Material Type  

 단행본

Date and Time of Latest Transaction  

20140127111328

ISBN  

9781400840601 (electronic bk.)

ISBN  

1400840600 (electronic bk.)

ISBN  

0691149216

ISBN  

9780691149219

LC Callnumber  

UG1242.D7

DDC  

623.74/69623.7469

Author  

Beard, Randal W.

Title/Author  

Small Unmanned Aircraft - [electronic resource] : Theory and Practice

Publish Info  

Princeton : Princeton University Press, 2012

Material Info  

1 online resource (317 p)

General Note  

APPENDIX E: Airframe Parameters.

서지주기  

Includes bibliographical references and index.

Formatted Contents Note  

완전내용Cover; Contents; Preface; 1 Introduction; 1.1 System Architecture; 1.2 Design Models; 1.3 Design Project; 2 Coordinate Frames; 2.1 Rotation Matrices; 2.2 MAV Coordinate Frames; 2.3 Airspeed, Wind Speed, and Ground Speed; 2.4 The Wind Triangle; 2.5 Differentiation of a Vector; 2.6 Chapter Summary; 2.7 Design Project; 3 Kinematics and Dynamics; 3.1 State Variables; 3.2 Kinematics; 3.3 Rigid-body Dynamics; 3.4 Chapter Summary; 3.5 Design Project; 4 Forces and Moments; 4.1 Gravitational Forces; 4.2 Aerodynamic Forces and Moments; 4.3 Propulsion Forces and Moments; 4.4 Atmospheric Disturbances.

Formatted Contents Note  

완전내용4.5 Chapter Summary4.6 Design Project; 5 Linear Design Models; 5.1 Summary of Nonlinear Equations of Motion; 5.2 Coordinated Turn; 5.3 Trim Conditions; 5.4 Transfer Function Models; 5.5 Linear State-space Models; 5.6 Reduced-order Modes; 5.7 Chapter Summary; 5.8 Design Project; 6 Autopilot Design Using Successive Loop Closure; 6.1 Successive Loop Closure; 6.2 Saturation Constraints and Performance; 6.3 Lateral-directional Autopilot; 6.4 Longitudinal Autopilot; 6.5 Digital Implementation of PID Loops; 6.6 Chapter Summary; 6.7 Design Project; 7 Sensors for MAVs; 7.1 Accelerometers.

Formatted Contents Note  

완전내용7.2 Rate Gyros7.3 Pressure Sensors; 7.4 Digital Compasses; 7.5 Global Positioning System; 7.6 Chapter Summary; 7.7 Design Project; 8 State Estimation; 8.1 Benchmark Maneuver; 8.2 Low-pass Filters; 8.3 State Estimation by Inverting the Sensor Model; 8.4 Dynamic-observer Theory; 8.5 Derivation of the Continuous-discrete Kalman Filter; 8.6 Attitude Estimation; 8.7 GPS Smoothing; 8.8 Chapter Summary; 8.9 Design Project; 9 Design Models for Guidance; 9.1 Autopilot Model; 9.2 Kinematic Model of Controlled Flight; 9.3 Kinematic Guidance Models; 9.4 Dynamic Guidance Model; 9.5 Chapter Summary.

Formatted Contents Note  

완전내용9.6 Design Project10 Straight-line and Orbit Following; 10.1 Straight-line Path Following; 10.2 Orbit Following; 10.3 Chapter Summary; 10.4 Design Project; 11 Path Manager; 11.1 Transitions Between Waypoints; 11.2 Dubins Paths; 11.3 Chapter Summary; 11.4 Design Project; 12 Path Planning; 12.1 Point-to-Point Algorithms; 12.2 Coverage Algorithms; 12.3 Chapter Summary; 12.4 Design Project; 13 Vision-guided Navigation; 13.1 Gimbal and Camera Frames and Projective Geometry; 13.2 Gimbal Pointing; 13.3 Geolocation; 13.4 Estimating Target Motion in the Image Plane; 13.5 Time to Collision.

Formatted Contents Note  

완전내용13.6 Precision Landing13.7 Chapter Summary; 13.8 Design Project; APPENDIX A: Nomenclature and Notation; APPENDIX B: Quaternions; B.1 Quaternion Rotations; B.2 Aircraft Kinematic and Dynamic Equations; B.3 Conversion Between Euler Angles and Quaternions; APPENDIX C: Animations in Simulink; C.1 Handle Graphics in Matlab; C.2 Animation Example: Inverted Pendulum; C.3 Animation Example: Spacecraft Using Lines; C.4 Animation Example: Spacecraft Using Vertices and Faces; APPENDIX D: Modeling in Simulink Using S-Functions; D.1 Example: Second-order Differential Equation.

Abstracts/Etc  

요약Autonomous unmanned air vehicles (UAVs) are critical to current and future military, civil, and commercial operations. Despite their importance, no previous textbook has accessibly introduced UAVs to students in the engineering, computer, and science disciplines--until now. Small Unmanned Aircraft provides a concise but comprehensive description of the key concepts and technologies underlying the dynamics, control, and guidance of fixed-wing unmanned aircraft, and enables all students with an introductory-level background in controls or robotics to enter this exciting and important area. The a.

Subject Added Entry-Topical Term  

Engineering

Subject Added Entry-Topical Term  

Military Science

Subject Added Entry-Topical Term  

Drone aircraft Control systems

Subject Added Entry-Topical Term  

Drone aircraft Automatic control

Subject Added Entry-Topical Term  

Guidance systems (Flight)

Subject Added Entry-Topical Term  

TECHNOLOGY & ENGINEERING / Military Science.

Subject Added Entry-Topical Term  

MATHEMATICS / Applied.

Added Entry-Personal Name  

McLain, Timothy W.

Additional Physical Form Entry  

Print versionBeard, Randal W. Small Unmanned Aircraft : Theory and Practice Princeton : Princeton University Press, c2012 9780691149219

Electronic Location and Access  

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Control Number  

joongbu:423366