information landscape can be used to construct the [...] Read more.

We explored the dynamics of two interacting information systems. We show that for the Markovian marginal systems, the driving force for information dynamics is determined by both the information landscape and information flux. While the information landscape can be used to construct the driving force to describe the equilibrium time-reversible information system dynamics, the information flux can be used to describe the nonequilibrium time-irreversible behaviors of the information system dynamics. The information flux explicitly breaks the detailed balance and is a direct measure of the degree of the nonequilibrium or time-irreversibility. We further demonstrate that the mutual information rate between the two subsystems can be decomposed into the equilibrium time-reversible and nonequilibrium time-irreversible parts, respectively. This decomposition of the Mutual Information Rate (MIR) corresponds to the information landscape-flux decomposition explicitly when the two subsystems behave as Markov chains. Finally, we uncover the intimate relationship between the nonequilibrium thermodynamics in terms of the entropy production rates and the time-irreversible part of the mutual information rate. We found that this relationship and MIR decomposition still hold for the more general stationary and ergodic cases. We demonstrate the above features with two examples of the bivariate Markov chains. Full article

(This article belongs to the Special Issue Thermodynamics and Statistical Mechanics of Small Systems)

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Open AccessArticle

Automated Detection of Paroxysmal Atrial Fibrillation Using an Information-Based Similarity Approach

by Xingran Cui, Emily Chang, Wen-Hung Yang, Bernard C. Jiang, Albert C. Yang and Chung-Kang Peng

Entropy 2017, 19(12), 677; https://doi.org/10.3390/e19120677 - 10 Dec 2017

Cited by 27 | Viewed by 5858

Abstract

Atrial fibrillation (AF) is an abnormal rhythm of the heart, which can increase heart-related complications. Paroxysmal AF episodes occur intermittently with varying duration. Human-based diagnosis of paroxysmal AF with a longer-term electrocardiogram recording is time-consuming. Here we present a fully automated ensemble model [...] Read more.

Atrial fibrillation (AF) is an abnormal rhythm of the heart, which can increase heart-related complications. Paroxysmal AF episodes occur intermittently with varying duration. Human-based diagnosis of paroxysmal AF with a longer-term electrocardiogram recording is time-consuming. Here we present a fully automated ensemble model for AF episode detection based on RR-interval time series, applying a novel approach of information-based similarity analysis and ensemble scheme. By mapping RR-interval time series to binary symbolic sequences and comparing the rank-frequency patterns of m-bit words, the dissimilarity between AF and normal sinus rhythms (NSR) were quantified. To achieve high detection specificity and sensitivity, and low variance, a weighted variation of bagging with multiple AF and NSR templates was applied. By performing dissimilarity comparisons between unknown RR-interval time series and multiple templates, paroxysmal AF episodes were detected. Based on our results, optimal AF detection parameters are symbolic word length m = 9 and observation window n = 150, achieving 97.04% sensitivity, 97.96% specificity, and 97.78% overall accuracy. Sensitivity, specificity, and overall accuracy vary little despite changes in m and n parameters. This study provides quantitative information to enhance the categorization of AF and normal cardiac rhythms. Full article

(This article belongs to the Special Issue Information Theory Applied to Physiological Signals)

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Open AccessArticle

Maximum Exergetic Efficiency Operation of a Solar Powered H₂O-LiBr Absorption Cooling System

by Camelia Stanciu, Dorin Stanciu, Adina-Teodora Gheorghian, Elena-Beatrice Tănase, Cătălina Dobre and Marius Spiroiu

Entropy 2017, 19(12), 676; https://doi.org/10.3390/e19120676 - 9 Dec 2017

Cited by 4 | Viewed by 4056

Abstract

A solar driven cooling system consisting of a single effect H₂O-LiBr absorbtion cooling module (ACS), a parabolic trough collector (PTC), and a storage tank (ST) module is analyzed during one full day operation. The pressurized water is used to transfer heat [...] Read more.

A solar driven cooling system consisting of a single effect H₂O-LiBr absorbtion cooling module (ACS), a parabolic trough collector (PTC), and a storage tank (ST) module is analyzed during one full day operation. The pressurized water is used to transfer heat from PTC to ST and to feed the ACS desorber. The system is constrained to operate at the maximum ACS exergetic efficiency, under a time dependent cooling load computed on 15 July for a one storey house located near Bucharest, Romania. To set up the solar assembly, two commercial PTCs were selected, namely PT1-IST and PTC 1800 Solitem, and a single unit ST was initially considered. The mathematical model, relying on the energy balance equations, was coded under Engineering Equation Solver (EES) environment. The solar data were obtained from the Meteonorm database. The numerical simulations proved that the system cannot cover the imposed cooling load all day long, due to the large variation of water temperature inside the ST. By splitting the ST into two units, the results revealed that the PT1-IST collector only drives the ACS between 9 am and 4:30 pm, while the PTC 1800 one covers the entire cooling period (9 am–6 pm) for optimum ST capacities of 90 kg/90 kg and 90 kg/140 kg, respectively. Full article

(This article belongs to the Section Thermodynamics)

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Open AccessArticle

A General Symbolic Approach to Kolmogorov-Sinai Entropy

by Inga Stolz and Karsten Keller

Entropy 2017, 19(12), 675; https://doi.org/10.3390/e19120675 - 9 Dec 2017

Cited by 15 | Viewed by 5713

Abstract

It is popular to study a time-dependent nonlinear system by encoding outcomes of measurements into sequences of symbols following certain symbolization schemes. Mostly, symbolizations by threshold crossings or variants of it are applied, but also, the relatively new symbolic approach, which goes back [...] Read more.

It is popular to study a time-dependent nonlinear system by encoding outcomes of measurements into sequences of symbols following certain symbolization schemes. Mostly, symbolizations by threshold crossings or variants of it are applied, but also, the relatively new symbolic approach, which goes back to innovative works of Bandt and Pompe—ordinal symbolic dynamics—plays an increasing role. In this paper, we discuss both approaches novelly in one breath with respect to the theoretical determination of the Kolmogorov-Sinai entropy (KS entropy). For this purpose, we propose and investigate a unifying approach to formalize symbolizations. By doing so, we can emphasize the main advantage of the ordinal approach if no symbolization scheme can be found that characterizes KS entropy directly: the ordinal approach, as well as generalizations of it provide, under very natural conditions, a direct route to KS entropy by default. Full article

(This article belongs to the Special Issue Symbolic Entropy Analysis and Its Applications)

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Open AccessArticle

On the Statistical Mechanics of Alien Species Distribution

by Michael G. Bowler and Colleen K. Kelly

Entropy 2017, 19(12), 674; https://doi.org/10.3390/e19120674 - 9 Dec 2017

Cited by 2 | Viewed by 4124

Abstract

Many species of plants are found in regions to which they are alien. Their global distributions are characterised by a family of exponential functions of the kind that arise in elementary statistical mechanics (an example in ecology is MacArthur’s broken stick). We show [...] Read more.

Many species of plants are found in regions to which they are alien. Their global distributions are characterised by a family of exponential functions of the kind that arise in elementary statistical mechanics (an example in ecology is MacArthur’s broken stick). We show here that all these functions are quantitatively reproduced by a model containing a single parameter—some global resource partitioned at random on the two axes of species number and site number. A dynamical model generating this equilibrium is a two-fold stochastic process and suggests a curious and interesting biological interpretation in terms of niche structures fluctuating with time and productivity, with sites and species highly idiosyncratic. Idiosyncrasy implies that attempts to identify a priori those species likely to become naturalised are unlikely to be successful. Although this paper is primarily concerned with a particular problem in population biology, the two-fold stochastic process may be of more general interest. Full article

(This article belongs to the Special Issue Applications of Information Theory in the Geosciences II)

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Open AccessArticle

Characterisation of the Effects of Sleep Deprivation on the Electroencephalogram Using Permutation Lempel–Ziv Complexity, a Non-Linear Analysis Tool

by Pinar Deniz Tosun, Daniel Abásolo, Gillian Stenson and Raphaelle Winsky-Sommerer

Entropy 2017, 19(12), 673; https://doi.org/10.3390/e19120673 - 8 Dec 2017

Cited by 13 | Viewed by 6149

Abstract

Specific patterns of brain activity during sleep and waking are recorded in the electroencephalogram (EEG). Time-frequency analysis methods have been widely used to analyse the EEG and identified characteristic oscillations for each vigilance state (VS), i.e., wakefulness, rapid-eye movement (REM) and non-rapid-eye movement [...] Read more.

Specific patterns of brain activity during sleep and waking are recorded in the electroencephalogram (EEG). Time-frequency analysis methods have been widely used to analyse the EEG and identified characteristic oscillations for each vigilance state (VS), i.e., wakefulness, rapid-eye movement (REM) and non-rapid-eye movement (NREM) sleep. However, other aspects such as change of patterns associated with brain dynamics may not be captured unless a non-linear-based analysis method is used. In this pilot study, Permutation Lempel–Ziv complexity (PLZC), a novel symbolic dynamics analysis method, was used to characterise the changes in the EEG in sleep and wakefulness during baseline and recovery from sleep deprivation (SD). The results obtained with PLZC were contrasted with a related non-linear method, Lempel–Ziv complexity (LZC). Both measure the emergence of new patterns. However, LZC is dependent on the absolute amplitude of the EEG, while PLZC is only dependent on the relative amplitude due to symbolisation procedure and thus, more resistant to noise. We showed that PLZC discriminates activated brain states associated with wakefulness and REM sleep, which both displayed higher complexity, compared to NREM sleep. Additionally, significantly lower PLZC values were measured in NREM sleep during the recovery period following SD compared to baseline, suggesting a reduced emergence of new activity patterns in the EEG. These findings were validated using PLZC on surrogate data. By contrast, LZC was merely reflecting changes in the spectral composition of the EEG. Overall, this study implies that PLZC is a robust non-linear complexity measure, which is not dependent on amplitude variations in the signal, and which may be useful to further assess EEG alterations induced by environmental or pharmacological manipulations. Full article

(This article belongs to the Special Issue Symbolic Entropy Analysis and Its Applications)

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Open AccessArticle

Association between Multiscale Entropy Characteristics of Heart Rate Variability and Ischemic Stroke Risk in Patients with Permanent Atrial Fibrillation

by Ryo Matsuoka, Kohzoh Yoshino, Eiichi Watanabe and Ken Kiyono

Entropy 2017, 19(12), 672; https://doi.org/10.3390/e19120672 - 7 Dec 2017

Cited by 2 | Viewed by 4775

Abstract

Multiscale entropy (MSE) profiles of heart rate variability (HRV) in patients with atrial fibrillation (AFib) provides clinically useful information for ischemic stroke risk assessment, suggesting that the complex properties characterized by MSE profiles are associated with ischemic stroke risk. However, the meaning of [...] Read more.

Multiscale entropy (MSE) profiles of heart rate variability (HRV) in patients with atrial fibrillation (AFib) provides clinically useful information for ischemic stroke risk assessment, suggesting that the complex properties characterized by MSE profiles are associated with ischemic stroke risk. However, the meaning of HRV complexity in patients with AFib has not been clearly interpreted, and the physical and mathematical understanding of the relation between HRV dynamics and the ischemic stroke risk is not well established. To gain a deeper insight into HRV dynamics in patients with AFib, and to improve ischemic stroke risk assessment using HRV analysis, we study the HRV characteristics related to MSE profiles, such as the long-range correlation and probability density function. In this study, we analyze the HRV time series of 173 patients with permanent AFib. Our results show that, although HRV time series in patients with AFib exhibit long-range correlation (1/f fluctuations)—as observed in healthy subjects—in a range longer than 90 s, these autocorrelation properties have no significant predictive power for ischemic stroke occurrence. Further, the probability density function structure of the coarse-grained times series at scales greater than 2 s is dominantly associated with ischemic stroke risk. This observation could provide valuable information for improving ischemic stroke risk assessment using HRV analysis. Full article

(This article belongs to the Special Issue Information Theory Applied to Physiological Signals)

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407 KiB

Open AccessArticle

Inspecting Non-Perturbative Contributions to the Entanglement Entropy via Wavefunctions

by Arpan Bhattacharyya, Ling-Yan Hung, Pak Hang Chris Lau and Si-Nong Liu

Entropy 2017, 19(12), 671; https://doi.org/10.3390/e19120671 - 7 Dec 2017

Cited by 4 | Viewed by 3378

Abstract

In this paper, we would like to systematically explore the implications of non-perturbative effects on entanglement in a many body system. Instead of pursuing the usual path-integral method in a singular space, we attempt to study the wavefunctions in detail. We begin with [...] Read more.

In this paper, we would like to systematically explore the implications of non-perturbative effects on entanglement in a many body system. Instead of pursuing the usual path-integral method in a singular space, we attempt to study the wavefunctions in detail. We begin with a toy model of multiple particles whose interaction potential admits multiple minima. We study the entanglement of the true ground state after taking the tunneling effects into account and find some simple patterns. Notably, in the case of multiple particle interactions, entanglement entropy generically decreases with increasing number of minima. The knowledge of the subsystem actually increases with the number of minima. The reduced density matrix can also be seen to have close connections with graph spectra. In a more careful study of the two-well tunneling system, we also extract the exponentially-suppressed tail contribution, the analogue of instantons. To understand the effects of multiple minima in a field theory, we are inspired to inspect wavefunctions in a toy model of a bosonic field describing quasi-particles of two different condensates related by Bogoliubov transformations. We find that the area law is naturally preserved. This is probably a useful set of perspectives that promise wider applications. Full article

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Oscillations in Multiparticle Production Processes

by Grzegorz Wilk and Zbigniew Włodarczyk

Entropy 2017, 19(12), 670; https://doi.org/10.3390/e19120670 - 6 Dec 2017

Cited by 5 | Viewed by 3759

Abstract

We discuss two examples of oscillations apparently hidden in some experimental results for high-energy multiparticle production processes: (i) the log-periodic oscillatory pattern decorating the power-like Tsallis distributions of transverse momenta; (ii) the oscillations of the modified combinants obtained from the measured multiplicity distributions. [...] Read more.

We discuss two examples of oscillations apparently hidden in some experimental results for high-energy multiparticle production processes: (i) the log-periodic oscillatory pattern decorating the power-like Tsallis distributions of transverse momenta; (ii) the oscillations of the modified combinants obtained from the measured multiplicity distributions. Our calculations are confronted with

p p

data from the Large Hadron Collider (LHC). We show that in both cases, these phenomena can provide new insight into the dynamics of these processes. Full article

(This article belongs to the Special Issue New Trends in Statistical Physics of Complex Systems)

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Formation of Photo-Responsive Liquid Crystalline Emulsion by Using Microfluidics Device

by Yoshiharu Dogishi, Shun Endo, Woon Yong Sohn and Kenji Katayama

Entropy 2017, 19(12), 669; https://doi.org/10.3390/e19120669 - 6 Dec 2017

Cited by 10 | Viewed by 5171

Abstract

Photo-responsive double emulsions made of liquid crystal (LC) were prepared by a microfluidic device, and the light-induced processes were studied. The phase transition was induced from the center of the topological defect for an emulsion made of (N-(4-methoxybenzylidene)-4-butylaniline (MBBA), and strange [...] Read more.

Photo-responsive double emulsions made of liquid crystal (LC) were prepared by a microfluidic device, and the light-induced processes were studied. The phase transition was induced from the center of the topological defect for an emulsion made of (N-(4-methoxybenzylidene)-4-butylaniline (MBBA), and strange texture change was observed for an emulsion made of 4-cyano-4′-pentylbiphenyl (5CB) doped with azobenzene. The results suggest that there are defect-involved processes in the phase change of LC double emulsions. Full article

(This article belongs to the Special Issue Nonequilibrium Thermodynamics of Interfaces)

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Entropy, Volume 19, Issue 12 (December 2017) – 67 articles

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