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دانلود کتاب High-Performance Computing Systems and Technologies in Scientific Research, Automation of Control and Production (Communications in Computer and Information Science)
دانلود کتاب سیستمها و فناوریهای محاسباتی با کارایی بالا در تحقیقات علمی، اتوماسیون کنترل و تولید (ارتباطات در علوم کامپیوتر و اطلاعات)
مشخصات کتاب
High-Performance Computing Systems and Technologies in Scientific Research, Automation of Control and Production (Communications in Computer and Information Science)
ویرایش: نویسندگان: Vladimir Jordan (editor), Nikolay Filimonov (editor), Ilya Tarasov (editor), Vladimir Faerman (editor) سری: ISBN (شابک) : 3030668940, 9783030668945 ناشر: Springer سال نشر: 2021 تعداد صفحات: 241 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 35 مگابایت
قیمت کتاب (تومان) : 81,000
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توجه داشته باشید کتاب سیستمها و فناوریهای محاسباتی با کارایی بالا در تحقیقات علمی، اتوماسیون کنترل و تولید (ارتباطات در علوم کامپیوتر و اطلاعات) نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی درمورد کتاب به خارجی
فهرست مطالب
Preface Organization Contents Hardware for High-Performance Computing and Its Applications FPGA-Based SOC Architecture for Fog and Edge Computing Applications 1 Introduction 2 Problem Description 3 FPGA Application in Fog and Edge Computing 4 Examples of Systems 5 Conclusion References Meta-modeling of Space Probe On-Board Computing Complexes 1 The Features of the On-Board Computational Complexes (OBCC) Designing 1.1 The Methodologies Used in the Simulation of OBCC 1.2 General Provisions for OBCC Design 2 The Main Approaches to the Design of the OBCC in the Semantic Environment of Individual Subsystems of the Spacecraft 2.1 Augmented IDEF0 Notation for Modeling an Inertial Navigation Subsystem 2.2 Meta-modeling of the Laser Altimetry Subsystem Using Augmented Notation 2.3 Meta-modeling of a Subsystem of Star Sensors by Means of Augmented Notation IDEF0 2.4 Meta-modeling of Optical Subsystems of the Direction Finder by Means of Augmented Notation 2.5 Meta-modeling of a Computer Vision Module Using Augmented Notation 3 Representation of Suggested Semantic Elements in the Form of Programming Code 4 Conclusions References Comparison of Various Algorithms for Scheduling Tasks in a Desktop Grid System Using a ComBos Simulator 1 Introduction 2 Scheduling Heuristics 3 Scheduling for Multiple Applications 4 Selecting the Target Function 5 Selecting Algorithms 6 Simulating 7 Conclusion References Information Technologies and Computer Simulation of Physical Phenomena Thermal and Microstructural Analysis of Intermetallide Synthesis in the Ni-Al Layered-Block Atomic Structure Based on the Computer-Aided Simulation of SHS 1 Introduction 2 Using the LAMMPS Package in a Parallel Computing Configuration for SHS Simulation in a Layered-Block Ni-Al System 2.1 Summary of MD Method, EAM Potential and LAMMPS Package 2.2 Technique for Performing Computational Experiments on Molecular-Dynamics Simulation of SHS in Layered and Layered-Block Atomic Systems Ni-Al 3 Thermal and Microstructural Analysis of Intermetallide Synthesis in the Ni-Al Layered-Block Atomic Structure 4 Conclusions References Mathematical Simulation of a Heat Transfer Process in Phase Change Materials 1 Introduction 2 Problem Definition 3 Methods 3.1 Mathematical Model 3.2 Notations 3.3 Multiscale Discontinuous Galerkin Method for Stefan’s Problem 3.4 Discrete Analogue of Stefan’s Problem 4 Results 4.1 Verification Procedure of the Computational Scheme 4.2 Validation Procedure of the Computational Scheme 4.3 Mathematical Simulation Results 5 Conclusion References Modeling of Polycrystalline Materials Deformation with Dislocation Structure Evolution and Transition to Fracture 1 Introduction 2 Materials and Methods 2.1 Approach Description 2.2 Model Structure 2.3 Description of Elastic and Plastic Deformation 2.4 Dislocation Motion Description 2.5 Description of Dislocation Densities Evolution 2.6 Transition from Deformation to Destruction 3 Solving Algorithm 4 Model Implementation 5 Results 6 Conclusion References The Three-Level Model to Describe Serrated Yielding: Structure, Algorithm, Implementation, Results 1 Introduction 1.1 Interaction of Impurity Atoms and Dislocations 2 Concept and Mathematical Setting 2.1 General Structure of the Model 3 Mathematical Setting 3.1 Work of Dislocation Sources 3.2 Annihilation of Dislocations 3.3 Impurity Atoms 3.4 Hardening Law 4 Model Implementation Algorithm 5 Determining Model Parameter Values 6 Software Implementation, Results 7 Conclusion References Mathematical Software for Testing and Setting up the Induction Soldering Process 1 Introduction 2 Literature Review 3 Mathematical Support 4 Software Support 5 Experimental Verification 6 Conclusion References Computing Technologies in Discrete Mathematics and Decision Making Evaluation of Efficiency of Using Simple Transformations When Searching for Orthogonal Diagonal Latin Squares of Order 10 1 Introduction 2 Rotation of Intercalates 3 Concept and Rotation of Loops 4 The Concept and “Rotation” of Latin Subrectangles in DLS 5 Replacement of Transversals 6 Conclusion References Implementation of the Extrapolation Method of Expert Assessments in Selection Problems 1 Introduction 2 Materials and Methods for Solving Problems Accepted Assumptions 3 Results 4 Conclusion References Information Retrieval Approach Using Semiotic Models Based on Multi-layered Semantic Graphs 1 Introduction 1.1 Background 1.2 Aim 2 Basic Semantic Graph 2.1 Mathematical Model of Multi-layered Semantic Graph 2.2 Analysis of Semantic Data Extracted from Basic Dictionaries 2.3 Practical Usage of Basic-Level Semantic Graph 3 Multi-layered Semantic Graph 3.1 Layers Model 3.2 Text-To-Concept Algorithm 4 Conclusion References Information and Computing Technologies in Automation and Control Science Algorithmization of Autonomous Landing of Unmanned Aerial Vehicles by “Flexible” Kinematic Trajectories 1 Introduction 2 The Principle of “Flexible” Kinematic Trajectoriesin Control Problems by Terminal Maneuvers of UAV 3 Control by Vertical Landing Maneuver of UAV on the Stationary Landing Site 3.1 Setting of Control Problem by UAV Landing 3.2 The Development and Research of Control Algorithm by UAV Landing on SLS 4 The Control of Spatial Landing Maneuver of UAV to the Moving Landing Site 4.1 The Models of the Dynamics of UAV and MLS 4.2 Setting of the Control Problem by UAV Landing on MLS 4.3 The Principle of “Flexible” Kinematic Trajectories 4.4 The Principle of the Guidance to the Target Point 4.5 Control Algorithm by the Landing of UAV 4.6 Computer Approbation of the UAV Landing Control Algorithm 5 Conclusion References Features of Designing a Variable-Frequency Electric Drive Control System with a Microprocessor-Based Sinusoidal Signal Generator 1 Introduction 2 Justification of the Use of a Variable-Frequency Electric Drive of the Hydraulic Directional Valve in the Servo System for the Control of the Hydraulic Press Working Member 3 Design of a Microprocessor-Based Version of Creating a Sinusoidal Signal Generator 4 Conclusions References Program Model of the Interacting Adaptive Traffic Control System 1 Introduction 2 Literature Review 3 Traffic Light Algorithms 4 Description of the Software Model for Studying Traffic Light Algorithms 5 Mathematical Apparatus 6 Research of Algorithms for Control of Traffic Lights 7 Conclusion References Author Index
