Dmitry S. Kulyabov
  • Bio
  • Posts
  • Papers
  • Experience
  • Projects
  • Talks
  • Teaching
  • Русский
  • Blog
    • DCM. Journal rubrics
    • CEURART document verification
    • DCM. Author's Ethics
    • Reproducible Research
    • Contributor Roles
    • Emacs. Tabs
    • Saratov Fall Meeting Conference 2023
    • Tinkoff
    • SberBank
    • Books. Fiction
    • Kapanoglu, S. (2022): Street Coder. The rules to break and how to break them
    • BibTeX fields
    • BibTeX entry types
    • Update your Bitbucket Cloud SSH Host Keys
    • Books. History
    • RUDN University affiliation
    • Cisco vs Huawei Commands
    • L2TP over IPsec VPN client setup
    • LaTeX. What to read
    • RUDN University
    • BibTeX format
    • CEUR-WS conference repository
    • Books. Programming
    • Happy Birthday
    • Vladimir Ilyich Lenin - 150 years
      • Migrating from livejournal to hexo
      • Stalin departed for a short while
    • Projects
    • Publications
      • Numerical Integration of Highly Oscillatory Functions with and without Stationary Points
      • Application of the Chebyshev collocation method to solve boundary value problems of heat conduction
      • Author's ethics
      • IMRAD structure
      • Journal rubrics
      • Numerical solution of first-order exact differential equations by the integrating factor method
      • Solving the eikonal equation by the FSM method in Julia language
      • Symbolic-numeric approach for the investigation of kinetic models
      • Methodological derivation of the eikonal equation
      • Julia language features for processing statistical data
      • Asymptote-based scientific animation
      • Chebyshev collocation method for solving second order ODEs using integration matrices
      • Implementation of hyperbolic complex numbers in Julia language
      • Multistage collocation pseudo-spectral method for the solution of the first order linear ODE
      • Multistage pseudo-spectral method (method of collocations) for the approximate solution of an ordinary differential equation of the first order
      • Computer simulation of the stochastic RED algorithm
      • Implementation of an analytical-numerical approach to stochastization of one-step processes in the Julia programming language
      • Surrogate modeling assistant software
      • Computer Algebra in JULIA
      • Numerical integrating of highly oscillating functions: effective stable algorithms in case of linear phase
      • Using a Template Engine as a Computer Algebra Tool
      • Application of a numerical-analytical approach in the process of modeling differential equations in the Julia language
      • Comparative analysis of machine learning methods by the example of the problem of determining muon decay
      • Hybrid modelling of the RED algorithm in the Julia language
      • The multi-model approach to the study of complex systems using the example of the RED active queue management algorithm
      • Hyperbolic numbers as Einstein numbers
      • Languages for modeling the RED active queue management algorithms: Modelica vs. Julia
      • Skin cancer classification computer system development with deep learning
      • A Modular Extension for a Computer Algebra System
      • A Practical Approach to Testing Random Number Generators in Computer Algebra Systems
      • An Effective Stable Numerical Method for Integrating Highly Oscillating Functions with a Linear Phase
      • Deep Neural Networks for Emotion Recognition
      • Melanoma Detection Computer System Development with Deep Neural Networks
      • One-step Stochastization Methods for Open Systems
      • Mathematical model of cavitation under the influence of a single stretching pulse
      • A new algorithm used the Chebyshev pseudospectral method to solve the nonlinear second-order Lienard differential equations
      • Structural Approach to the Deep Learning Method
      • Constrained Hamiltonian approach to the Maxwell theory
      • Essay on the study of the self-oscillating regime in the control system
      • Finslerian representation of the Maxwell equations
      • Numerical analysis of eikonal equation
      • Modeling RED algorithm modifications in the OpenModelica
      • Numerical solution of the problem of homogeneous nucleation in the liquid phase
      • Overview of social networks research software
      • Statistically significant performance testing of Julia scientific programming language
      • New Features in the Second Version of the Cadabra Computer Algebra System
      • Parametric study of the control system in the TCP network
      • Software Package Development for the Active Traffic Management Module Self-oscillation Regime Investigation
      • Statistically Significant Comparative Performance Testing of Julia and Fortran Languages in Case of Runge–Kutta Methods
      • The General Renovation as the Active Queue Management Mechanism. Some Aspects and Results
      • Pseudo-random number generator based on neural network
      • Software Package For The Active Queue Management Module Model Verification
      • Algorithm for Lens Calculations in the Geometrized Maxwell Theory
      • Automatic Code Generation for Stochastic Runge–Kutta Methods
      • Software Implementation of the Eikonal Equation
      • The Riemannian Geometry is not Sufficient for the Geometrization of the Maxwell's Equations
      • Functional Integral Approach to the Solution of a System of Stochastic Differential Equations
      • The Automation of Stochastization Algorithm with Use of SymPy Computer Algebra Library
      • Characteristics of Lost and Served Packets for Retrial Queueing System with General Renovation and Recurrent Input Flow
      • Implementing a Method for Stochastization of One-Step Processes in a Computer Algebra System
      • Issues in the Software Implementation of Stochastic Numerical Runge–Kutta
      • Regularized Computation of Oscillatory Integrals with Stationary Points
      • Simple Model of Nonlinear Spin Waves in Graphene Structures
      • The Methodology of Studying of Active Traffic Management Module Self-oscillation Regime
      • Two Formalisms of Stochastization of One-Step Models
      • The approach to investigation of the the regions of self-oscillations
      • Implementation Difficulties Analysis of Stochastic Numerical Runge-Kutta Methods
      • The Criteria for the Study of Occurrence of Self-Oscillation Mode of Active Traffic Management Module
      • Markov-modulated Arrival Processes and Their Application to the Analysis of Active Queue Management Algorithms
      • An Approach to Invistigate the Regions of Self-oscillations
      • Approaches to Stochastic Modeling of Wind Turbines
      • Implementation of Diagram Technique for Statistical Systems in Sympy
      • The Construction of the SDE for Modeling Wind Speed for Wind Power Plants
      • Stochastic Modeling of Wind Turbines
      • Support for Parallel Computing in Julia Language
      • A Geometric Approach to the Lagrangian and Hamiltonian Formalism of Electrodynamics
      • Application of Functional Integrals to Stochastic Equations
      • Field Calculation for the Horn Waveguide Transition in the Single-Mode Approximation of the Cross-Sections Method
      • Geometrization of Maxwell's Equations in the Construction of Optical Devices
      • Maxwell's Equations Instantaneous Hamiltonian
      • Modelica-based TCP simulation
      • Spinor Representation of Maxwell's Equations
      • The Survey on Markov-Modulated Arrival Processes and Their Application to the Analysis of Active Queue Management Algorithms
      • Stable Algorithm of Integrating Rapidly Oscillating Functions
      • Waveguide Modes of a Planar Gradient Optical Waveguide
      • Operating System Plan9 as the Implementation of the GRID Ideology
      • Hybrid Simulation Of Active Traffic Management
      • Stochastization Of One-Step Processes In The Occupations Number Representation
      • Diagram Representation for the Stochastization of Single-Step Processes
      • Numerical and Analytical Modeling of Guided Modes of a Planar Gradient Waveguide
      • Operator Approach to the Master Equation for the One-Step Process
      • Spinor-Like Hamiltonian for Maxwellian Optics
      • Stochastic Runge–Kutta Software Package for Stochastic Differential Equations
      • The Stochastic Processes Generation in OpenModelica
      • Using two Types of Computer Algebra Systems to Solve Maxwell Optics Problems
      • Combinatorial and Operator Approaches to RED Modeling
      • Designing Installations for Verification of the Model of Active Queue Management Discipline RED in the GNS3
      • Quantum Field Theory Approach to the Analysis of One-Step Models
      • The Method of Constructing Models of Peer to Peer Protocols
      • Waveguide Modes of a Planar Optical Waveguide
      • One-Step Stochastic Processes Simulation Software Package
      • Review of Julia programming language for scientific computing
      • Symbolic Computation and p-adic Arithmetic
      • Tensor Computations in Computer Algebra Systems
      • Maxwell's Equations in Arbitrary Coordinate System
      • Getting the stochastic differential equations for multidimensional systems of birth-death
      • The System of Hamilton Equations for Normal Waves of the Electromagnetic Field in a Stratified Anisotropic Medium
      • An Application of Computer Algebra System Cadabra to Scientific Problems of Physics
      • Application of Two-Spinor Calculus in Quantum Mechanical and Field Calculations
      • Computer Realization of Regularized Method for a Wavefront Set Recovering on the Base of Hartmann Test with the Help of Analytical Calculations in Axiom CAS
      • Development of Click modules: DSRED and SDRED algorithms
      • Symbolic-numerical algorithm for constructing matrices stabilizing functional in the problem of restoring the surface
      • Kink-like Configurations of Interacting Scalar, Electromagnetic, and Gravitational Fields
    • Experience
    • Projects
      • Small utilities and scripts
      • Geometrization
      • LaTeX and environment
      • Machine learning
    • Slides
      • Structural approach to the deep learning method
    • Recent & Upcoming Talks

    On this page

      Vladimir Ilyich Lenin - 150 years

      2020-04-22 · 1 min read

      Vladimir Ilyich Lenin – 150 years

      Happy Birthday, Vladimir Ilyich!

      Vladimir Ilyich Lenin in his office in the Kremlin. October 16, 1918

      Last updated on 2020-04-22
      Occasion
      Dmitry S. Kulyabov
      Authors
      Dmitry S. Kulyabov
      Professor of the Department of Probability Theory and Cybersecurity
      My research interests include physics, Unix administration, and networking.
      ← Happy Birthday 2020-04-22
      Migrating from livejournal to hexo 2018-04-21 →
      Languages:
      English
      Русский

      © 2006—2025 Dmitry S. Kulyabov. This work is licensed under CC BY 4.0

      Published with Hugo Blox Builder — the free, open source website builder that empowers creators.