Monopulse Measurement with Active Electronically Scanned Arrays (AESAs)
Autor Roger A. Danaen Limba Engleză Paperback – 10 feb 2023
- Shows the relationship between monopulse theory and implementation in modern AESAs;
- Illustrates the relationship between AESA antenna gain and monopulse accuracy;
- Discusses the limitations of AESA hardware implementation on simultaneous sidelobe control and monopulse measurement.
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| Springer International Publishing – 9 feb 2022 | 569.27 lei 6-8 săpt. |
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Specificații
ISBN-13: 9783030919108
ISBN-10: 3030919102
Pagini: 99
Ilustrații: XII, 99 p. 37 illus., 34 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.17 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
ISBN-10: 3030919102
Pagini: 99
Ilustrații: XII, 99 p. 37 illus., 34 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.17 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland
Cuprins
1-Introduction.- 2-Signal-to-Noise Ratios, the Relationship Between Signals-in-Space and Received Voltages, and AESA Gain.- 3-Theory of Phase- and Amplitude-Comparison Monopulse.- 4-Sidelobe Control in Monopulse and Design Implications.- 5-Ideal One-Way Monopulse Performance.- 6-One-Way Monopulse Performance in The Real World.- 7-Two-Way (Monostatic Radar) Monopulse Performance.- 8-Other Real-World Effects on Radar Detection Range.- 9-Examples of the Use of Monopulse Measurements in Radar Target Tracking with Kalman Filters.- 10-Fidelity and Accuracy of Monopulse Measurement Simulation.- Appendix A.- Appendix B.- Appendix C
Notă biografică
Dr Roger A. Dana is a theoretical physicist by academic training with degrees from the University of Wisconsin - Madison and Stanford University. After graduate school, he worked at Hughes Aircraft Company for 3 years where he learned what decibels are and participated in the design of air defense radars. He was at Mission Research Corporation for 24 years, working on problems in global navigation, space-based radar, and satellite communications systems caused by ionospheric scintillation. The last 15 years of his career were at the Advanced Technology Center (ATC) of Collins Aerospace, where he worked at the intersection of math, physics, and electronic systems. While at ATC he developed and taught 10 short courses in the area of electronic systems and associated mathematics and mentored many in the art of aerospace engineering. He retired from full-time employment at the end of 2019, and is now a part-time consultant and teacher.
Textul de pe ultima copertă
This book describes monopulse implemented with Active Electronically Scanned Arrays (AESAs). Both phase- and amplitude-comparison monopulse are addressed. Limitations imposed by AESAs and non-ideal performance due to quantization, vector modulator noise, and element failures are discussed. The author addresses monopulse using modern low-cost AESAs where the hardware is often non-ideal and where one must carefully balance cost and complexity. The relationship between AESA antenna gain and monopulse measurement is shown and is used to construct an accurate “first-principles” simulation of the monopulse measurement process including both Additive White Gaussian Noise and non-ideal hardware effects.For those unfamiliar with monopulse, this book discusses both the theory and implementation of monopulse for application in modern AESA antennas. For those familiar with the ideal performance of monopulse, the book shows the sensitivity of monopulse accuracy to non-ideal hardware implementations, particularly in AESAs. For those familiar with both, the book discusses Monte-Carlo techniques for simulating the measurement process to obtain realistic, non-ideal monopulse performance vs signal-to-noise ratio. And for those working in radar, the book explains the relationship between one-way monopulse and the monostatic radar case with two-way propagation utilizing the same antenna for both transmit and receive.
- Shows the relationship between monopulse theory and implementation in modern AESAs;
- Illustrates the relationship between AESA antenna gain and monopulse accuracy;
- Discusses the limitations of AESA hardware implementation on simultaneous sidelobe control and monopulse measurement.
Caracteristici
Shows the relationship between monopulse theory and implementation in modern AESAs Illustrates the relationship between AESA antenna gain and monopulse accuracy Discusses the limitations of AESA hardware implementation on simultaneous sidelobe control and monopulse measurement