Your search keyword '"nonlinear radar"' showing total 87 results

1. A Compact Low-Loss Reflection-Type Harmonic Transponder for Battery-less RFID Sensors Based on Harmonic Backscattering

Author

Daju Lee and Juntaek Oh

Subjects

backscattering, dual-band matching network (dbmn), harmonic transponder, nonlinear radar, rfid sensors, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Electricity and magnetism, QC501-766

Abstract

This study presents a compact reflection-type harmonic transponder with a wide input power range for battery-less radio-frequency identification (RFID) sensors based on harmonic backscattering. Miniaturizing the circuit size of conventional harmonic transponders is difficult because the input and output matching stages are configured separately, and two antennas are used for each port. The proposed harmonic transponder based on a dual-band matching network matches the load simultaneously at the fundamental and second harmonic frequencies over a wide input power range, thus enhancing the conversion gain (CG) with a compact size. For verification, the proposed transponder is implemented in a compact size with dimensions of 19 mm × 17.8 mm. The measured CG of the implemented transponder is maintained at over −10 dB in the wide input power range of −6.4 to 10.6 dBm at 2.45 GHz. The harmonic transponder is configured with a dual-band chip antenna and measured in free space to verify whether it is suitable for battery-less RFID sensors. The measured detectable effective distance to the proposed circuit is 6.3 m in free space, with an equivalent isotropically radiated power of 42.6 dBm.

Published

2023

2. A C-Band Intermodulation Radar System for Target Motion Discrimination

Author

Mishra, Ashish, Li, Changzhi, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Suryadevara, Nagender Kumar, editor, George, Boby, editor, Jayasundera, Krishanthi P., editor, Roy, Joyanta Kumar, editor, and Mukhopadhyay, Subhas Chandra, editor

Published

2022

3. 넓은 입력전력 범위를 갖는 S-대역광대역고조파응답기.

Author

김 선 규, 김 지 수, and 오 준 택

Subjects

CIRCUIT complexity, INSERTION loss (Telecommunication), TRANSPONDERS, RADAR, SIGNALS & signaling, MOSQUITO nets, NONLINEAR oscillators

Abstract

This paper presents a through-type harmonic transponder for S-band nonlinear radar. To increase the operating frequency range, a 2-stage L-shaped matching network was configured for the input and output matching networks. In previous studies, conventional har- monic transponders were configured with λ/4 stubs in the input and output matching networks to minimize the influence of these net- works because the impedance mismatch suppresses the second harmonic and fundamental signals. However, in this design, a λ/4 open stub was utilized at the output and configured with the output matching network to alleviate the insertion loss of the additional open stub. For verification, the proposed circuit was implemented with the circuit size of 37.6 mm×16.1 mm. The measurement results show that the conversion gain is maintained over −15 dB for frequencies between 2.8∼3.8 GHz at −5.5 dBm and −17.5~11 dBm at 3.1 GHz of input power. [ABSTRACT FROM AUTHOR]

Published

2023

4. 915 MHz 통과형 저손실 고조파 응답기 설계.

Author

조 선 앵, 김 지 수, and 오 준 택

Subjects

IMPEDANCE control, TRANSPONDERS, RADAR, DETECTORS

Abstract

This paper presents a 915 MHz low-loss harmonic transponder for harmonic radar sensors. The proposed through-type harmonic transponder comprises an input and output matching network with an independent impedance control circuit. This control circuit enables the independent matching of the input and output loads. The circuit minimizes the impedance influence between the input and output matching networks, regardless of the impedance change of the input and output terminals according to the internal and external environments. The designed harmonic transponder was implemented and its performance was measured. The results show that the conversion gain of the proposed circuit is >-10 dB over a wide input power range of -20-0 dBm. Furthermore, the implemented circuit maintains the conversion gain of over -11.5 dB and the low fundamental output power of under -32.2 dBm in the frequency range of 900-930 MHz. [ABSTRACT FROM AUTHOR]

Published

2022

5. 고차 고조파 방사가 억제된 능동위상배열안테나 설계.

Author

정 태 용, 이 동 근, and 황금철

Subjects

POWER dividers, ANTENNA arrays, ANTENNA design, PHASED array antennas, COAXIAL cables, ANTENNAS (Electronics)

Abstract

In this paper, we propose an active phased-array antenna design applicable to nonlinear radar systems. The operating frequency of the array antenna is 3∼3.2 GHz, and the antenna comprises a triangular grid with a size of 5×5. A coaxial-type low-pass filter is inserted into the feeding part of the array antenna to suppress radiation from the second harmonic. The measured maximum gain of a single radiating element in the operating frequency band is 5.42 dBi, and the gain in the harmonic band is –28.85 dBi. The calibrated and simulated gains of the array antenna, which are compensated for the loss of the coaxial line and the power dividers, are 19.2 dBi and 19.3 dBi, respectively. [ABSTRACT FROM AUTHOR]

Published

2022

6. Detection of Electronic Devices Using FMCW Nonlinear Radar.

Author

Cha, Kyuho, Oh, Sooyoung, Hong, Hayoung, Park, Hongsoo, and Hong, Sun K.

Subjects

*RADAR cross sections, *RADAR targets, *RADAR, *ELECTRONIC equipment, *NONLINEAR oscillators, *SIGNAL detection

Abstract

Nonlinear radars can be utilized to detect electronic devices, which are difficult to detect with conventional radars due to their small radar cross sections (RCS). Since the receiver in a nonlinear radar is designed to only receive harmonic or intermodulated echoes from electronic devices, it is able to separate electronic devices from non-electronic scatters (clutter) by rejecting their echoes at fundamental frequencies. This paper presents a harmonic-based nonlinear radar scheme utilizing frequency-modulated continuous-wave (FMCW) signals for the detection of various electronic devices at short range. Using a laboratory experiment setup for FMCW radar at S-band for Tx (C-band for Rx), measurements are carried out to detect electronic devices of various sizes. The results show that the detection of small electronic devices is possible with nonlinear FMCW radar when appropriate system parameters are selected. Furthermore, we also discuss the maximum detectable range estimation for electronic targets using the radar range equation for FMCW nonlinear radar. [ABSTRACT FROM AUTHOR]

Published

2022

7. SVM 분류기를 이용한 비선형 FMCW 레이다 표적 인식.

Author

이 원 렬, 홍 하 영, and 홍 순 기

Subjects

SUPPORT vector machines, ELECTRONIC equipment, MACHINE learning, RADAR, NONLINEAR oscillators, CLASSIFICATION algorithms

Abstract

In this paper, a method for nonlinear target recognition via machine learning is presented. The nonlinear radar environment used in this study was a frequency-modulated continuous-wave (FMCW) nonlinear radar with a transmit frequency band of 3.0∼3.2 GHz and received a frequency band of 6∼6.4 GHz corresponding to the second harmonics. Nonlinear radar measurements were performed using four types of electronic devices as nonlinear targets. Statistical parameters were extracted from the measured amplitude spectrum of the received harmonic responses for each target to successfully construct a classification algorithm. The extracted characteristic data were then used to construct and verify a support vector machine (SVM) classifier. The accuracy of the target classification by the trained SVM classifier was confirmed through verification data, and an accuracy of 85 % with 10-fold cross-validation was demonstrated. [ABSTRACT FROM AUTHOR]

Published

2022

8. Circularly Polarized S / C Dual-Band Antenna for Nonlinear Detection.

Author

Oh, Sooyoung, Park, Hong Soo, Oh, Juntaek, and Hong, Sun K.

Abstract

Nonlinear radars detect nonlinear (harmonic or intermodulation) responses excited from semiconductor junctions within electronic targets, allowing for the detection of small targets that are otherwise difficult to detect. To properly detect the nonlinear responses from targets, which are typically much lower than the responses at the fundamental frequency, the transmit, and receive antennas in a nonlinear radar, must ensure high isolation between the transmit and receive ports to suppress unwanted harmonics from the transmit side interfering with target responses. In this letter, a circularly polarized dual-band shared-aperture antenna, applicable to nonlinear radar, is presented. The S-band part of the antenna has a center frequency of 3 GHz for transmit, while the C-band part is designed to operate at the second-harmonic band of 6 GHz for receive. The proposed antenna is designed to exhibit high isolation between the transmit and receive ports in both bands. The characteristics of the proposed antenna are demonstrated via simulation and measurement, where it shows good circular polarization (CP) characteristics at both S-and C-bands with high isolation between ports. Furthermore, the performance of the proposed antenna for nonlinear detection is verified through an experiment where a nonlinear target is detected. [ABSTRACT FROM AUTHOR]

Published

2022

9. Harmonic Radar With Adaptively Phase-Coherent Auxiliary Transmitters.

Author

Lavrenko, Anastasia, Cavers, James K., and Woodward, Graeme K.

Subjects

*TRANSMITTERS (Communication), *RADAR, *SIGNAL-to-noise ratio

Abstract

In harmonic radar (HR), the transmitter illuminates a nonlinear target (the tag), causing the return signal to consist of harmonics at multiples of the transmitted carrier frequency. Of them, the second harmonic is usually the strongest and the one to which the receiver is tuned. This frequency difference distinguishes the tag reflection from environmental clutter, which remains at the illuminating frequency. However, the passive nature of HR tags severely limits the reflected power, and therefore the operational range of a HR system. We propose to increase the range and/or signal to noise ratio (SNR) by novel restructuring at the physical and signal levels. For this, we accompany the original transmitter with auxiliary transmitters able to send simple tones that are synchronized to arrive at the tag in phase, and we design the receiver to detect an intermodulation component. The resulting range and SNR are much greater than those of the original, conventional HR system, even if the original system were to transmit with power equal to the aggregate power of the proposed system. Achieving mutually coherent, (in phase), arrival of the tones at the tag is the focus of the present paper. We provide a system framework that models the tag, then present the adaptive phase coherence algorithm and analyze the probabilistic growth of the output signal power. We also account for the effects of frequency shifts due to transmitter mobility and the frequency offset errors in the transmitter local oscillators. [ABSTRACT FROM AUTHOR]

Published

2022

10. 고조파 제어 매칭단 기반 S-대역 GaN HEMT 전력 증폭기.

Author

장 재 원, 김 지 수, and 오 준 택

Subjects

IMPEDANCE matching, RADAR

Abstract

This paper presents a high-efficiency power amplifier based on a harmonic control matching network. We proposed a harmonic control matching network based on a Chebyshev filter that can match the load to the optimum power matching impedance at fundamental and harmonic frequencies as well as block harmonic signals. The power amplifier applied to the proposed harmonic control matching network has high efficiency and excellent harmonic suppression performance without an additional low-pass filter. The fabrication and measurements were conducted to verify the proposed circuit. The implemented power amplifier achieved 61.3～76.3% drain efficiency in the frequency band of 2.8～3.2 GHz, and it was shown that a second harmonic suppression of under −46 dBc was achieved. [ABSTRACT FROM AUTHOR]

Published

2021

11. Utilizing Passive Intermodulation Response of Frequency-Modulated Continuous-Wave Signal for Target Identification and Mapping.

Author

Mishra, Ashish, Wang, Jing, Rodriguez, Daniel, and Li, Changzhi

Abstract

In this paper, a passive-intermodulation-based tracking system working with a frequency-modulated continuous-wave (FMCW) is proposed for target identification and localization. Signals in the microwave range are chosen to realize ranging purposes for the benefits of small device size, lightweight, and wide available bandwidth. Depending on whether the nonlinear properties of electrical components, such as diodes, transistors, and mixers, are exploited, the tracking systems can be categorized as linear and nonlinear systems. By nature, the linear tracking methods are vulnerable to surrounding clutter, such as furniture, walls, and other objects, since the reflection signals from clutter are of the same nature as the target. In comparison, the nonlinear detection methods are attractive owning to the fact that the majority of the clutter does not possess nonlinear properties. Hence, the nonlinear detection system does not “see” the linear clutter and only senses the target exhibiting nonlinear responses. Among all the nonlinear technologies, the intermodulation-based tracking and mapping approach has less path loss than the harmonic-based, smaller circuit size than the subharmonic-based, and simpler tag design and fewer signal licenses required than both of its counterparts. Therefore, in this work, the intermodulation-based technology is adopted, and a new nonlinear tracking system is designed to track the distance of the target in a complex indoor scenario crowded with unwanted objects. [ABSTRACT FROM AUTHOR]

Published

2021

12. Detection of Electronic Devices Using FMCW Nonlinear Radar

Author

Kyuho Cha, Sooyoung Oh, Hayoung Hong, Hongsoo Park, and Sun K. Hong

Subjects

nonlinear radar, harmonic radar, FMCW, nonlinear RCS, nonlinear junction detection, Chemical technology, TP1-1185

Abstract

Nonlinear radars can be utilized to detect electronic devices, which are difficult to detect with conventional radars due to their small radar cross sections (RCS). Since the receiver in a nonlinear radar is designed to only receive harmonic or intermodulated echoes from electronic devices, it is able to separate electronic devices from non-electronic scatters (clutter) by rejecting their echoes at fundamental frequencies. This paper presents a harmonic-based nonlinear radar scheme utilizing frequency-modulated continuous-wave (FMCW) signals for the detection of various electronic devices at short range. Using a laboratory experiment setup for FMCW radar at S-band for Tx (C-band for Rx), measurements are carried out to detect electronic devices of various sizes. The results show that the detection of small electronic devices is possible with nonlinear FMCW radar when appropriate system parameters are selected. Furthermore, we also discuss the maximum detectable range estimation for electronic targets using the radar range equation for FMCW nonlinear radar.

Published

2022

13. A Review: Recent Progress in the Design and Development of Nonlinear Radars

Author

Ashish Mishra and Changzhi Li

Subjects

harmonic, intermodulation, sub-harmonic, clutter rejection, nonlinear radar, Science

Abstract

This paper presents an extensive review of nonlinear response-based radar systems. Nonlinear radars are generally used for clutter suppression purposes. These radars detect the nonlinear response generated by diodes and transistors are used as a tag for target localization. Utilizing the nonlinearity properties of these devices, these radars have been used for purposes including locating humans trapped in earthquakes and avalanches, identifying migratory patterns of animals, examining the flight pattern of bees, and detecting bugs in electronic devices. This paper covers the utilization of these radars in human vital signs monitoring, detecting targets in a clutter-rich environment, etc. State-of-the-art nonlinear radars’ high-level architectures, design challenges, and limitations are discussed here. Recent works and results obtained by the authors are also summarized.

Published

2021

14. First SIMO Harmonic Radar Based on the SFCW Concept and the HR Transfer Function

Author

Holger Heuermann, Thomas Harzheim, and Tobias Cronenbroeck

Subjects

SIMO, MIMO, nonlinear radar, harmonic radar, HR, SFCW, Science

Abstract

This paper presents a new SIMO radar system based on a harmonic radar (HR) stepped frequency continuous wave (SFCW) architecture. Simple tags that can be electronically individually activated and deactivated via a DC control voltage were developed and combined to form an MO array field. This HR operates in the entire 2.45 GHz ISM band for transmitting the illumination signal and receives at twice the stimulus frequency and bandwidth centered around 4.9 GHz. This paper presents the development, the basic theory of a HR system for the characterization of objects placed into the propagation path in-between the radar and the reflectors (similar to a free-space measurement with a network analyzer) as well as first measurements performed by the system. Further detailed measurement series will be made available later on to other researchers to develop AI and machine learning based signal processing routines or synthetic aperture radar algorithms for imaging, object recognition, and feature extraction. For this purpose, the necessary information is published in this paper. It is explained in detail why this SIMO-HR can be an attractive solution augmenting or replacing existing systems for radar measurements in production technology for material under test measurements and as a simplified MIMO system. The novel HR transfer function, which is a basis for researchers and developers for material characterization or imaging algorithms, is introduced and metrologically verified in a well traceable coaxial setup.

Published

2021

15. Classification of Electronic Devices With Power-Swept Signals Using Harmonic Radar.

Author

Hayvaci, Harun Taha, Ilbegi, Handan, and Yetik, Imam Samil

Subjects

*MONTE Carlo method, *ELECTRONIC equipment, *RADAR, *ELECTRONIC circuits, *SIGNAL-to-noise ratio, *CLASSIFICATION, *VARISTORS

Abstract

A novel approach for classification of electronic devices using a harmonic radar is proposed in this article. We transmit single-tone time-varying signals with varying power to the electronic circuits under test (ECUTs). The novelty of the proposed approach stems from representing the harmonic response of the ECUT in the harmonic and statistical feature spaces. Besides, as a new approach, we sweep the transmitting power to capture the nonlinear behavior relevant to nonlinear $I\text{--}V$ characteristics of the ECUT. Furthermore, we utilize both the time and frequency content of the received harmonic response. Statistical and Fourier domain features of the received power levels at harmonic frequencies are determined and used for classification. $k$ -nearest neighbors is chosen as the classification method. We demonstrate the effectiveness of our method in the presence of noise through Monte Carlo simulations with different signal-to-noise ratio values. Extensive simulation studies show that our new approach of power-swept signals and new features we have developed are very effective at classifying nonlinear devices. [ABSTRACT FROM AUTHOR]

Published

2020

16. Performance Analysis of Feature Sets for Harmonic Radar to Classify Electronic Devices

Author

Hayvacı, H.T., Yetik, I.S., İlbeği, H., Hayvacı, H.T., Yetik, I.S., and İlbeği, H.

Abstract

6th International Symposium on Multidisciplinary Studies and Innovative Technologies, ISMSIT 2022 -- 20 October 2022 through 22 October 2022 -- 184355, In this study, we exploit new feature sets to classify electronic devices via harmonic radar. Nonlinear characteristics of the devices are recorded as a response to a frequency-swept signal with constant power. The harmonic characteristics of electronic devices are described by statistical and Fourier feature sets. Contrary to previous studies, statistical and Fourier feature sets are composed of both feature parameters and harmonic information. Exploiting these feature sets provides a good baseline for performance comparison rather than analyzing the classification performance of the harmonics individually. The performance assessment is performed by Monte Carlo simulations. © 2022 IEEE.

Published

2023

17. A Low Power 5.8-GHz ISM-Band Intermodulation Radar System for Target Motion Discrimination.

Author

Mishra, Ashish and Li, Changzhi

Abstract

This paper discusses the design and test of an intermodulation radar receiver and a nonlinear tag operating in the 5.8-GHz industrial, scientific, and medical (ISM) band. To discriminate reflections of the target-generated 3rd-order intermodulation frequencies from the clutter-reflected fundamental tones, the receiver was designed to attenuate the fundamental reflections and amplify the lower 3rd-order tone generated by the nonlinear target. The nonlinear tag was designed on a flexible substrate for wearable applications. Experiments were performed with two types of targets, i.e., the nonlinear tag and a metal reflector. Various experiments were performed to demonstrate the clutter rejection capability of the radar, i.e., mechanical motion and vital sign detection of a human target in the presence of multiple clutter. Four experiments were recorded and analyzed in this paper. The results were recorded and analyzed to demonstrate the clutter noise rejection capability of the intermodulation radar. [ABSTRACT FROM AUTHOR]

Published

2019

18. Static and Moving Target Imaging Using Harmonic Radar.

Author

Gallagher, Kyle A., Narayanan, Ram M., Mazzaro, Gregory J., Martone, Anthony F., and Sherbondy, Kelly D.

Subjects

MOVING target indicator radar, ELECTRICAL harmonics, SCHOTTKY barrier diodes, RADIO frequency, RADAR

Abstract

Nonlinear radar exploits the difference in frequency between radar waves that illuminate and are reflected from electromagnetically nonlinear targets. Harmonic radar is a special type of nonlinear radar that transmits one or multiple frequencies and listens for frequencies at or near their harmonics. Nonlinear radar differs from traditional linear radar by offering high clutter rejection and is particularly suited to the detection of devices containing metals and semiconductors. Examples include tags for tracking insects, tags worn by humans for avoiding collisions with vehicles, or for monitoring vital signs. Such tags contain a radio-frequency (RF) nonlinearity, often a Schottky diode, connected to a suitable antenna. Targets with inherent nonlinearities, such as metal contacts, semiconductors, transmission lines, antennas, filters, and ferroelectrics, also respond to nonlinear radar. In this paper, the successful exploitation of harmonic radar for moving target imaging and synthetic aperture imaging of targets, while suppressing clutter signals from linear targets, are presented. Our results demonstrate some unique advantages of harmonic radar over its traditional linear counterpart. [ABSTRACT FROM AUTHOR]

Published

2017

19. ШИРОКОСМУГОВІ РОЗСІЮВАЧІ В ЗАДАЧАХ НЕЛІНІЙНОЇ РАДІОЛОКАЦІЇ

Author

Зінченко, М. В. and Зіньковський, Ю. Ф.

Abstract

Copyright of Radio Electronics, Computer Science, Control is the property of Zaporizhzhia National Technical University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

20. ОЦІНЮВАННЯ ПОКАЗНИКІВ ПРИЗНАЧЕННЯ НЕЛІНІЙНИХ РАДІОЛОКАТОРІВ.

Author

Зіньковський, Ю. Ф. and Прокофьєв, М. І.

Abstract

For nonlinear radar certification/expertise the two-armed plane spiral antenna with matched nonlinear load is proposed as a single simulator of secret intelligence device because it serves the following requirements: broadband; has elliptical polarization; structurally capable of high reproducibility parameters; aimed at providing transmission capacity; has high efficiency; provides a set level of conformity with the nonlinear element. Due to it the normative estimation of the maximum coverage range of the nonlinear radar is made. [ABSTRACT FROM AUTHOR]

Published

2015

21. Generalized Wideband Harmonic Imaging of Nonlinearly Loaded Scatterers.

Author

Liao, DaHan

Subjects

*BROADBAND communication systems, *ELECTROMAGNETIC wave scattering, *NONLINEAR systems, *ELECTRICAL harmonics, *SCATTERING (Physics), *MOMENTS method (Statistics)

Abstract

Wideband electromagnetic sensing and imaging of nonlinearly loaded scatterers is considered. Harmonic scattering theory is first presented, and then a generalized near-field, direct imaging functional is proposed for free-space and near-ground target localization within the context of forward-looking radar standoff detection exploiting sequential single-tone excitation. The developed scattering and imaging analysis framework is illustrated for point-like and extended targets through numerical experiments performed with a hybrid method-of-moments solver, in conjunction with a harmonic balance approach and an asymptotic field propagation technique. The steady-state harmonic scattering responses are examined in the time, frequency, and image domains for scatterers in free-space and half-space environments, and accurate target localization is demonstrated in all cases for each harmonic order considered. [ABSTRACT FROM PUBLISHER]

Published

2015

22. Classification of Electronic Devices With Power-Swept Signals Using Harmonic Radar

Author

Yetik, İmam Şamil, İlbeği, Handan, Hayvacı, Harun Taha, Yetik, İmam Şamil, İlbeği, Handan, and Hayvacı, Harun Taha

Abstract

A novel approach for classification of electronic devices using a harmonic radar is proposed in this article. We transmit single-tone time-varying signals with varying power to the electronic circuits under test (ECUTs). The novelty of the proposed approach stems from representing the harmonic response of the ECUT in the harmonic and statistical feature spaces. Besides, as a new approach, we sweep the transmitting power to capture the nonlinear behavior relevant to nonlinear I - V characteristics of the ECUT. Furthermore, we utilize both the time and frequency content of the received harmonic response. Statistical and Fourier domain features of the received power levels at harmonic frequencies are determined and used for classification. k-nearest neighbors is chosen as the classification method. We demonstrate the effectiveness of our method in the presence of noise through Monte Carlo simulations with different signal-to-noise ratio values. Extensive simulation studies show that our new approach of power-swept signals and new features we have developed are very effective at classifying nonlinear devices. © 1965-2011 IEEE.

Published

2020

23. Classification of Electronic Devices With Power-Swept Signals Using Harmonic Radar

Author

İlbeği, Handan, Yetik, İmam Şamil, Hayvacı, Harun Taha, İlbeği, Handan, Yetik, İmam Şamil, and Hayvacı, Harun Taha

Abstract

A novel approach for classification of electronic devices using a harmonic radar is proposed in this article. We transmit single-tone time-varying signals with varying power to the electronic circuits under test (ECUTs). The novelty of the proposed approach stems from representing the harmonic response of the ECUT in the harmonic and statistical feature spaces. Besides, as a new approach, we sweep the transmitting power to capture the nonlinear behavior relevant to nonlinear I - V characteristics of the ECUT. Furthermore, we utilize both the time and frequency content of the received harmonic response. Statistical and Fourier domain features of the received power levels at harmonic frequencies are determined and used for classification. k-nearest neighbors is chosen as the classification method. We demonstrate the effectiveness of our method in the presence of noise through Monte Carlo simulations with different signal-to-noise ratio values. Extensive simulation studies show that our new approach of power-swept signals and new features we have developed are very effective at classifying nonlinear devices. © 1965-2011 IEEE.

Published

2020

24. Distinguishing Electronic Devices Using Fourier Features Derived from Harmonic Radar

Author

İlbeği, H., Hayvacı, Harun Taha, Yetik, I. S., İlbeği, H., Hayvacı, Harun Taha, and Yetik, I. S.

Abstract

In this paper, a novel technique to distinguish between multiple types of electronic circuits using nonlinear radar is presented. The transmitter transmits a single tone signal to the targets, and harmonic responses are utilized to detect and distinguish non-linear electronic devices. Contrary to previous studies, the power of the transmitted signal is swept within a determined range. Then, first five harmonics of the received signal are analyzed. We utilize the information related to the frequency content using Fourier Transforms of the received harmonics are analyzed. We show that the energy levels of the Fourier Transforms can be used to classify various nonlinear electronic devices.

Published

2019

25. Distinguishing Electronic Devices Using Harmonic Radar

Author

Yetik, İmam Şamil, İlbeği, Handan, Yılmaz, Asım Egemen, Hayvacı, Harun Taha, Yetik, İmam Şamil, İlbeği, Handan, Yılmaz, Asım Egemen, and Hayvacı, Harun Taha

Abstract

A new approach to distinguishing electronic circuits using nonlinear/harmonic radar is presented in this paper. The radar transmits a single tone signal to the electronic circuits, consisting of nonlinear components, and exploits received harmonic response for separation. Unlike previous studies, the transmitted signal power is swept within a determined range so that the received powers at each harmonic are analyzed to capture the nonlinear characteristics. To predict the behavior of the nonlinear circuits such as diode clamper, diode limiter and full wave rectifier, certain statistical features of the received powers are analyzed. We show that the received power at the harmonics are distinctive for each circuit using Euclidean distances of features in feature space.

Published

2019

26. Distinguishing Electronic Devices Using Fourier Features Derived from Harmonic Radar

Author

Yetik, I. S., Hayvacı, Harun Taha, İlbeği, H., Yetik, I. S., Hayvacı, Harun Taha, and İlbeği, H.

Abstract

In this paper, a novel technique to distinguish between multiple types of electronic circuits using nonlinear radar is presented. The transmitter transmits a single tone signal to the targets, and harmonic responses are utilized to detect and distinguish non-linear electronic devices. Contrary to previous studies, the power of the transmitted signal is swept within a determined range. Then, first five harmonics of the received signal are analyzed. We utilize the information related to the frequency content using Fourier Transforms of the received harmonics are analyzed. We show that the energy levels of the Fourier Transforms can be used to classify various nonlinear electronic devices.

Published

2019

27. Distinguishing Electronic Devices Using Harmonic Radar

Author

İlbeği, Handan, Yılmaz, Asım Egemen, Hayvacı, Harun Taha, Yetik, İmam Şamil, İlbeği, Handan, Yılmaz, Asım Egemen, Hayvacı, Harun Taha, and Yetik, İmam Şamil

Abstract

A new approach to distinguishing electronic circuits using nonlinear/harmonic radar is presented in this paper. The radar transmits a single tone signal to the electronic circuits, consisting of nonlinear components, and exploits received harmonic response for separation. Unlike previous studies, the transmitted signal power is swept within a determined range so that the received powers at each harmonic are analyzed to capture the nonlinear characteristics. To predict the behavior of the nonlinear circuits such as diode clamper, diode limiter and full wave rectifier, certain statistical features of the received powers are analyzed. We show that the received power at the harmonics are distinctive for each circuit using Euclidean distances of features in feature space.

Published

2019

28. First SIMO Harmonic Radar Based on the SFCW Concept and the HR Transfer Function.

Author

Heuermann, Holger, Harzheim, Thomas, and Cronenbroeck, Tobias

Subjects

*SYNTHETIC aperture radar, *TRANSFER functions, *SYNTHETIC apertures, *RADAR, *SIGNAL processing, *METAL oxide semiconductor field, *MIMO systems

Abstract

This paper presents a new SIMO radar system based on a harmonic radar (HR) stepped frequency continuous wave (SFCW) architecture. Simple tags that can be electronically individually activated and deactivated via a DC control voltage were developed and combined to form an MO array field. This HR operates in the entire 2.45 GHz ISM band for transmitting the illumination signal and receives at twice the stimulus frequency and bandwidth centered around 4.9 GHz. This paper presents the development, the basic theory of a HR system for the characterization of objects placed into the propagation path in-between the radar and the reflectors (similar to a free-space measurement with a network analyzer) as well as first measurements performed by the system. Further detailed measurement series will be made available later on to other researchers to develop AI and machine learning based signal processing routines or synthetic aperture radar algorithms for imaging, object recognition, and feature extraction. For this purpose, the necessary information is published in this paper. It is explained in detail why this SIMO-HR can be an attractive solution augmenting or replacing existing systems for radar measurements in production technology for material under test measurements and as a simplified MIMO system. The novel HR transfer function, which is a basis for researchers and developers for material characterization or imaging algorithms, is introduced and metrologically verified in a well traceable coaxial setup. [ABSTRACT FROM AUTHOR]

Published

2021

29. A Review: Recent Progress in the Design and Development of Nonlinear Radars.

Author

Mishra, Ashish and Li, Changzhi

Subjects

*ELECTRONIC equipment, *EAVESDROPPING, *MIGRATORY animals, *NONLINEAR oscillators, *DIODES, *VITAL signs, *RADAR

Abstract

This paper presents an extensive review of nonlinear response-based radar systems. Nonlinear radars are generally used for clutter suppression purposes. These radars detect the nonlinear response generated by diodes and transistors are used as a tag for target localization. Utilizing the nonlinearity properties of these devices, these radars have been used for purposes including locating humans trapped in earthquakes and avalanches, identifying migratory patterns of animals, examining the flight pattern of bees, and detecting bugs in electronic devices. This paper covers the utilization of these radars in human vital signs monitoring, detecting targets in a clutter-rich environment, etc. State-of-the-art nonlinear radars' high-level architectures, design challenges, and limitations are discussed here. Recent works and results obtained by the authors are also summarized. [ABSTRACT FROM AUTHOR]

Published

2021

30. Observation Characteristics of a Nonlinear Radar Subject to Noise.

Author

Belyaev, V., Didkovskii, L., Mayunov, A., and Razin'kov, S.

Abstract

The Neumann-Pearson test is employed on measurements of secondary radiation power at the second and third harmonics of the probe signal to examine the observation characteristics for nonlinear radar with allowance for the noise due to fluctuations in the scattered field. [ABSTRACT FROM AUTHOR]

Published

2003

31. High resolution harmonic radar imaging for safety and security applications

Author

Andreas Heinzel, Eric Schreiber, Matthias Jirousek, Markus Peichl, and Florian Bischeltsrieder

Subjects

radar imaging, high resolution imaging, Computer science, Harmonic radar, High resolution, robust capon, nonlinear radar, harmonic radar, wideband, Remote sensing, synthetic aperture radar

Published

2019

32. Інверсія співвідношень рівнів гармонік демаскуючого сигналу в нелінійній радіолокації

Author

Phuc Vo Duy, Yu. F. Zinkovskiy, and M. V. Zinchenko

Subjects

621.37, 621.391, Physics, Nonlinear system, нелінійна радіолокація, достовірність ідентифікації закладних пристроїв, радіоелектронні пристрої на тунельних діодах, law, Acoustics, Harmonics, нелинейная радиолокация, достоверность идентификации закладных устройств, радиоэлектронные устройства на туннельных диодах, nonlinear radar, reliability of mortgage devices identification, radio-electronic devices on tunnel diodes, Radar, Signal, law.invention

Abstract

Questions of identification of the mortgage devices (MD) on tunnel diodes which are in a waiting mode or work for record in memory of a chip, by means of nonlinear radars are considered. Conditions of change of a ratio on opposite between levels of spectral components of a scattered signal when sounding by the nonlinear radar of the considered class of mortgage devices are investigated. Inverse change of this ratio significantly worsens reliability of an identification sign of nonlinear scatterers based on the ratio of levels of multiple harmonics of a response signal. It is shown that a N-like form of the volt-ampere characteristic (VAC) of the nonlinear devices which are a part of the scatterer, amplitude of the induced signal and shift of a working point to VAC are the reasons of inversion in the ratio of levels of harmonics of the reradiated signal. Influence of a VAC form of the tunnel diode on reliability of identification of the MD introduction of the approximating dimensionless coefficients in the way and is analyzed. It is offered to use new variables not only for the characteristic of a curve form, but also for an assessment of reliability of MD identification based on the ratio of harmonics levels of the unmasking signal in general. The analysis of an identification sign of scatterers based on the ratio of levels of multiple harmonicas by means of parameters also allows to minimize influence of unreliable operating modes of nonlinear radars on efficiency of carrying out search actions., Показано, что N-подобная форма вольт-амперной характеристики (ВАХ) нелинейных приборов, входящих в состав рассеивателя, является одной из причин инверсии в соотношении уровней гармоник переизлученного сигнала. Это приводит к снижению эффективности использования нелинейного радиолокатора при выявлении закладных устройств на туннельных диодах. При анализе последних предложено ввести аппроксимирующие безразмерные коэффициенты и , которые характеризуют не только форму ВАХ, но и достоверность идентификации закладных устройств по соотношению уровней гармоник демаскирующего сигнала в целом., Показано, що N-подібна форма вольт-амперної характеристики (ВАХ) нелінійних приладів, що входять до складу розсіювача, є однією з причин інверсії в співвідношенні рівнів гармонік перевипромененого сигналу. Це призводить до зниження ефективності використання нелінійного радіолокатора при виявленні закладних пристроїв на тунельних діодах. При аналізі останніх запропоновано ввести апроксимуючі безрозмірні коефіцієнти та , які характеризують не лише форму ВАХ, але і достовірність ідентифікації закладних пристроїв по співвідношенню рівнів гармонік демаскуючого сигналу в цілому.

Published

2016

33. Détection à distance d’électroniques par l’intermodulation

Author

Martorell, Alexandre, Institut d’Electronique et des Systèmes (IES), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Université Montpellier, Laurent Chusseau, and Jérémy Raoult

Subjects

RF injection test, Electromagnetic susceptibility, Susceptibilité electromagnétique, Test d'injection RF, Electronique non-linéaire, Nonlinear radar, Intermodulation distortion, Radar non-linéaire, Récepteur radio, Distorsion intermodulation, Nonlinear electronic, RF front-End, [SPI.TRON]Engineering Sciences [physics]/Electronics

Abstract

Electromagnetism, security and electronic warfare have been closely linked for decades. Their association gathers applications of radar surveillance, neutralization of electronic systems or detection of hidden electronics. Today, the multiplication of IEDs (Improvised Explosive Devices) both in theatres of operation and in urban environments leads to the need for their detection. The works of this thesis can enter into this theme and propose a new alternative that allows to highlight the presence of hidden RF receivers. The nonlinear radar is particularly suitable for detecting devices containing metals and (electronic) semiconductors. A popular technique is to transmit a single frequency f1 and receive the second harmonic generated by the target. Another less common technique consists of transmitting two frequencies, f1 and f2, and receiving intermodulation products of order 3 (2f1 - f2 and 2f2 - f1). An in-depth state of the art of nonlinear radar systems is made in a first chapter with a comparison of their characteristics. In a second chapter, an inductive test bench is developed to measure the reflected IM3 of an RF target. Thus analyses and orders of magnitude will be known helping the development of radar. In chapter 3, the IM3 radar demonstrator is developed. A wide range of RF systems, commercial and non-commercial, that may be found in operational environments are being tested. Their detection will validate the IM3 recovery technique. A new realistic IM3 radar link budget is implemented to estimate the actual radar detection range for different RF targets. In the last chapter the work focuses on the identification and classification of an RF target. The study focuses on the possibility of extracting all parameters to assist in a classification (hazard assessment) of RF receptors in an operational environment. The research work presented in this manuscript contributes to the improvement of hidden electronic detection techniques. A detection protocol was proposed describing the actions of the IM3 radar. It includes a frequency scan and then a power scan. The first tests were carried out on a walkie-talkie demonstrating the possibility of detecting its bandwidth via IM3 retransmission, at more than 2 m. The repeatability of the tests on an extended panel of RF receivers validates the detection protocol and the interest of the IM3 radar. An IM3 radar transmission power of 40 dBm, at an IM3 frequency of 400 MHz, can potentially detect a receiver at 80 m. Finally in a final exploratory work, we demonstrated that by observing the IM3 response reflected following a power scan the IM3 radar can add new identification criteria that discriminate the hidden receivers detected between them.; Électromagnétisme, sécurité et guerre électronique sont étroitement liés depuis des décennies. Leur association rassemble des applications de surveillance radar, de neutralisation de systèmes électroniques ou de détection d’électroniques cachées. Aujourd’hui, la multiplication des EEI (Engins Explosifs Improvisés) aussi bien sur les théâtres d’opération que dans les milieux urbains conduit à la nécessité de leur détection. Les travaux de cette thèse peuvent entrer dans cette thématique et proposent une nouvelle alternative qui permet de mettre en évidence la présence de récepteurs RF cachés. Le radar non-linéaire est particulièrement adapté à la détection de dispositifs contenant des métaux et des semi-conducteurs (électroniques). Une technique populaire consiste à transmettre une seule fréquence f1 et à recevoir la seconde harmonique générée par la cible. Une autre technique, moins courante, consiste à transmettre deux fréquences, f1 et f2, et à recevoir les produits d'intermodulation d’ordre 3 (2f1 - f2 et 2f2 - f1). Un état de l’art approfondi des systèmes radars non-linéaires est effectué dans un premier chapitre avec une comparaison de leurs caractéristiques. Dans un second chapitre, un banc de test en mode conduit est développé permettant la mesure de l’IM3 réfléchi d’une cible RF. Ainsi des analyses et des ordres de grandeurs seront connus aidant au développement du radar. Dans le chapitre 3, Le démonstrateur du radar à IM3 est développé. Un large panel de systèmes RF, commerciaux ou non, susceptibles d’être trouvé dans des milieux opérationnels est mis sous test. Leur détection va permettre de valider la technique de récupération de l’IM3. Un nouveau bilan de liaison réaliste du radar IM3 est mis en place afin d’estimer la portée de détection réelle du radar, pour différentes cibles RF. Dans le dernier chapitre les travaux s’orientent sur l’identification et la classification d’une cible RF. L’étude porte sur la possibilité d’extraire tous paramètres pouvant aider à une classification (évaluation du danger) de récepteurs RF dans un milieu opérationnel. Le travail de recherche présenté dans ce manuscrit contribue à l’amélioration des techniques de détection d’électroniques cachées. Un protocole de détection a été proposé décrivant les faits et gestes du radar IM3. Il inclut un balayage en fréquence puis en puissance. Les premiers tests ont été effectués sur un Talkie-Walkie démontrant la possibilité de détecter sa bande passante via la réémission d’IM3, à plus de 2 m. La répétabilité des tests sur un panel élargi de récepteurs RF valide le protocole de détection et l’intérêt du radar IM3. Une puissance d’émission du radar IM3 de 40 dBm, à une fréquence d’IM3 de 400 MHz, peut potentiellement détecter un récepteur à 80 m. Enfin dans un dernier travail exploratoire nous avons démontré que, par l’observation de la réponse de l’IM3 réfléchi suite à un balayage en puissance, le radar IM3 peut ajouter de nouveaux critères d’identification discriminant les récepteurs détectés entre eux.

Published

2018

34. Remote detection of electronics by intermodulation

Author

Martorell, Alexandre, Institut d’Electronique et des Systèmes (IES), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Université Montpellier, Laurent Chusseau, and Jérémy Raoult

Subjects

RF injection test, Electromagnetic susceptibility, Susceptibilité electromagnétique, Test d'injection RF, Electronique non-linéaire, Nonlinear radar, Intermodulation distortion, Radar non-linéaire, Récepteur radio, Distorsion intermodulation, Nonlinear electronic, RF front-End, [SPI.TRON]Engineering Sciences [physics]/Electronics

Abstract

Electromagnetism, security and electronic warfare have been closely linked for decades. Their association gathers applications of radar surveillance, neutralization of electronic systems or detection of hidden electronics. Today, the multiplication of IEDs (Improvised Explosive Devices) both in theatres of operation and in urban environments leads to the need for their detection. The works of this thesis can enter into this theme and propose a new alternative that allows to highlight the presence of hidden RF receivers. The nonlinear radar is particularly suitable for detecting devices containing metals and (electronic) semiconductors. A popular technique is to transmit a single frequency f1 and receive the second harmonic generated by the target. Another less common technique consists of transmitting two frequencies, f1 and f2, and receiving intermodulation products of order 3 (2f1 - f2 and 2f2 - f1). An in-depth state of the art of nonlinear radar systems is made in a first chapter with a comparison of their characteristics. In a second chapter, an inductive test bench is developed to measure the reflected IM3 of an RF target. Thus analyses and orders of magnitude will be known helping the development of radar. In chapter 3, the IM3 radar demonstrator is developed. A wide range of RF systems, commercial and non-commercial, that may be found in operational environments are being tested. Their detection will validate the IM3 recovery technique. A new realistic IM3 radar link budget is implemented to estimate the actual radar detection range for different RF targets. In the last chapter the work focuses on the identification and classification of an RF target. The study focuses on the possibility of extracting all parameters to assist in a classification (hazard assessment) of RF receptors in an operational environment. The research work presented in this manuscript contributes to the improvement of hidden electronic detection techniques. A detection protocol was proposed describing the actions of the IM3 radar. It includes a frequency scan and then a power scan. The first tests were carried out on a walkie-talkie demonstrating the possibility of detecting its bandwidth via IM3 retransmission, at more than 2 m. The repeatability of the tests on an extended panel of RF receivers validates the detection protocol and the interest of the IM3 radar. An IM3 radar transmission power of 40 dBm, at an IM3 frequency of 400 MHz, can potentially detect a receiver at 80 m. Finally in a final exploratory work, we demonstrated that by observing the IM3 response reflected following a power scan the IM3 radar can add new identification criteria that discriminate the hidden receivers detected between them.; Électromagnétisme, sécurité et guerre électronique sont étroitement liés depuis des décennies. Leur association rassemble des applications de surveillance radar, de neutralisation de systèmes électroniques ou de détection d’électroniques cachées. Aujourd’hui, la multiplication des EEI (Engins Explosifs Improvisés) aussi bien sur les théâtres d’opération que dans les milieux urbains conduit à la nécessité de leur détection. Les travaux de cette thèse peuvent entrer dans cette thématique et proposent une nouvelle alternative qui permet de mettre en évidence la présence de récepteurs RF cachés. Le radar non-linéaire est particulièrement adapté à la détection de dispositifs contenant des métaux et des semi-conducteurs (électroniques). Une technique populaire consiste à transmettre une seule fréquence f1 et à recevoir la seconde harmonique générée par la cible. Une autre technique, moins courante, consiste à transmettre deux fréquences, f1 et f2, et à recevoir les produits d'intermodulation d’ordre 3 (2f1 - f2 et 2f2 - f1). Un état de l’art approfondi des systèmes radars non-linéaires est effectué dans un premier chapitre avec une comparaison de leurs caractéristiques. Dans un second chapitre, un banc de test en mode conduit est développé permettant la mesure de l’IM3 réfléchi d’une cible RF. Ainsi des analyses et des ordres de grandeurs seront connus aidant au développement du radar. Dans le chapitre 3, Le démonstrateur du radar à IM3 est développé. Un large panel de systèmes RF, commerciaux ou non, susceptibles d’être trouvé dans des milieux opérationnels est mis sous test. Leur détection va permettre de valider la technique de récupération de l’IM3. Un nouveau bilan de liaison réaliste du radar IM3 est mis en place afin d’estimer la portée de détection réelle du radar, pour différentes cibles RF. Dans le dernier chapitre les travaux s’orientent sur l’identification et la classification d’une cible RF. L’étude porte sur la possibilité d’extraire tous paramètres pouvant aider à une classification (évaluation du danger) de récepteurs RF dans un milieu opérationnel. Le travail de recherche présenté dans ce manuscrit contribue à l’amélioration des techniques de détection d’électroniques cachées. Un protocole de détection a été proposé décrivant les faits et gestes du radar IM3. Il inclut un balayage en fréquence puis en puissance. Les premiers tests ont été effectués sur un Talkie-Walkie démontrant la possibilité de détecter sa bande passante via la réémission d’IM3, à plus de 2 m. La répétabilité des tests sur un panel élargi de récepteurs RF valide le protocole de détection et l’intérêt du radar IM3. Une puissance d’émission du radar IM3 de 40 dBm, à une fréquence d’IM3 de 400 MHz, peut potentiellement détecter un récepteur à 80 m. Enfin dans un dernier travail exploratoire nous avons démontré que, par l’observation de la réponse de l’IM3 réfléchi suite à un balayage en puissance, le radar IM3 peut ajouter de nouveaux critères d’identification discriminant les récepteurs détectés entre eux.

Published

2018

35. Тестування нелінійних радіолокаторів на надійність ідентифікації об’єктів

Author

Vo Duy, Phuc, Zinchenko, M. V., Vo Duy, Phuc, and Zinchenko, M. V.

Abstract

Розглянуто тестування нелінійних радіолокаторів за допомогою єдиного широкосмугового імітатора закладного пристрою. Показано, що імітатор на базі плоскої двозаходової спіральної антени з напівпровідниковим діодом в навантаженні має теплову сприйнятливість до дії електромагнітного поля. Дисипація енергії зондуючого сигналу призводить до деформації вольт-амперних характеристик (ВАХ) діода у складі імітатора. Введений параметр $\gamma $ як міра близькості до рівноважного стану діода для оцінки міри деформації ВАХ під час зондування. За експериментальними даними отримано нормовану апроксимуючу функцію (НАФ) в залежності від параметра $\gamma $. Досліджено за допомогою НАФ явище інверсії ідентифікаційної ознаки розсіювача, що полягає в зміні співвідношення на протилежне між рівнями другої і третьої гармонік сигналу відгуку. Виявлено отримання імітатором демаскуючих властивостей структури "метал-окисел-метал". Одержано розподіл максимальної частоти прояву інверсії демаскуючої ознаки у залежності від нормованого значення напруги зсуву робочої точки діода у складі імітатора. Запропоновано за здатністю нелінійних радіолокаторів фіксувати інверсію демаскуючої ознаки імітатора визначати надійність виявлення та ідентифікації закладних пристроїв.

Published

2017

36. Індентифікаційні ознаки спектрального складу випромінювання демаскуючого розсіювача в нелінійній радіолокації

Author

Во Зуй Фук and Во Зуй Фук

Abstract

У дисертації показано, що пов’язана з виявленням демаскуючих ознак напівпровідникових розсіювачів з метою збільшення ефективності використання нелінійних радіолокаторів для пошуку закладних пристроїв у сфері технічного захисту інформації. Розроблено метод опорних параметрів для виявлення та ідентифікації закладних пристроїв на базі тунельних діодів, який відрізняється тим, що введена в нормований простір апроксимуюча площина амплітуд наведеного сигналу в функції ширини області від’ємного диференціального опору. Створена універсальна модель вольт-амперної характеристик, що описується параметром – ступенем близькості до рівноважного стану напівпровідникового приладу, яка описує сімейство деформованих кривих напівпровідникової структури в складі розсіювача під впливом потужного зондуючого сигналу. Завдяки запропонованій моделі ефективно виявляється ефект інверсії демаскуючої ознаки і оцінюється надійність функціонування нелінійного локатора. Проведені оцінку впливу асиметрії вольт-амперної характеристики структур «метал-окисел-метал» на ефективність використання нелінійних локаторів. Розроблено універсальний імітатор закладного пристрою з нелінійним навантаженням і можливістю варіювання напруги робочої точки. Режими універсального імітатора дозволяють відтворити розсіюючи властивості закладних пристроїв, що робить імітатор об'єктивним при сертифікації нелінійних локаторів.

Published

2017

37. Індентифікаційні ознаки спектрального складу випромінювання демаскуючого розсіювача в нелінійній радіолокації

Subjects

нелинейный рассеиватель, сигнал отклика, nonlinear products, сигнал відгуку, nonlinear scattered, вольт-амперні характеристики з від’ємним диференціальним опором, nonlinear radar, нелінійні продукти, нелинейная радиолокация, нелинейные продукты, нелінійний розсіювач, 621.391]( 043.3) [621.37], current voltage characteristics with negative differential resistance, нелінійна радіолокація, response signal, вольт-амперные характеристики с отрицательным дифференциальным сопротивлением

Abstract

У дисертації показано, що пов’язана з виявленням демаскуючих ознак напівпровідникових розсіювачів з метою збільшення ефективності використання нелінійних радіолокаторів для пошуку закладних пристроїв у сфері технічного захисту інформації. Розроблено метод опорних параметрів для виявлення та ідентифікації закладних пристроїв на базі тунельних діодів, який відрізняється тим, що введена в нормований простір апроксимуюча площина амплітуд наведеного сигналу в функції ширини області від’ємного диференціального опору. Створена універсальна модель вольт-амперної характеристик, що описується параметром – ступенем близькості до рівноважного стану напівпровідникового приладу, яка описує сімейство деформованих кривих напівпровідникової структури в складі розсіювача під впливом потужного зондуючого сигналу. Завдяки запропонованій моделі ефективно виявляється ефект інверсії демаскуючої ознаки і оцінюється надійність функціонування нелінійного локатора. Проведені оцінку впливу асиметрії вольт-амперної характеристики структур «метал-окисел-метал» на ефективність використання нелінійних локаторів. Розроблено універсальний імітатор закладного пристрою з нелінійним навантаженням і можливістю варіювання напруги робочої точки. Режими універсального імітатора дозволяють відтворити розсіюючи властивості закладних пристроїв, що робить імітатор об'єктивним при сертифікації нелінійних локаторів. It is shown in dissertation, which related to the detection of disabling features of semiconductor dispersers in order to increase the efficiency of the use of nonlinear radars to detect the embedded devices in the field of technical protection of information. The type of radio electronics device has a complex adequate structure of antenna with unsystematized configuration. This “random” antenna qualitatively is ensemble dipole with the different of length and orientation. The elementary dipoles are the drops of radio electronics, track circuit boards, metallized surfaces. By the ratio of the wave length probing signal nonlinear radar, the structures of antenna radio electronics device are classified as “small electrically” (less than an order of magnitude or the wavelength of probing signal is more than) and “commensurate electrically”. Accordingly to the inherence of “small electrically” structure antenna, the effective square of nonlinear scattered of probing signal is small. The influence of the external noise to non-linear scattered could get identification of multiplicative component in the scattered signal, which could create the fictitious signals of recalling even in the absence of probing signal. The frequency of interfering signal could be close to the frequency of the useful signal scattered and get into the receiver band. The fight against external interference is achieved, as a rule, selecting frequency probing signal, improving the possibility of his change and the relevant schematic and design solutions Method of basic functions finding for similarity of the deformed curves detection and a method of the adjusting functions for minimization of an error of approximating function of nonlinear characteristics family were used for it. The current-voltage characteristics of a semiconductor diode in the scattered deformation influences on the detection range of a single broadband mortgaged device simulator in nonlinear radar. Increasing of influencing power level of the probe signal can lead to "visibility reducing" of simulator for nonlinear radar The method of reference parameters for detecting and identifying mortgage devices based on tunnel diodes is developed, which differs by introducing into the normalized space approximating plane of the amplitudes of the signal in the function of the width of the region of negative differential resistance. Universal model of current-voltage characteristics is described, which is described by the parameter - the degree of proximity to the equilibrium state of the semiconductor device, which describes the family of deformed curves of the semiconductor structure in the composition of the diffuser under the influence of a powerful probe signal. Due to the proposed model, the effect of the inversion of a deformation trait is effectively detected and the reliability of the operation of the nonlinear locator is evaluated. The energy dissipation of the probe signal leads to deformation of the current-voltage characteristics of the diode composed of the simulator. Parameter γ is introduced as the degree of closeness to the equilibrium state of the diode, to characterize the degree of current-voltage characteristics deformation during sensing. According to the experimental data normalized approximating function depending on the parameter γ is obtained. Identified the acquisition of unmasking properties of the structure “metal–oxide–metal” by simulator. The resulting distribution of the maximum frequency of the unmasking sign inversion occurrence depending on the normalized voltage value of operating point displacement of the diode composed of the simulator. It is suggested by the ability of nonlinear radar to capture the unmasking sign inversion of the simulator to judge the reliability of embedded devices detection and identification. The reliability of non-linear radar at detection of radio-electronic devices and scatterers of corrosion origin of the type “metal-oxide-metal” (MOM-structures) is investigated. It is revealed that the presence of MOM-structures in the study space substantially impair the reliability of non-linear radar at revealing radio-electronic devices with the “small” non-linear effective area of dispersion of the probing signal. In this case determination of threshold levels of multiple harmonics and their ratios will not improve the efficiency of the non-linear radar use, which is associated with the peculiarities of MOM-structures current-voltage characteristics. The contacts between the metals Al, Cr, Ni have current-voltage characteristics with asymmetry, which are determined by the thickness and area of the oxide. The asymmetry can be of two types – positive and negative. In the case of MOM-structures with a clear current voltage characteristic asymmetry of two types, the efficiency of the use of non-linear radar initially requires a significant decrease of levels of spurious emissions of the transmitting antenna. Universal simulator of a mortgage device with nonlinear load and the possibility of varying the voltage of the working point is developed. Modes of the universal simulator are allowed to reproduce the scattering properties of embedded devices, which make the simulator objective in the certification of nonlinear locators. The reliable detection of electronic objects based on the method of identification by the ratio of levels of the re-emitted harmonics. The proposed certification of nonlinear radar uses the simulator on the basis of two-wire flat spiral antenna with a "controlled" nonlinear load. The simulator has broadband, elliptical polarization and directional power transfer. The scattering parameters of the simulator depend on the bias voltage of the working point and the input voltage of semiconductors. В диссертации показано, связанной с выявлением демаскирующим признаков полупроводниковых рассеивателей с целью увеличения эффективности использования нелинейных радиолокаторов для поиска закладных устройств в сфере технической защиты информации. Разработан метод опорных параметров для обнаружения и идентификации закладных устройств на базе туннельных диодов, который отличается тем, что введена в нормированное пространство аппроксимирующая плоскость амплитуд наведенного сигнала в функции ширины области отрицательного дифференциального сопротивления. Создана универсальная модель вольтамперной характеристик, описывается параметром - степенью близости к равновесному состоянию полупроводникового прибора, которая описывает семейство деформированных кривых полупроводниковой структуры в составе рассеивателя под влиянием мощного зондирующего сигнала. Благодаря предложенной модели эффективно проявляется эффект инверсии демаскирующего признаки и оценивается надежность функционирования нелинейного локатора. Проведенные оценку влияния асимметрии вольтамперной характеристики структур «металл-окисел-металл» на эффективность использования нелинейных локаторов. Разработан универсальный имитатор закладного устройства с нелинейной нагрузкой и возможностью варьирования напряжения рабочей точки. Режимы универсального имитатора позволяют воссоздать рассеивая свойства закладных устройств, что делает имитатор объективным при сертификации нелинейных локаторов.

Published

2017

38. Distinguishing Electronic Devices Using Fourier Features Derived from Harmonic Radar

Author

Imam Samil Yetik, Harun Taha Hayvaci, Handan Ilbegi, TOBB ETU, Faculty of Engineering, Department of Electrical & Electronics Engineering, TOBB ETÜ, Mühendislik Fakültesi, Elektrik ve Elektronik Mühendisliği Bölümü, and Hayvacı, Harun Taha

Subjects

Computer science, Acoustics, 02 engineering and technology, nonlinear radar, 01 natural sciences, Signal, law.invention, Harmonic analysis, symbols.namesake, 0203 mechanical engineering, law, Radar, 020301 aerospace & aeronautics, business.industry, 010401 analytical chemistry, Transmitter, Electrical engineering, 0104 chemical sciences, Fourier transform, Harmonics, Harmonic, symbols, harmonic analysis, business, Energy (signal processing)

Abstract

19th International Conference on Electromagnetics in Advanced Applications (ICEAA) (2017 : Verona; Italy), In this paper, a novel technique to distinguish between multiple types of electronic circuits using nonlinear radar is presented. The transmitter transmits a single tone signal to the targets, and harmonic responses are utilized to detect and distinguish non-linear electronic devices. Contrary to previous studies, the power of the transmitted signal is swept within a determined range. Then, first five harmonics of the received signal are analyzed. We utilize the information related to the frequency content using Fourier Transforms of the received harmonics are analyzed. We show that the energy levels of the Fourier Transforms can be used to classify various nonlinear electronic devices.

Published

2017

39. Distinguishing Electronic Devices Using Harmonic Radar

Author

Handan Ilbegi, Harun Taha Hayvaci, Asim Egemen Yilmaz, Imam Samil Yetik, TOBB ETU, Faculty of Engineering, Department of Electrical & Electronics Engineering, TOBB ETÜ, Mühendislik Fakültesi, Elektrik ve Elektronik Mühendisliği Bölümü, and Hayvacı, Harun Taha

Subjects

020301 aerospace & aeronautics, Engineering, Radar, business.industry, 010401 analytical chemistry, 02 engineering and technology, nonlinear radar, 01 natural sciences, Signal, 0104 chemical sciences, law.invention, Harmonic analysis, Harmonic balance, 0203 mechanical engineering, law, Clamper, Harmonics, Electronic engineering, Harmonic, harmonic analysis, business, Computer Science::Information Theory, Electronic circuit

Abstract

IEEE Radar Conference (RadarConf) (2017 : The Westin SeattleSeattle; United States), A new approach to distinguishing electronic circuits using nonlinear/harmonic radar is presented in this paper. The radar transmits a single tone signal to the electronic circuits, consisting of nonlinear components, and exploits received harmonic response for separation. Unlike previous studies, the transmitted signal power is swept within a determined range so that the received powers at each harmonic are analyzed to capture the nonlinear characteristics. To predict the behavior of the nonlinear circuits such as diode clamper, diode limiter and full wave rectifier, certain statistical features of the received powers are analyzed. We show that the received power at the harmonics are distinctive for each circuit using Euclidean distances of features in feature space.

Published

2017

40. Сертифікація нелінійних радіолокаторів за показниками призначення

Subjects

нелинейная радиолокация, имитатор закладного устройства, simulator laying devices, імітатор закладного пристрою, broadband antenna, широкосмугова антена, nonlinear radar, нелінійна радіолокація, широкополосная антенна

Abstract

Запропоновано для сертифікації нелінійних радіолокаторів (НР) випробування за показниками призначення методом порівняння. Показано, що оцінку показників призначення необхідно проводити за вибіркою різних типів НР. Для сертифікації НР в якості єдиного імітатора закладного пристрою доцільно використати двозаходову плоску спіральну антену з узгодженим нелінійним навантаженням. It is offered tests on indices of assignment by a comparing method for nonlinear radars (NR) certification. It is shown that the assessment of indices of assignment needs to be carried out on selection of the NR different types. For certification of NR as the uniform simulator of the mortgage device rationally to use the two-аrmed spiral antenna with the coordinated resistance. Предложено для сертификации нелинейных радиолокаторов (НР) испытания по показателям назначения методом сравнения. Показано, что оценку показателей назначения необходимо проводить по выборке разных типов НР. Для сертификации НР в качестве единого имитатора закладного устройства рационально использовать двузаходовую спиральную антенну с согласованным сопротивлением.

Published

2016

41. Інверсія співвідношень рівнів гармонік демаскуючого сигналу в нелінійній радіолокації

Author

Zinchenko, M. V., Vo Duy, Phuc, Zinchenko, M. V., and Vo Duy, Phuc

Abstract

Показано, що N-подібна форма вольт-амперної характеристики (ВАХ) нелінійних приладів, що входять до складу розсіювача, є однією з причин інверсії в співвідношенні рівнів гармонік перевипромененого сигналу. Це призводить до зниження ефективності використання нелінійного радіолокатора при виявленні закладних пристроїв на тунельних діодах. При аналізі останніх запропоновано ввести апроксимуючі безрозмірні коефіцієнти та , які характеризують не лише форму ВАХ, але і достовірність ідентифікації закладних пристроїв по співвідношенню рівнів гармонік демаскуючого сигналу в цілому.

Published

2016

42. Инверсия соотношений уровней гармоник демаскирующего сигнала в нелинейной радиолокации

Author

Vo Duy, Phuc, Zinchenko, M. V., Zinkovskiy, Yu. F., Vo Duy, Phuc, Zinchenko, M. V., and Zinkovskiy, Yu. F.

Abstract

Показано, что N-подобная форма вольт-амперной характеристики (ВАХ) нелинейных приборов, входящих в состав рассеивателя, является одной из причин инверсии в соотношении уровней гармоник переизлученного сигнала. Это приводит к снижению эффективности использования нелинейного радиолокатора при выявлении закладных устройств на туннельных диодах. При анализе последних предложено ввести аппроксимирующие безразмерные коэффициенты и , которые характеризуют не только форму ВАХ, но и достоверность идентификации закладных устройств по соотношению уровней гармоник демаскирующего сигнала в целом., Questions of identification of the mortgage devices (MD) on tunnel diodes which are in a waiting mode or work for record in memory of a chip, by means of nonlinear radars are considered. Conditions of change of a ratio on opposite between levels of spectral components of a scattered signal when sounding by the nonlinear radar of the considered class of mortgage devices are investigated. Inverse change of this ratio significantly worsens reliability of an identification sign of nonlinear scatterers based on the ratio of levels of multiple harmonics of a response signal. It is shown that a N-like form of the volt-ampere characteristic (VAC) of the nonlinear devices which are a part of the scatterer, amplitude of the induced signal and shift of a working point to VAC are the reasons of inversion in the ratio of levels of harmonics of the reradiated signal. Influence of a VAC form of the tunnel diode on reliability of identification of the MD introduction of the approximating dimensionless coefficients in the way and is analyzed. It is offered to use new variables not only for the characteristic of a curve form, but also for an assessment of reliability of MD identification based on the ratio of harmonics levels of the unmasking signal in general. The analysis of an identification sign of scatterers based on the ratio of levels of multiple harmonicas by means of parameters also allows to minimize influence of unreliable operating modes of nonlinear radars on efficiency of carrying out search actions., Показано, що N-подібна форма вольт-амперної характеристики (ВАХ) нелінійних приладів, що входять до складу розсіювача, є однією з причин інверсії в співвідношенні рівнів гармонік перевипромененого сигналу. Це призводить до зниження ефективності використання нелінійного радіолокатора при виявленні закладних пристроїв на тунельних діодах. При аналізі останніх запропоновано ввести апроксимуючі безрозмірні коефіцієнти та , які характеризують не лише форму ВАХ, але і достовірність ідентифікації закладних пристроїв по співвідношенню рівнів гармонік демаскуючого сигналу в цілому.

Published

2016

43. Нелінійна радіолокація у сфері технічного захисту інформації

Subjects

нелинейная радиолокация, технічний захист інформації, закладні пристрої, embedded devices, technical information security, nonlinear radar, нелінійна радіолокація, техническая защита информации, закладные устройства

Abstract

Розглянуто особливості виявлення закладних пристроїв нелінійними радіолокаторами. Показано труднощі щодо пошуку радіоелектронних пристроїв в умовах приміщення. Features of detecting eavesdropping devices nonlinear radar. Displaying difficulties in finding electronic devices in terms of space. Рассмотрены особенности выявления закладных устройств нелинейными радиолокаторами. Показано трудности по поиску радиоэлектронных устройств в условиях помещения.

Published

2015

44. Static and Moving Target Imaging Using Harmonic Radar

Author

Gregory J. Mazzaro, Kyle A. Gallagher, Kelly D. Sherbondy, Anthony F. Martone, and Ram M. Narayanan

Subjects

Engineering, Computer Networks and Communications, Fire-control radar, 02 engineering and technology, law.invention, nonlinear radar, harmonic radar, moving target imaging, synthetic aperture imaging, Optics, Radar engineering details, 0203 mechanical engineering, law, Radar imaging, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Radar, Physics::Atmospheric and Oceanic Physics, 020301 aerospace & aeronautics, business.industry, Pulse-Doppler radar, 020206 networking & telecommunications, Radar lock-on, Continuous-wave radar, Bistatic radar, Hardware and Architecture, Control and Systems Engineering, Signal Processing, business

Abstract

Nonlinear radar exploits the difference in frequency between radar waves that illuminate and are reflected from electromagnetically nonlinear targets. Harmonic radar is a special type of nonlinear radar that transmits one or multiple frequencies and listens for frequencies at or near their harmonics. Nonlinear radar differs from traditional linear radar by offering high clutter rejection and is particularly suited to the detection of devices containing metals and semiconductors. Examples include tags for tracking insects, tags worn by humans for avoiding collisions with vehicles, or for monitoring vital signs. Such tags contain a radio-frequency (RF) nonlinearity, often a Schottky diode, connected to a suitable antenna. Targets with inherent nonlinearities, such as metal contacts, semiconductors, transmission lines, antennas, filters, and ferroelectrics, also respond to nonlinear radar. In this paper, the successful exploitation of harmonic radar for moving target imaging and synthetic aperture imaging of targets, while suppressing clutter signals from linear targets, are presented. Our results demonstrate some unique advantages of harmonic radar over its traditional linear counterpart.

Published

2017

45. Особенности воздействия зондирующего сигнала на нелинейные рассеиватели

Subjects

нелинейная радиолокация, нелінійний розсіювач, зондирующий сигнал, зондуючий сигнал, нелинейный- рассеиватель, nonlinear scatterer, nonlinear radar, нелінійна радіолокація, probesignal

Abstract

Представлено методику оцінки мінімального граничного рівня потоку потужності зондуючого сигналу нелінійного радіолокатора, здатного сформуватив нелінійних розсіювачах демаскуючий сигнал відгуку. Presents a methodology for assessing the minimum level of power fluxprobing signal for nonlinear radar, capable to generate innonlinear scatterers the unmasking signal. Представлена методика оценки минимального предельного уровня потока мощности зондирующего сигнала нелинейного радиолокатора, способного сформировать в нелинейных рассеивателях демаскирующий сигнал отклика.

Published

2014

46. Исследование электромагнитной совместимости нелинейных радиолокаторов

Subjects

нелинейная радиолокация, the electric field, електромагнітна сумісність, напруженість електричного поля, электромагнитная совместимость, nonlinear radar, нелінійна радіолокація, electromagnetic compatibility, напряженность электрического поля

Abstract

Проведена оцінка типового нелінійного радіолокатора на електромагнітну суміс-ність. Запропоновано використання для вимірювань складових електромагнітного поля калібрований аналізатор спектру Anritsu Spectrum Master MS2711 D та логарифмічно - періодична антену ETS 3146. The estimation model nonlinear radar electromagnetic compatibility. Suggested uses for measuring components of the electromagnetic field calibrated spectrum analyzer Anritsu Spectrum Master MS2711 D and log - periodic antenna ETS 3146. Проведена оценка типового нелинейного радиолокатора на электромагнитную совместимость. Предложено использование для измерений составляющих электромаг-нитного поля калиброванный анализатор спектра Anritsu Spectrum Master MS2711 D и логарифмически - периодическая антенну ETS 3146.

Published

2014

47. Evaluation of nonlinear scatterers sensitivity to probe radiation

Author

Zinchenko, M. and Zinkovskiy, Y.

Subjects

integral equations of Galen, нелинейная радиолокация, нелинейный рассеиватель, нелінійний розсіювач, нелінійні продукти сигналу відгуку, nonlinear scatterer, nonlinear products of response signal, нелинейные продукты сигнала отклика, 638.235.231, інтегральні рівняння Галена, nonlinear radar, нелінійна радіолокація, интегральные уравнения Галена

Abstract

Робота присвячена дослідженню впливу параметрів зондуючого сигналу (ЗС) нелінійного радіолокатора (НР) на фізику процесів у нелінійних розсіювачах (НРс). Запропоновано аналітичний підхід на основі розв’язку системи інтегральних рівнянь Галена, що дозволяє врахувати вплив характеристик НРс на параметри розсіювання нелінійних продуктів сигналу відгуку під час зондування. Виконано оцінку мінімального рівня щільності потоку потужності ЗС НР, при якому стає можливим виявлення об’єкту пошуку. Приведені результати натурних досліджень, що узгоджуються з розрахованими значеннями. Introduction. The nonlinear radar (NR) usage efficiency links with parameters influence of probe signal (PS) on the processes physics in nonlinear scatterers (NS). It is known that the variation of the PS power level of NS affects the distortion level of characteristics of NS semiconductor structures. The main part. Analytical modeling of scattering processes the response signal by NS on harmonics assumes usage the experimental semiconductor devises CVC for different power levels of PS. Using this data the approximation of semiconductor devices CVC by polynomial is done with subsequent finding the appropriate coefficients of nonlinearity βn. As a criterion of assessing the minimum of density of power flux level Π₀ continuous PS of NS the minimum levels of nonlinear products of scattered signal are advisable to be chosen, for which the probability of detection and identification of NS exceed the value of 0.5. Analytical studies have shown that the density of power flux of the field, which scattered on the second and third harmonics, changes by a quadratic and cubic laws by varying the density of power flux of the incident wave. At fixed values Π₀ of field density of power flux on n-th harmonic increases with the coefficient of nonlinearity by the law βn². Conclusion. According to the analytical calculations, Π₀=23(dB W/m²)at r=1m(distance between the source of PS and the NS). Experimental studies have shown that the generation of the desired response signal will take place within Π₀=20...25 dB W/m² which consistent with the results of the theoretical calculations. Работа посвящена исследованию влияния параметров зондирующего сигнала (ЗС) нелинейного радиолокатора (НР) на физику процессов в нелинейных рассеивателях (НРс). Предложено аналитический подход на основе решения системы интегральных уравнений Галена, позволяющий учесть влияние характеристик НРс на параметры рассеяния нелинейных продуктов сигнала отклика во время зондирования. Выполнено оценку минимального уровня плотности потока мощности ЗС НР, при котором становится возможным обнаружение объекта поиска. Приведены результаты натурных исследований, что согласуются с рассчитанными значениями.

Published

2014

48. Оцінка чутливості нелінійних розсіювачів до зондуючого випромінювання

Author

Zinkovskiy, Yu. F., Zinchenko, M. V., Zinkovskiy, Yu. F., and Zinchenko, M. V.

Abstract

Робота присвячена дослідженню впливу параметрів зондуючого сигналу (ЗС) нелінійного радіолокатора (НР) на фізику процесів у нелінійних розсіювачах (НРс). Запропоновано аналітичний підхід на основі розв’язку системи інтегральних рівнянь Галена, що дозволяє врахувати вплив характеристик НРс на параметри розсіювання нелінійних продуктів сигналу відгуку під час зондування. Виконано оцінку мінімального рівня щільності потоку потужності ЗС НР, при якому стає можливим виявлення об’єкту пошуку. Приведені результати натурних досліджень, що узгоджуються з розрахованими значеннями.

Published

2014

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Author

Zinchenko, M.V., Zinkovskiy, Yu. F., Zinchenko, M.V., and Zinkovskiy, Yu. F.

Abstract

Introduction. The nonlinear radar (NR) usage efficiency links with parameters influence of probe signal (PS) on the processes physics in nonlinear scatterers (NS). It is known that the variation of the PS power level of NS affects the distortion level of characteristics of NS semiconductor structures. The main part. Analytical modeling of scattering processes the response signal by NS on harmonics assumes usage the experimental semiconductor devises CVC for different power levels of PS. Using this data the approximation of semiconductor devices CVC by polynomial is done with subsequent finding the appropriate coefficients of nonlinearity. As a criterion of assessing the minimum of density of power flux level continuous PS of NS the minimum levels of nonlinear products of scattered signal are advisable to be chose n, for which the probability of detection and identification of NS exceed the value of 0.5. Analytical studies have shown that the density of power flux of the field, which scattered on the second and third harmonics, changes by a quadratic and cubic laws by varying the density of power flux of the incident wave. At fixed values 0P of field density of power flux on n-th harmonic increases with the coefficient of nonlinearity by the law 2nb. Conclusion. According to the analytical calculations, ()20/23mWdB×=P at 1=rm (distance between the source of PS and the NS). Experimental studies have shown that the generation of the desired response signal will take place within 20/25 ... 20mWdB×= P which consistent with the results of the theoretical calculations.

Published

2014

50. Research of secondary effects in nonlinear radiolocation

Author

Zinchenko, M. V. and Zinkovskiy, Yu. F.

Subjects

нелинейная радиолокация, эффективный радиус рассеяния, нелинейный рассеиватель, экспериментальный стенд, нелінійний розсіювач, experimental stand, ефективний радіус розсіювання, експериментальний стенд, nonlinear scatterer, 638.235.231, effective radius of the scattering, nonlinear radar, нелінійна радіолокація

Abstract

В роботі розглянуто ефект зміни ефективного радіусу розсіювання перевипромінюваних складним нелінійним розсіювачем нелінійних продуктів при варіюванні рівня потужності зондуючого сигналу нелінійного радіолокатора. Introduction. The basic setting of nonlinear radio-locator (NR) in the field of technical guarding is the searching, identification and localization of radio-electronic mortgage devices − semiconductor nonlinear scatterers (NS). Statement of the problem. The NR efficiency increasing is possible by minimization of such factors influence as: presence of obstacle structures "metal-oxide-metal" (МОМ-structures) in the investigated medium and presence of parasitic directional pattern lobe of emitting antenna. The analysis of nonlinear scatterers secondary unmasking features is con-sidered. All possible regularities of the course of the phenomena and processes in the investigated medium, that are the consequence of nonlinear areas of NS semiconductor structures characteristics change (distortion) under sounding radiation, are considered. Principal part. Researches showed that theoretically discovered effective radius change effect of nonlinear products dispersion of nonlinear scatterer response signal at the varying of nonlinear radiolocator sounding signal (SS) power-level allows to investigate the phe-nomenon of semiconductor structures characteristics of NS distortion at the action of relatively powerful ultrahigh frequency field. The effective radius change of nonlinear products dispersion of NS response signal at varying of exposing signal powerlevel is experimentally confirmed, which proves the possibility and expediency of the secondary unmasked features practice use for the search, identification and localization of NS in the technical guarding field: − the area of looping appearance effect on functional dependence of response signal multiple harmonic level from the sounding signal power-level [3]; − effect of processes inertiality of semiconductor structures volt-ampere characteristics dis-tortion [4]; − phenomena of cross-correlation dependence of response signal chaotic state degree from the sounding signal powerlevel [5]. Conclusion. The effective radius change of nonlinear products dispersion of NS response signal at varying of exposing signal power-level is experimentally confirmed, which proves the possibility and expediency of the secondary unmasked features practice use for the search, identification and localization of NS in the technical guarding field. В работе рассмотрен эффект изменения эффективного радиуса рассеяния переизлучаемых сложным нелинейным рассеивателем нелинейных продуктов при варьировании уровня мощности зондирующего сигнала нелинейного радиолокатора.

Published

2012