Tuzlukov | Target Tracking by Airborne Radar Systems | Buch | 978-1-032-52862-5 | www.sack.de

Buch, Englisch, 533 Seiten, Format (B × H): 178 mm x 254 mm, Gewicht: 453 g

Tuzlukov

Target Tracking by Airborne Radar Systems

Airborne Radar Systems and Single Target Tracking
1. Auflage 2026
ISBN: 978-1-032-52862-5
Verlag: Taylor & Francis Ltd

Airborne Radar Systems and Single Target Tracking

Buch, Englisch, 533 Seiten, Format (B × H): 178 mm x 254 mm, Gewicht: 453 g

ISBN: 978-1-032-52862-5
Verlag: Taylor & Francis Ltd

Automated target tracking is a necessary function of airborne radar and radio control systems. At the present time, there is no classified approach to design and construct principles, functioning features, methods, algorithms, and procedures of synthesis and analysis of airborne radar target tracking systems by the range, velocity, and azimuth, satisfying all long-term requirements. The first volume, Target Tracking by Airborne Radar Systems: Airborne Radar Systems and Single Target Tracking is intended to cover the demands of this uncertainty.

Key Features:

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Contains factual information about the current status of automated airborne radar target tracking systems, which will be useful for a wide range of expert participants in and out of the uniform, radio engineers, radar engineers and designers, and others

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Deals with several new perspective methods of the synthesis, analysis, and designing of airborne radar target tracking systems

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Discusses new theoretical approaches to design airborne radar target tracking systems

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Deals with the general theoretical problems of synthesis and analysis of information-controlled
systems based on the modified statistical theory of optimal control and estimation, not just classical theory

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Presents general information about the integrated on-board and control systems and possible
ways to improve the airborne radar target tracking system’s performance

Additionally, there are many application examples confirming the theoretical results. Under discussion of the specific algorithms of the airborne radar target tracking system operation, great attention is paid to the methods of synthesis and analysis of the suggested algorithms.

The procedure of algorithmic realizations is delivered in detail, which will be useful without any doubt for radio and radar engineers, radar experts, and MS and PhD students. Much attention is paid to the design problems of new airborne radar system generation and analysis of operation principles and modes.

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Zielgruppe

General

Autoren/Hrsg.

Tuzlukov, Vyacheslav

Fachgebiete

Weitere Infos & Material

PART I Theoretical Foundations: Airborne Radar Systems as a Part of Integrated Avation Suite 1. Design and Analysis of On-Board Data Processing and Control System 2. Optimal Control Algorithms for Airborne Radio Electronic Systems 3. Methods and Algorithms of Optimal Estimation 4. Integrated On-Board Information and Control Systems 5. Guidance on Aircraft and Missile. Trajectory Control Algorithms 6. New Generation of Airborne Radar Systems 7. Operation Modes of Airborne Radar Systems Part II Single Target Tracking 8. Target Range and Its Derivative Estimation at the Single Target Tracking Mode 9. Optimization of Single Air Target Tracking Modes by Range and Its Derivatives: Estimation of Air Target Range and Its Derivatives by Multistatic Radar 10. Design and Operation of Airborne Radar System Azimuthal Channels and Radar Homing Head 11. Optimization of Angle Track on Single Target Modes 12. Detection of Air Target Maneuvering and Adaptation of Auto Target Tracking Filters 13. Noise Immunity Under Single Target Tracking by Airborne Radar Systems 14. Optimization of Tactical and Information Airborne Radar System Modes Due to Trajectory Control by Observation 15. Estimations of Surface Target Coordinates

Vyacheslav Tuzlukov received his MSc and PhD degrees in radio physics from the Belarusian State University, Minsk, Belarus, in 1976 and 1990, respectively, and DSc degree in radio physics from the Kotelnikov Institute
of Radioengineering and Electronics of the Russian Academy of Sciences in 1995. From 1995 to 1998, Dr. Tuzlukov was a visiting professor at the University of San Diego, San Diego, California, USA. In 1998, Tuzlukov relocated to Adelaide, South Australia, where he served as a visiting professor at the University of Adelaide until 2000. From 2000 to 2002, he was a visiting professor at the University of Aizu, Aizu-Wakamatsu City, Fukushima, Japan, and from 2003 to 2007, he served as an invited professor at Ajou University, Suwon, South Korea, in the Department of Electrical and Computer Engineering. From March 2008 to February 2009, he was a full professor at Yeungnam University, Gyeonsang, South Korea, in the School of Electronic Engineering, Communication Engineering, and Computer Science. From March 1, 2009, Dr. Tuzlukov served as a full professor and the director of Signal Processing Lab at the Department of Communication and Information Technologies, School of Electronics Engineering, College of IT Engineering, Kyungpook National University, Daegu, South Korea. From September 2016 to May 2023, he served as the head of the Department of Technical Exploitation of Aviation and Radio Engineering Equipment, Belarusian State Academy of Aviation, Minsk, Belarus. Currently,
Dr. Tuzlukov is a full professor at Harbin Institute of Technology, China, in the School of Electronics and Information Technology. His research emphasis is on signal processing in radar, wireless communications, wireless sensor networks, remote sensing, sonar, satellite communications, mobile communications, and other signal processing systems. He is the author of over 280 journal and conference papers, and 17 books in signal processing published by CRC Press and other publishers. Some of them include Signal Detection Theory (2001), Signal Processing Noise (2002), Signal and Image Processing in Navigational Systems (2005), and Signal Processing in Radar Systems (2012). He is the editor of the book Communication Systems: New Research (2013) and has also contributed chapters “Underwater Acoustical Signal Processing” and “Satellite Communications Systems: Applications” to Electrical Engineering Handbook: 3rd Edition, (2005), CRC Press; “Generalized Approach to Signal Processing in Wireless Communications: The Main Aspects and Some Examples” to Wireless Communications and Networks: Recent Advances (2012); “Radar Sensor Detectors for Vehicle Safety Systems” to Electrical and Hybrid Vehicles: Advanced Systems, Automotive Technologies, and Environmental and Social Implications (2014) “Wireless Communications: Generalized Approach to Signal Processing” and “Radio Resource Management and Femtocell Employment in LTE Networks” to Communication Systems: New Research; “Radar Sensor Detectors for Vehicle Safety Systems” to Autonomous Vehicles: Intelligent Transport Systems and Automotive Technologies (2013); “Radar Sensor Detectors for Vehicle Safety Systems” to Autonomous Vehicles: Intelligent Transport Systems and Smart Technologies (2014); “Signal Processing by Generalized Receiver in DS-CDMA Wireless Communication Systems” to Contemporary Issues in Wireless Communications; “Detection of Spatially Distributed Signals by Generalized Receiver Using Radar Sensor Array in Wireless Communications” to Advances in Communications and Media Research; “Signal Processing by Generalized Receiver in Wireless Communication Systems over Fading Channels” to Advances in Signal Processing (2012); “Generalized Receiver: Signal Processing in DS-CDMA Wireless Communication Systems over Fading Channels” to Human Assisted Intelligent Computing: Modelling, Simulations and Applications (2022). He participates as the general chair, keynote speaker, plenary lecturer, chair of sessions, and tutorial instructor, as well as organizes Special Sections, at major international conferences and symposia on signal processing.

Dr. Tuzlukov was highly recommended by the experts from the Department of Defense Research
and Engineering (DDR&E) at the U.S. Department of Defense as a recognized expert in the field of
humanitarian demining and minefield sensing technologies and he was awarded the Special Award
from the U.S. Department of Defense in 1999. He is distinguished as one of the leading achievers
from around the world by Marquis Who’s Who, and his name and biography have been included in the
Who’s Who in the World, 2006–2013; Who’s Who in World, 25th Silver Anniversary Edition (2008);
Who’s Who in Science and Engineering, 2006–2012; Who’s Who in Science and Engineering, 10th
Anniversary Edition, 2008–2009; 2009–2010 Princeton Premier Business Leaders and Professionals
Honours Edition; 2009 Strathmore’s Who’s Who Edition; 2009 Presidental Who’s Who Edition; Who’s
Who among Executives and Professionals, 2010 Edition; Who’s Who in Asia (2012), 2nd Edition;
Top 100 Executives of 2013 Magazine; 2013–2014 Edition of the Global Professional Network 2013;
2013–2014 Edition of the Who’s Who Network Online; Online Professional Gateway, 2014 Edition;
2014 Worldwide Who’s Who; 2015 Strathmore Professional Biographies; Who’s Who in World, 2015;
2015–2016 Membership in Exclusive Top 100 network of professionals in the world, NY, USA,
2015; 2015 Who’s Who of Executives and Professionals, Honours Edition; and Worldwide Who’s
Who – Top 100 Business Networking, 2015.

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