Guidance and Control of Unmanned Vehicles demonstrates how the developed guidance laws for UAVs can be applied to a wide class of unmanned vehicles, including aerial, ground, water, and underwater vehicles. This new edition formulates an expanded guidance problem and guidance laws that can be applied to all unmanned vehicles.
Guidance and Control of Unmanned Vehicles demonstrates how the developed guidance laws for UAVs can be applied to a wide class of unmanned vehicles, including aerial, ground, water, and underwater vehicles.
Drawing upon the author’s innovative approach, this new edition presents a rigorous theory of guidance based on the parallel navigation rule and formulates an expanded guidance problem and guidance laws that can be applied to all unmanned vehicles. It includes a new chapter on the role of unmanned vehicle operators. The book also discusses the obstacle avoidance problem for unmanned vehicles and avoidance algorithms. Readers will learn how to choose optimal parameters of guidance laws based on the Lyapunov-Bellman approach.
Aerospace industry researchers and practicing engineers working on the performance of various unmanned vehicles will benefit from the new research in this book. It can also serve as a basis for several graduate courses in the fields of mechanical, aerospace, electrical, and computer engineering.
1. Basics of Guidance.
2. Control of Lateral Motion.
3. Control of
Longitudinal and Lateral Motions.
4. Analysis of Proportional
NavigationGuided Systems in the Time Domain.
5. Analysis of Proportional
NavigationGuided Systems in the Frequency Domain.
6. Design of Guidance Laws
Implementing Parallel Navigation: Frequency Domain Approach.
7. Guidance Law
Performance Analysis Under Stochastic Inputs.
8. Guidance of Unmanned
Vehicles.
9. Testing Guidance Laws Performance.
10. Integrated Design.
11.
Guidance Laws for Boost-Phase Interceptors Launched from UAVs.
12. Role of
Unmanned Vehicle Operators. Glossary Appendix A. Appendix B. Appendix C.
Appendix D. Glossary. Index
Rafael Yanushevsky was born in Kiev, Ukraine, and received a BS degree in mathematics and an MS degree, with honors, in electromechanical engineering from Kiev University, Ukraine, and the Kiev Polytechnic Institute, Ukraine, respectively. He earned his PhD in optimization of multivariable systems in 1968 from the Institute of Control Sciences of the USSR Academy of Sciences, Moscow, Russia. After immigrating to the United States in December 1987, Dr. Yanushevsky started teaching at the University of Maryland, first in the Department of Electrical Engineering, then in the Department of Mechanical Engineering. He also taught at the University of the District of Columbia, in the Department of Mathematics. Since 1999, he has been involved in projects related to the aerospace industry. He received a letter of appreciation from the Department of the Navy, the Navy Area Theater Ballistic Missile Program, in 2002. He has published over 90 papers and six books, including Guidance of Unmanned Aerial Vehicles (2011, CRC Press) and Modern Missile Guidance (2nd edition, 2019, CRC Press).
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