37 results on '"Complex number"'
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2. FIXED POINTS IN BICOMPLEX VALUED S-METRIC SPACES WITH APPLICATIONS.
- Author
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Siva, G.
- Subjects
- *
LINEAR equations , *CONTRACTIONS (Topology) , *EXISTENCE theorems , *LINEAR systems , *COMPLEX numbers - Abstract
This article introduces the idea of bicomplex valued S-metric space and deduces some of its features. Additionally, for bicomplex valued S-metric spaces, some fixed point results of contraction maps are shown to meet various categories of rational inequalities. Moreover, these results generalize certain significant, well-known results. An example is provided to highlight our major result. Furthermore, a theorem guaranteeing the existence of the one and only solution to the linear system of equations was developed using our main result. [ABSTRACT FROM AUTHOR]
- Published
- 2023
3. Robustness of convergence demonstrated byparametric-guiding andcomplex-root-tunneling algorithms for Bratu's problem.
- Author
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Liu, Zhi, Shih, Tienmo, and Chen, Zhong
- Subjects
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BOUNDARY value problems , *FLUID flow , *ALGORITHMS , *TUNNEL design & construction , *COMPLEX numbers - Abstract
Purpose: This study aims to propose the parametric-guiding algorithm, the complex-root (CR) tunneling algorithm and the method that integrates both algorithms for the heat and fluid flow (HFF) community, and apply them to nonlinear Bratu's boundary-value problem (BVP) and Blasius BVP. Design/methodology/approach: In the first algorithm, iterations are primarily guided by a diminishing parameter that is introduced to reduce magnitudes of fictitious source terms. In the second algorithm, when iteration-related barriers are encountered, CRs are generated to tunnel through the barrier. At the exit of the tunnel, imaginary parts of CRs are trimmed. Findings: In terms of the robustness of convergence, the proposed method outperforms the traditional Newton–Raphson (NR) method. For most pulsed initial guesses that resemble pulsed initial conditions for the transient Bratu BVP, the proposed method has not failed to converge. Originality/value: To the best of the authors' knowledge, the parametric-guiding algorithm, the CR tunneling algorithm and the method that integrates both have not been reported in the computational-HFF-related literature. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
4. A Study on Dual-Generalized Complex and Hyperbolic-Generalized Complex Numbers.
- Author
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GURSES, Nurten, SENTURK, Gulsum Yeliz, and YUCE, Salim
- Subjects
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ALGEBRAIC numbers , *COMPLEX numbers - Abstract
This work is intended to introduce the theories of dual-generalized complex and hyperbolicgeneralized complex numbers. The algebraic properties of these numbers are taken into consideration. Besides, dual-generalized complex and hyperbolic-generalized complex valued functions are defined and different matrix representations of these numbers are examined. Moreover, a remarkable classification are given for special cases and the set of complexgeneralized complex numbers are mentioned. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
5. Low-Complexity High-Precision Method and Architecture for Computing the Logarithm of Complex Numbers.
- Author
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Chen, Hui, Yu, Zongguang, Zhang, Yonggang, Lu, Zhonghai, Fu, Yuxiang, and Li, Li
- Subjects
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COMPLEX numbers , *LOGARITHMS , *SYNTHETIC aperture radar , *SIMULATION software - Abstract
This paper proposes a low-complexity method and architecture to compute the logarithm of complex numbers based on coordinate rotation digital computer (CORDIC). Our method takes advantage of the vector mode of circular CORDIC and hyperbolic CORDIC, which only needs shift-add operations in its hardware implementation. Our architecture has lower design complexity and higher performance compared with conventional architectures. Through software simulation, we show that this method can achieve high precision for logarithm computation, reaching the relative error of 10−7. Finally, we design and implement an example circuit under TSMC 28nm CMOS technology. According to the synthesis report, our architecture has smaller area, lower power consumption, higher precision and wider operation range compared with the alternative architectures. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
6. A Novel Transformation Method for Solving Complex Interval Matrix.
- Author
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Babakordi, F.
- Subjects
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COMPLEX matrices , *COMPLEX numbers , *SUBTRACTION (Mathematics) - Abstract
Since complex interval matrix have many applications in different fields of science, in this paper interval complex matrix system as [W][Z] = [K] in which [W]; [K] are n × n known interval complex matrices and [Z] is n × n unknown interval complex matrix is studied. Using operations on interval complex numbers and matrices and defining a theorem, two auxiliary addition and subtraction complex systems are introduced and proved. Then, using the equality property of two complex numbers, the auxiliary interval complex systems are transformed to real crisp systems. Then the new system is solved and [Z] is achieved. Finally, some numerical examples are given to illustrate the applicability and ability of the proposed approach. [ABSTRACT FROM AUTHOR]
- Published
- 2020
7. One Approach for Solving Trigonometric Equations Using Complex in the Mathematical Education.
- Author
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Andreev, Ivo, Georgiev, Ivan, and Varbanova, Margarita
- Subjects
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COMPLEX numbers , *EQUATIONS , *SCHOOL children , *MATHEMATICS , *MATHEMATICAL complex analysis - Abstract
The goal of this development is introducing a reader the solution of one class comprising trigonometric equations in the Teaching Course of Mathematics by using trigonometric form of the complex numbers. An exemplary approach to solving these equations, suitable for students from 11th to 12th grade, as well as for pupils participating in mathematical camps, olympiads, mathematical competitions, computer mathematics olympiads is considered. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
8. Hypercomplex Widely Linear Estimation Through the Lens of Underpinning Geometry.
- Author
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Nitta, Tohru, Kobayashi, Masaki, and Mandic, Danilo P.
- Subjects
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QUATERNIONS , *COMPLEX numbers , *GEOMETRY , *COMPLEX variables , *COMPUTATIONAL complexity , *DEGREES of freedom , *MATHEMATICAL complexes , *DIVISION algebras - Abstract
We provide a rigorous account of the equivalence between the complex-valued widely linear estimation method and the quaternion involution widely linear estimation method with their vector-valued real linear estimation counterparts. This is achieved by an account of degrees of freedom and by providing matrix mappings between a complex variable and an isomorphic bivariate real vector, and a quaternion variable versus a quadri-variate real vector. Furthermore, we show that the parameters in the complex-valued linear estimation method, the complex-valued widely linear estimation method, the quaternion linear estimation method, the quaternion semi-widely linear estimation method, and the quaternion involution widely linear estimation method include distinct geometric structures imposed on complex numbers and quaternions, respectively, whereas the real-valued linear estimation methods do not exhibit any structure. This key difference explains, both in theoretical and practical terms, the advantage of estimation in division algebras (complex, quaternion) over their multivariate real vector counterparts. In addition, we discuss the computational complexities of the estimators of the hypercomplex widely linear estimation methods. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
9. Novel elegant fuzzy genetic algorithms in classification problems.
- Author
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Venkatanareshbabu, K., Nisheel, S., Sakthivel, R., and Muralitharan, K.
- Subjects
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FUZZY algorithms , *CLASSIFICATION algorithms , *GENETIC algorithms , *DATA structures , *FUZZY logic , *PARETO principle - Abstract
In this paper, we propose three novel algorithms such as Novel genetic algorithm complex-valued backpropagation neural network (GA-CVBNN), Novel elegant fuzzy genetic algorithm (EFGA) and elegant fuzzy genetic algorithm-based complex-valued backpropagation neural network (EFGA-CVBNN) for classification of accuracy in datasets. In GA-CVBNN, classical Genetic Algorithm has been used for selecting appropriate initial weights for CVBNN. The EFGA is developed to resolve the drawback of classical GA by employing fuzzy logic to control parameters and selective pressure of GA. The EFGA uses a Min-Heap data structure and Pareto principle to improve the classical genetic algorithm. The EFGA-CVBNN resolves the drawbacks of classical CVBNN by employing EFGA at the time of initial weight selection. From the simulation result, the GA-CVBNN performs better than existing CVBNN and it is not efficient. To enhance the performance of GA-CVBNN, we have developed EFGA-CVBNN. Experimental results on various synthetic datasets and benchmark datasets taken from UCI machine learning repository shows that EFGA-CVBNN outperforms PSO-CVBNN in terms of classification accuracy and time. Statistical t test has been used to validate the obtained results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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10. Why the power of diversity does not always produce better groups and societies.
- Author
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Takefuji, Yoshiyasu
- Subjects
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SWARM intelligence , *PREDICTION theory , *COMPLEX numbers , *REAL numbers , *ARTIFICIAL intelligence , *RANDOM forest algorithms - Abstract
Diversity is supposed to create better groups and societies but sometimes fails. It is explained why the power of diversity may not create better groups in the current diversity prediction theory. Diversity may hurt civic life and introduce distrust. This is because the current diversity prediction theory is based on real numbers that ignore individual abilities. Its diversity prediction theory maximizes performance with infinite population size. Contrary to this, collective intelligence or swarm intelligence is not maximized by infinite population size, but by population size. The extended diversity prediction theory using the complex number allows us to express individual abilities or qualities. The diversity of complex numbers always produces better groups and societies. The wisdom of crowds, collective intelligence, swarm intelligence or nature-inspired intelligence is implemented in the current machine learning or artificial intelligence, called Random Forest. The problem of the current diversity prediction theory is detailed in this paper. • Diversity is supposed to create better groups and societies but sometimes fails. • Diversity in real numbers ignores individual abilities. • Diversity of population size plays a key role in collective intelligence. • Diversity in complex numbers allows us to express individual abilities. • Diversity in complex numbers always produces better groups and societies. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
11. On the Fundamental Theorem of Algebra and Its Equivalence to the Frobenius Theorem on Division Algebras.
- Author
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Jabbarov, I. Sh. and Hasanova, G. K.
- Subjects
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FUNDAMENTAL theorem of algebra , *MATHEMATICAL equivalence , *DIVISION algebras - Abstract
In this article we give a new proof of the Fundamental Theorem of Algebra. Our proof is algebraic. We simplify the known proof of the Fundamental Theorem considering special case of polynomials of odd degree with real coeffcients. This case allows us to apply the method of mathematical induction to get the proof in general case without using infiniteness of the field. [ABSTRACT FROM AUTHOR]
- Published
- 2019
12. Resolution of singularities via deep complex‐valued neural networks.
- Author
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Nitta, Tohru
- Subjects
- *
MATHEMATICAL singularities , *ARTIFICIAL neural networks , *MACHINE learning , *CRITICAL point (Thermodynamics) , *ERROR functions - Abstract
It has been reported that training deep neural networks is more difficult than training shallow neural networks. Hinton et al. proposed deep belief networks with a learning algorithm that trains one layer at a time. A much better generalization can be achieved when pre‐training each layer with an unsupervised learning algorithm. Since then, deep neural networks have been extensively studied. On the other hand, it has been revealed that singular points affect the training dynamics of the learning models such as neural networks and cause a standstill of training. Naturally, training deep neural networks suffer singular points. As described in this paper, we present a deep neural network model that has fewer singular points than the usual one. First, we demonstrate that some singular points in the deep real‐valued neural network, which is equivalent to a deep complex‐valued neural network, have been resolved as its inherent property. Such deep neural networks are less likely to become trapped in local minima or plateaus caused by critical points. Results of experiments on the two spirals problem, which has an extreme nonlinearity, support our theory. Copyright © 2017 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
13. Dual-numbered Hopfield neural networks.
- Author
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Kobayashi, Masaki
- Subjects
- *
ARTIFICIAL neural networks , *HOPFIELD network stability , *ALGEBRA , *GEOMETRIC analysis , *CLIFFORD algebras - Abstract
In recent years, Hopfield neural networks using Clifford algebra have been studied. Clifford algebra is also referred to as geometric algebra, and is useful to deal with geometric objects. There are three kinds of Clifford algebra with degree 2; complex, hyperbolic, and dual-numbered. Complex-valued Hopfield neural networks have been studied by many researchers. Several models of hyperbolic Hopfield neural networks have also been proposed. It has been difficult to construct dual-numbered Hopfield neural networks. In this work, we propose dual-numbered Hopfield neural networks by modification of hyperbolic Hopfield neural networks with the split activation function. The stability condition and Hebbian learning rule are also provided. © 2017 Institute of Electrical Engineers of Japan. Published by John Wiley & Sons, Inc. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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14. Fixed points of symmetric complex-valued Hopfield neural networks.
- Author
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Kobayashi, Masaki
- Subjects
- *
FIXED point theory , *HOPFIELD networks , *INFORMATION retrieval , *MAXIMA & minima , *ATTRACTORS (Mathematics) - Abstract
A complex-valued Hopfield neural network (CHNN) is a model of a multistate Hopfield neural network, and has been applied to the storage of multilevel data. Weak noise tolerance, however, is a disadvantage of CHNNs. Symmetric CHNNs (SCHNNs), modified CHNNs, improve the noise tolerance of CHNNs. In the present work, we study the global and local minima of SCHNNs with one training pattern. In CHNNs, the global minima are the training and rotated patterns, and there are no local minima. In SCHNNs, it has been hard to determine all the global and local minima. It is thought that the global minima are the training and reversed patterns, and that there are no local minima in most cases. In the present work, however, we find many local minima, and show that they are very weak attractors, which reduce noise tolerance very little. In addition, we determine all the global minima of SCHNNs. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
15. Incidencia del discurso metafórico del profesor en la enseñanza del concepto de número complejo.
- Author
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Rojas, C. V. and Fernández, O.
- Abstract
In this paper, it is presented two math teachers' discourse analysis results, to identify the possible incidence of the metaphorical language used by them, in the learning of the concept of a complex number with ninth grade students. The analysis of the metaphorical language of the teacher is done in the light of the Cognitive Theory of Mathematics. It seeks the understanding of mathematics in the metaphorical thinking of people, and not in the rigorous demonstrations of books, emphasizing the connection that has the body with the cognitive processes, inducing the main key for the reform of teaching and learning processes focused on mathematical communication. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
16. ТРИ ИНВАРИАНТЫ В ОДНУ ЗАДАЧУ.
- Author
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Горская, Ксения, Коптева, Дарья, Ермекбаев, Асхат, Жетиру, Арман, Бермухамедов, Азат, Кошер, Салтанат, Стефанова, Лили, Христова, Ирина, and Йовкова, Александра
- Abstract
The paper presents results of the work of an international group of students in the frames of the realization of the research net project “Mathematical mosaic”. The results are obtained during investigations applying software products GeoGebra, Geometer's Sketchpad and Maple. The method of the complex numbers is used for the proofs of the assertions. [ABSTRACT FROM AUTHOR]
- Published
- 2017
17. An improved approach to evaluating pile length using complex continuous wavelet transform analysis.
- Author
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Sheng-Huoo Ni, Ji-Lung Li, Yu-Zhang Yang, and Zih-Tong Yang
- Subjects
- *
WAVELET transforms , *PILES & pile driving , *NONDESTRUCTIVE testing , *STRESS waves , *TIME-frequency analysis - Abstract
Non-destructive testing has been used widely for the integrity testing of piles, especially low-strain testing methods, for example the sonic echo test, the impulse response method, etc. The length of a long pile is often difficult to evaluate correctly due to the fact that the energy of a reflected stress wave generally fades with the wave travel path during testing. The purpose of this paper is to use the three-dimensional amplitude and phase angle message of a complex continuous wavelet transform to determine the length of piles by analysing a time-frequency phase angle diagram. Five piles of different lengths were tested to verify the new approach used in this study. The testing results show that a complex continuous wavelet transform is not only able to provide high-resolution results in different frequency bands but can also simplify the identification of the refection point using the three-dimensional phase angle spectrum. The pile length and pile tip condition can be easily determined using a phase angle diagram under the corresponding frequency of maximum amplitude in the three-dimensional amplitude spectrum. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
18. Dialectical Multivalued Logic and Probabilistic Theory.
- Author
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Doménech, José Luis Usó, Nescolarde-Selva, Josué Antonio, and Segura-Abad, Lorena
- Subjects
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MANY-valued logic , *QUANTUM mechanics , *TRUTH functions (Mathematical logic) , *COMPLEX numbers , *PROBABILITY theory - Abstract
There are two probabilistic algebras: one for classical probability and the other for quantum mechanics. Naturally, it is the relation to the object that decides, as in the case of logic, which algebra is to be used. From a paraconsistent multivalued logic therefore, one can derive a probability theory, adding the correspondence between truth value and fortuity. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
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19. COMPARATIVE ANALYSIS OF THE STUDENTS' SCORES IN SOLVING CONSTRUCTIVE TASKS WHEN GEOMETRY IS STUDIED IN A STANDARD WAY AND WITH THE USE OF COMPLEX NUMBERS.
- Author
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Anevska, Katerina, Glavche, Metodi, and Malceski, Risto
- Subjects
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EUCLIDEAN geometry , *COMPLEX numbers , *COMPARATIVE studies , *STUDENTS , *MATHEMATICAL transformations - Abstract
The students learn about complex numbers and Euclidean plane geometry in high school. Nevertheless, this material is separated into units instead of being integrated. (Anevska, 2014) presents methodological aspects about the study of exponential presentation of the complex numbers and (Anevska & al.2015-1) presents the possibility for inter-subject integration of the mathematics instruction in the study of the mentioned topics. Further on, (Anevska & al., 2015-2) and (Anevska & al., 2016) present the results of the comparative analyses of the scores of the students regarding the transformations in the Euclidean plane and the metric characteristics of the geometric figures and their use when studied in the standard way (see (Mitrović & al., 1998)), and when studied with the use of complex numbers (see (Malcheski & al., 2015)). This paper offers analogous analyses regarding the acquired knowledge in these two ways when solving constructive tasks. [ABSTRACT FROM AUTHOR]
- Published
- 2016
20. [formula omitted]-loss: A symmetric loss function for magnetic resonance imaging reconstruction and image registration with deep learning.
- Author
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Terpstra, Maarten L., Maspero, Matteo, Sbrizzi, Alessandro, and van den Berg, Cornelis A.T.
- Subjects
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DEEP learning , *MAGNETIC resonance imaging , *IMAGE registration , *IMAGE reconstruction , *SYMMETRIC functions , *MAGNETIC flux leakage - Abstract
• The impact of loss functions on complex MRI reconstruction with CNNs was analyzed. • The mean squared loss is biased towards magnitude underestimations with phase error. • A newly-proposed unbiased loss function called ⊥ -loss yields improved performance. • ⊥ -loss can be applied to any high-dimensional problem defined in R 2. • ⊥ -loss was applied to image registration tasks, showing superior performance. Convolutional neural networks (CNNs) are increasingly adopted in medical imaging, e.g., to reconstruct high-quality images from undersampled magnetic resonance imaging (MRI) acquisitions or estimate subject motion during an examination. MRI is naturally acquired in the complex domain C , obtaining magnitude and phase information in k-space. However, CNNs in complex regression tasks are almost exclusively trained to minimize the L2 loss or maximizing the magnitude structural similarity (SSIM), which are possibly not optimal as they do not take full advantage of the magnitude and phase information present in the complex domain. This work identifies that minimizing the L2 loss in the complex field has an asymmetry in the magnitude/phase loss landscape and is biased, underestimating the reconstructed magnitude. To resolve this, we propose a new loss function for regression in the complex domain called ⊥ -loss, which adds a novel phase term to established magnitude loss functions, e.g., L2 or SSIM. We show ⊥ -loss is symmetric in the magnitude/phase domain and has favourable properties when applied to regression in the complex domain. Specifically, we evaluate the ⊥ + ℓ 2 -loss and ⊥ +SSIM-loss for complex undersampled MR image reconstruction tasks and MR image registration tasks. We show that training a model to minimize the ⊥ + ℓ 2 -loss outperforms models trained to minimize the L2 loss and results in similar performance compared to models trained to maximize the magnitude SSIM while offering high-quality phase reconstruction. Moreover, ⊥ -loss is defined in R n , and we apply the loss function to the R 2 domain by learning 2D deformation vector fields for image registration. We show that a model trained to minimize the ⊥ + ℓ 2 -loss outperforms models trained to minimize the end-point error loss. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
21. COMPARATIVE ANALYSIS REGARDING THE USE OF COMPLEX NUMBERS IN SECONDARY SCHOOL.
- Author
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Anevska, Katerina, Grozdev, Sava, and Malčeski, Risto
- Subjects
- *
COMPLEX numbers , *SECONDARY schools , *EDUCATION - Abstract
The study of Euclidean plane geometry is compulsory for high school students. Practice shows that even the most advanced students face diffi culties when learning this material, and especially the content related to the metric characteristics of the geometric fi gures and their use. On the other hand, the high school syllabus also includes complex numbers, characterized by an analytical apparatus, which is adequate for learning Euclidean plane geometry. This paper presents the results of a comparative analysis of the scores of the students related to the metric characteristics of the geometric fi gures in the Euclidean plane and their use, when studied with the use of complex numbers (Malcheski, Grozdev & Anevska, 2015), and when studied in a standard way (Mitrović & al., 1998). [ABSTRACT FROM AUTHOR]
- Published
- 2016
22. Estudo dos Polígonos no plano de Argand-Gauss.
- Author
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Silva Costa, Felix and Batista Pinheiro, Robert
- Abstract
In this work, we present the historical part of the complex numbers, showing its emergence and its evolution over time. We classify the triangles in the Argand-Gauss plane, considering its vertices and we discut some results involving the calculus of area to convex polygons, in particular, a formula to determine the area of polygons whose vertices correspond to the roots of a complex number. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
23. Asset Pricing Model Based on Fractional Brownian Motion.
- Author
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Yan, Yu and Wang, Yiming
- Subjects
- *
BROWNIAN motion , *COMPLEX numbers , *REAL numbers , *MERTON Model , *DECISION making - Abstract
This paper introduces one unique price motion process with fractional Brownian motion. We introduce the imaginary number into the agent's subjective probability for the reason of convergence; further, the result similar to Ito Lemma is proved. As an application, this result is applied to Merton's dynamic asset pricing framework. We find that the four order moment of fractional Brownian motion is entered into the agent's decision-making. The decomposition of variance of economic indexes supports the possibility of the complex number in price movement. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
24. Estudo dos Polígonos no plano de Argand-Gauss.
- Author
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Costa, Felix Silva
- Abstract
In this work, we present the historical part of the complex numbers, showing its emergence and its evolution over time. We classify the triangles in the Argand-Gauss plane, considering its vertices and we discut some results involving the calculus of area to convex polygons, in particular, a formula to determine the area of polygons whose vertices correspond to the roots of a complex number. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
25. Estudo dos Polígonos no plano de Argand-Gauss.
- Author
-
Silva Costa, Felix
- Abstract
In this work, we present the historical part of the complex numbers, showing its emergence and its evolution over time. We classify the triangles in the Argand-Gauss plane, considering its vertices and we discut some results involving the calculus of area to convex polygons, in particular, a formula to determine the area of polygons whose vertices correspond to the roots of a complex number. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
26. COMPARATIVE ANALYSIS REGARDING THE STUDY OF TRANSFORMATIONS IN THE EUCLIDEAN PLANE BY APPLYING COMPLEX NUMBERS.
- Author
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Anevska, Katerina, Grozdev, Sava, and Malcheski, Risto
- Subjects
- *
COMPLEX numbers , *EUCLIDEAN geometry , *HIGH school students , *GEOMETRY education in secondary schools , *MATHEMATICS education (Secondary) , *SECONDARY education , *EDUCATION - Abstract
Adopting transformations in the Euclidean plane and their application is compulsory for high school students. The practice shows that even advanced students face diffi culties when learning such a material, especially the part which refers to group properties. On the other hand, complex numbers are also studied in high school and they are characterized by an analytical apparatus which helps learning the transformations in the Euclidean plane. This paper presents results from a comparative analysis referring to the accomplishments of the students who study transformations in the Euclidean plane and their application by using complex numbers (see (Malcheski et al., 2015)) and in the classical way (see (Mitrović et al., 1998)). [ABSTRACT FROM AUTHOR]
- Published
- 2015
27. A family of new complex number chaotic maps based image encryption algorithm.
- Author
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Liu, Yang, Tong, Xiaojun, and Hu, Shicheng
- Subjects
- *
MATHEMATICAL complexes , *CHAOS theory , *IMAGE analysis , *DATA encryption , *IMAGE reconstruction algorithms , *IMAGE compression - Abstract
Abstract: A family of new complex number chaotic maps based image encryption algorithm is proposed in the paper. A family of maps is constructed and proved to be chaotic in the complex number field, and its characteristics are analyzed. Two maps are selected from the chaotic maps family and are utilized to construct pseudorandom keystream sequence. In the proposed encryption algorithm, the pseudorandom keystream sequences are used to scramble and diffuse the plain image data and two entropy coding methods are used to reduce the correlation among the signals. Both theoretical analysis and experimental tests show that the proposed algorithm is secure and efficient. [Copyright &y& Elsevier]
- Published
- 2013
- Full Text
- View/download PDF
28. Free in-plane vibration analysis of a curved beam (arch) with arbitrary various concentrated elements.
- Author
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Wu, J.S., Lin, F.T., and Shaw, H.J.
- Subjects
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FREE vibration , *CURVED beams , *INFORMATION theory , *REAL numbers , *FINITE element method , *PARAMETER estimation - Abstract
Abstract: In the existing literature, the information regarding the exact solutions for free in-plane vibrations of the curved beams (or arches) carrying various concentrated elements is rare, particularly for the case with multiple attachments including eccentricities and mass moments of inertias. For this reason, this paper aims at presenting an effective approach to tackle the title problem. First of all, the un-coupled equation of motion for the circumferential displacement of an arch segment is derived. Next, based on the value of the discriminate parameter for a cubic equation, the exact solutions for the three types of roots of the un-coupled equation are determined and, corresponding to each type of roots, all displacement functions for the arch segment in terms of the real numbers (instead of the complex ones) are obtained. Finally, use of the compatible equations for the displacements and slopes together with the equilibrium equations for the forces and moments at each intermediate node and two ends of the entire curved beam, a frequency equation of the form ∣H(ω)∣=0 is obtained. It is found that the conventional approach by using the condition “∣H(ω t )∣⩽ ε” to search for the approximate value of ω t is difficult even if the convergence tolerance ε is greater than 10+3 (i.e., ε >10+3) instead of less than 10−3 (i.e., ε <10−3), however, the half-interval method is one of the effective tools for solving the problem if all coefficients of the determinant ∣H(ω)∣ are the real numbers. In addition to comparing with the existing literature, most of the numerical results obtained from the presented method are compared with those obtained from the conventional finite element method (FEM) and good agreement is achieved. [Copyright &y& Elsevier]
- Published
- 2013
- Full Text
- View/download PDF
29. Local minima in hierarchical structures of complex-valued neural networks.
- Author
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Nitta, Tohru
- Subjects
- *
ARTIFICIAL neural networks , *COMPLEX numbers , *LEARNING , *ARTIFICIAL intelligence , *MATHEMATICAL complex analysis - Abstract
Abstract: Most of local minima caused by the hierarchical structure can be resolved by extending the real-valued neural network to complex numbers. It was proved in 2000 that a critical point of the real-valued neural network with hidden neurons always gives many critical points of the real-valued neural network with hidden neurons. These critical points consist of many lines in the parameter space which could be local minima or saddle points. Local minima cause plateaus which have a strong negative influence on learning. However, most of the critical points of complex-valued neural network are saddle points unlike those of the real-valued neural network. This is a prominent property of the complex-valued neural network. [Copyright &y& Elsevier]
- Published
- 2013
- Full Text
- View/download PDF
30. BCNN: Binary complex neural network.
- Author
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Li, Yanfei, Geng, Tong, Li, Ang, and Yu, Huimin
- Abstract
Binarized neural networks, or BNNs, show great promise in edge-side applications with resource limited hardware, but raise the concerns of reduced accuracy. Motivated by the complex neural networks, in this paper we introduce complex representation into the BNNs and propose Binary complex neural network – a novel network design that processes binary complex inputs and weights through complex convolution, but still can harvest the extraordinary computation efficiency of BNNs. To ensure fast convergence rate, we propose novel BCNN based batch normalization and weight initialization strategies. Experimental results on image and radio signal classifications show that BCNN can achieve better accuracy compared to the original BNN models. BCNN improves BNN by strengthening its learning capability through complex representation and extending its applicability to complex-valued input data. Our code is available at https://github.com/flying-Yan/BCNN. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
31. A GEOMETRIC MODEL OF THE FIELD OF COMPLEX NUMBERS.
- Author
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LUPU, CONSTANTIN
- Subjects
- *
COMPLEX numbers , *EUCLIDEAN geometry , *MATHEMATICAL complex analysis , *PLANE geometry , *VECTOR analysis , *GEOMETRIC modeling - Abstract
In this paper we will construct a geometric model of the field of complex numbers by using the elementary plane Euclidean geometry notions. [ABSTRACT FROM AUTHOR]
- Published
- 2012
32. A new pseudorandom number generator based on a complex number chaotic equation.
- Subjects
- *
RANDOM number generators , *CHAOS theory , *COMPLEX numbers , *REAL numbers , *NONLINEAR theories , *MATHEMATICAL analysis - Abstract
In recent years, various chaotic equation based pseudorandom number generators have been proposed. However, the chaotic equations are all defined in the real number field. In this paper, an equation is proposed and proved to be chaotic in the imaginary axis. And a pseudorandom number generator is constructed based on the chaotic equation. The alteration of the definitional domain of the chaotic equation from the real number field to the complex one provides a new approach to the construction of chaotic equations, and a new method to generate pseudorandom number sequences accordingly. Both theoretical analysis and experimental results show that the sequences generated by the proposed pseudorandom number generator possess many good properties. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
33. ZASTOSOWANIE LICZB ZESPOLONYCH W BUDOWIE WEKTOROWEJ MIARY SYNTETYCZNEJ.
- Author
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NERMEND, KESRA
- Subjects
- *
COMPLEX numbers , *REGRESSION analysis , *COEFFICIENTS (Statistics) , *VECTOR analysis , *MATHEMATICAL analysis - Abstract
The paper discusses applying complex numbers to describe dynamics in building of a synthetic vector measure. A complex number describes the course of the line of regression of coeffcients used to calculate a synthetic measure. The result is also a complex number, denoting the course of the line of regression of the measure value [ABSTRACT FROM AUTHOR]
- Published
- 2011
34. Iterants, Majorana Fermions and the Majorana-Dirac Equation.
- Author
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Kauffman, Louis H.
- Subjects
- *
DIRAC equation , *CLIFFORD algebras , *MATRICES (Mathematics) , *COMPLEX numbers , *EQUATIONS , *MAJORANA fermions , *SCHRODINGER equation - Abstract
This paper explains a method of constructing algebras, starting with the properties of discrimination in elementary discrete systems. We show how to use points of view about these systems to construct what we call iterant algebras and how these algebras naturally give rise to the complex numbers, Clifford algebras and matrix algebras. The paper discusses the structure of the Schrödinger equation, the Dirac equation and the Majorana Dirac equations, finding solutions via the nilpotent method initiated by Peter Rowlands. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
35. THE UNIQUENESS THEOREM FOR COMPLEX-VALUED NEURAL NETWORKS WITH THRESHOLD PARAMETERS AND THE REDUNDANCY OF THE PARAMETERS.
- Author
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NITTA, TOHRU
- Subjects
- *
ARTIFICIAL neural networks , *NEURAL circuitry , *ARTIFICIAL intelligence , *DIGITAL computer simulation , *COMPUTER software - Abstract
This paper will prove the uniqueness theorem for 3-layered complex-valued neural networks where the threshold parameters of the hidden neurons can take non-zeros. That is, if a 3-layered complex-valued neural network is irreducible, the 3-layered complex-valued neural network that approximates a given complex-valued function is uniquely determined up to a finite group on the transformations of the learnable parameters of the complex-valued neural network. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
36. Redundancy of the parameters of the complex-valued neural network
- Author
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Nitta, Tohru
- Subjects
- *
BIOLOGICAL neural networks , *MATHEMATICAL transformations - Abstract
In this letter, we will clarify the redundancy of the parameters of the complex-valued neural network. The results may be summarized as follows. There exist the four transformations which can cause the redundancy of the parameters of the complex-valued neural network, including the two transformations which can cause the redundancy of the parameters of the real-valued neural network (i.e., the interchange of the two hidden neurons and the sign flip of the parameters on the hidden neurons). [Copyright &y& Elsevier]
- Published
- 2002
- Full Text
- View/download PDF
37. Formulation of Strain Fatigue Criterion Based on Complex Numbers.
- Author
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Łagoda, Tadeusz, Głowacka, Karolina, Kurek, Marta, Skibicki, Dariusz, Maletta, Carmine, and Marsavina, Liviu
- Subjects
- *
COMPLEX numbers , *SHEAR strain , *PHYSICAL constants , *TORSION , *NUMBER systems - Abstract
In the case of many low-cycle multiaxial fatigue criteria, we encounter a mathematical problem of adding vectors of normal and shear strains. Typically, the problem of defining an equivalent strain is solved by weighting factors. Unfortunately, this ignores the fact that these vectors represent other physical quantities: the normal strain is a longitudinal strain, and the shear strain is a rotation angle. Therefore, the goal of the present work was to propose a method of combining different types of strains by adopting a system of complex numbers. The normal strain was defined as the real part and the shear strain was defined as the imaginary part. Using this approach, simple load states, such as pure bending and pure torsion, have been transformed into an expression for equivalent strain identical to the previously proposed criteria defined by Macha. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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