Devoted to advances in the field of computer simulation of aerospace equipment, this study is the most up-to-date coverage of the state-of-the-art on coastal and passenger aircraft, drones, and other recent developments in this constantly changing field.
Table of ContentsAbstract xiii
Preface xv
1 Computer Simulation in Aircraft 1
Iftikhar B. Abbasov
1.1 Simulation of Aircraft 1
1.2 Simulation of Rocket 3
1.3 Modeling of Streamlined Surfaces 5
1.4 Simulation of the Be-200 Amphibious Aircraft 6
1.5 Conceptual Model of Aircraft Chiroptera -- 9
1.6 Conceptual Design of Lotos -- Motorcar 14
References 19
2 Conceptual Modeling of Amphibian Aircrafts 23
Iftikhar B. Abbasov and V--‚¬â„¢iacheslav V. Orekhov
2.1 From the History of World Civil Aviation 24
2.1.1 Introduction 24
2.1.2 Historical Stages of Hydroaviation Development by the Beriev Aircraft Company 25
2.2 Computational Modeling of Multipurpose Amphibious Aircraft Be-200 30
2.2.1 Introduction 30
2.2.2 Modeling Methods and Stages 31
2.2.3 Shading of 3D Model 35
2.2.4 Rendering of 3D Model 36
2.2.5 Conclusion 38
2.3 Computational Modeling of Passenger Amphibian Aircraft Be-200 Cabin Interior 38
2.3.1 Introduction 38
2.3.2 Variants of Cabin Layout 40
2.3.3 Aircraft Cabin Modeling 43
2.3.4 Shading of Aircraft Cabin Objects 45
2.3.5 Rendering of Aircraft Cabin 47
2.3.6 Conclusion 48
2.4 Computational Modeling of Amphibious Aircraft Be-103 50
2.4.1 Introduction 50
2.4.2 Modeling Methods and Stages 51
2.4.3 Shading of 3D-Model 56
2.4.4 Rendering of 3D-Model 58
2.4.5 Conclusion 60
2.5 Conceptual Model of Lapwing -- Amphibious Aircraft 60
2.5.1 Introduction 60
2.5.2 Concept Development 61
2.5.3 3D Modeling of Amphibious Aircraft Lapwing -- 68
2.5.4 Shading and Rendering of 3D Model of Lapwing -- Amphibious Aircraft 71
2.6 Computational Modeling of the Cabin Interior of the Conceptual Model of Amphibian Aircraft Lapwing -- 74
2.6.1 Introduction 74
2.6.2 The Concept of the Amphibian Aircraft Lapwing -- 75
2.6.3 Layout Concepts 77
2.6.4 Development of a Passenger Seat 78
2.6.5 Modeling of the Cabin Interior 81
2.6.6 Assignment of Materials and Rendering of the Scene 81
2.6.7 Usability and Comfort Cabin Interior 83
2.6.8 Conclusion 85
2.7 Conceptual Model and Interior Design Water Strider -- Ekranoplan 85
2.7.1 Introduction 85
2.7.2 Review of Ekranoplans 86
2.7.3 Review of Publications 92
2.7.4 Concept of an Ekranoplan of Water Strider -- 93
2.7.5 Configuration of the Concept of an Ekranoplan 96
2.7.6 Stages of Modeling 96
2.7.7 Shading and Rendering of Model 100
2.7.8 Development of an Interior and Passenger Chair 101
2.7.9 Creation of Materials and Rendering of an Interior 104
2.7.10 Conclusion 107
2.8 Design of Multifunctional Hydrofoil Afalina -- 108
2.8.1 Introduction 108
2.8.2 Research Overview 109
2.8.3 Development of the Concept 112
2.8.4 Ship Modeling 114
2.8.5 Shading and Rendering of the Model 115
2.8.6 Conclusion 119
2.9 Autonomous Mobile Robotic System Sesarma -- 119
2.9.1 Introduction 119
2.9.2 Review of Publications 119
2.9.3 Review of the Analogues 120
2.9.4 Robot Structure 121
2.9.5 Modeling Concept 123
2.9.6 Modeling Stages 123
2.9.7 Creation and Assignment of Materials 126
2.9.8 Lighting Installation and Rendering 128
2.9.9 Conclusion 129
References 129
3 Development of Schemes of Multirotor Convertiplanes with Cryogenic and Hybrid Powerplants 137
Dmitriy S. Durov
3.1 Introduction 137
3.2 Hydro Convertiplane is the New Opportunity for
Modern Aviation 138
3.3 Peculiarities of Control of the Vertical Takeoff and Landing Aircraft in the Transitional and Hovering Mode 143
3.4 Problems of Stability and Controllability of Hydro Convertiplane with Tandem-Mounted Rotors in Rotary Annular Channels 148
3.5 Cryogenic Turboelectric Aircrafts are a Good Solution for
Short-Range and Takeoff Hybrid Airline Complexes 150
3.6 Conclusion 154
References 158
4 Conceptual Design of A Multifunctional Amphibious Plane 161
V--‚¬â„¢iacheslav V. Orekhov
4.1 Introduction, Historical Stages 161
4.2 Concept 167
4.3 3D Modeling 170
4.4 Application of Materials, Rendering 171
4.5 Conclusion 176
References 176
5 Mathematical Model of Unmanned Aircraft with
Elliptical Wing 179
Sergey A. Sinutin, Alexander A. Gorbunov,
and Yekaterina B. Gorbunova
5.1 Introduction 180
5.2 Research Objective 180
5.3 Research Technique 181
5.4 Hardware Implementation 181
5.5 The Program Research Part 183
5.6 Studies of the Behavior of an Unmanned Aircraft with an Elliptical Wing 184
5.7 Experimental Studies of the UA Behavior 187
5.8 Processing and Analysis of Data Obtained during
Flight Tests 189
5.9 Formation of a Mathematical Model of UA with
Elliptical Wing 193
5.10 Mathematical Model of UA in Analytical Form 193
5.11 Obtaining a Mathematical Model using the
Black Box -- Method 195
5.12 Mathematical Model Based on Linear Regression 197
5.13 Mathematical Model Based on Multilayer Perceptron 200
5.14 PID Controller Setup 201
5.15 Flight Emulation for Primary Quality Control of
the Regulator 203
5.16 Conclusion 205
References 208
6 Technology of Geometric Modeling of Dynamic Objects and Processes of Virtual Environment for Aviation-Space Simulators Construction 211
Valeriy G. Lee
6.1 Introduction 211
6.2 Methods of Applied Geometry in Solving Problems of Simulation Modeling in SVR 216
Optimum Discretization of Curved Lines 217
Curve Integral Model 221
Methods for Assessing the Information Capacity of Discrete Curve Frames 222
Optimal Discretization Based on Integral Curve Model 224
6.3 Purposes and Objectives of the Extravehicular Activity of the RTS Cosmonaut Operator on the ISS in Open Space,
Q1
Technology of Computer Simulation in the Virtual Reality Environment 229
Extravehicular Activity of the RTS Cosmonaut Operator 229
Technologies of Methodical and Hardware-Software Implementation of a Cosmonaut-Operator--
Simulator 232
Dynamic Virtual Model of the Manipulator 235
Software Technologies for the Formation of Dynamic Models of the Editor-Modeler 239
6.4 Experimental Studies of the Functional Completeness of
TMS Graphics and Software 241
Information and Functional Power of the TMS Visualizer 241
An Example of a Simulator of a Typical Flight Mission at
Solar Battery Installation 244
The Technology of Testing Emergency Situations 248
Experimental Search for a Safe Trajectory of
ERA Movement 254
6.5 Conclusion 255
References 258
Index 26
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