UWB radar for human being detection

UWB radar for detection and positioning of human beings in complex environment has been developed and manufactured. Novelty of the radar lies in its large operational bandwidth (11.7GHz at -10dB level) combined with high time stability. Detection of respiratory movement of a person in laboratory conditions has been demonstrated. Based on experimental results human being radar return has been analysed in the frequency band from 1 GHz to 12 GHz. Novel principle of human being detection is considered and verified experimentally.     

The Jet Fighter Radar Cross Section

Two jet fighter models, 1/8th of original size, have been measured in the "radar range" installed in the anechoic chamber of the Armament Technology and Procurement Group in Berne. The measurements have been made at a frequency of 40 GHz (5 GHz for full scale), with an accuracy of ± 2 dB and a dynamic range of 80 dB. The statistical distribution of the radar cross section has been calculated with the help of a computer, based on the measured data. The detection probability has been calculated with the help of a correlation procedure. This procedure allows explanation of the symmetry relation between the detection probability and the cumulative distribution of the radar cross section, and of a well-known characteristic of the median value of the radar cross section. A statistical model is proposed for the distribution of the radar cross section of jet fighters, consisting of the distribution of a spheroid in which each element itself exhibits a Rayleigh fluctuation. This model presents a certain number of interesting characteristics, and there is an acceptable degree of coincidence with the measured values.     

WARLOC: A High-Power Coherent 94 GHz Radar

This paper describes the development of a high-power, coherent radar system at W-band and discusses potential applications of radars with this new capability. Previous radars in this frequency band were limited by available power-amplifier technology to about 500 W of average power; WARLOC radar represents an increase in power, by 20 times, over previous coherent radars at 94 GHz. This performance improvement is possible due to the development of a gyroklystron amplifier specifically for this and future radars in this frequency band. The gyroklystron amplifier tubes deliver 100 kW peak power and 10 kW of average power at a center frequency of approximately 94 GHz. Other novel features of this radar include the use of highly overmoded waveguides and rotary joints for the transmission of power from the final power amplifier (FPA) to the antenna, and a high-power quasi-optical duplexer. The system uses a relatively large 1.8 m diameter (580-wavelength) Cassegrain antenna, which required the development of an antenna with an rms surface accuracy of 0.0025 in, to obtain long-range detection and identification of small objects. Test data show an antenna gain of 62.5 dB, confirming that the needed surface accuracy was achieved. Two mobile shelters house the radar system, permitting relocation to various test sites. WARLOC is presently operational at the Naval Research Laboratory's Chesapeake Bay Detachment facility, Maryland. It is being employed in radar imaging of airborne and surface objects, and in the scientific study of propagation effects and atmospheric physics phenomena.     

Receiver operating characteristics for the coherent UWB randomnoise radar

An ultrawideband (UWB) random-noise radar operating in the 1-2 GHz frequency band has been developed and held-tested at a 200 m range at the University of Nebraska. A unique heterodyne correlation technique based on a delayed transmitted waveform using a photonic delay line has been used to inject coherence within this system. The performance of this radar, assuming a point target, has been investigated from a statistical point of view by developing the theoretical basis for the system's receiver operating characteristics (ROC). Explicit analytical expressions for the joint probability density function (pdf) of the in-phase (I) and quadrature (Q) components of the receiver output have been derived under the assumption that the input signals are partially correlated Gaussian processes. The pdf and the complementary cumulative distribution function (cdf) for the envelope of the receiver output are also derived. These expressions are used to relate the probability of detection (P_d) to the probability of false alarm (P_f ) for different numbers of integrated samples, and the results are analyzed     

一种超宽带雷达信号模拟器的设计

为满足雷达装备不断增长的保障需求,研制了一套便携式雷达装备检测系统,该检测系统的核心组成部分是超宽带雷达信号模拟器。模拟器采用低频段基带信号与高频段本振信号2次混频来模拟产生0.05~16 GHz范围内多种体制的雷达信号,最后完成了电路实现,经过信号测试各项指标均达到设计要求。     

Automated Tracking for Aircraft Surveillance Radar Systems

An improved moving target detector (MTD) (a digital signal processor) has been designed, constructed, and tested which successfully rejects all forms of radar clutter while providing reliable detection of all aircraft within the coverage of the radar. The MTD is being tested on both terminal and enroute surveillance radars for the FAA. This processor has been integrated with automatic tracking algorithms to give complete rejection of ground clutter, heavy precipitation, and angels (birds).     

Application of frequency correlation function to radar target detection

Analysis of high-resolution 35 GHz synthetic aperture radar (SAR) imagery of terrain reveals that when point targets, such as vehicles, are viewed at angles close to grazing incidence, they are often difficult to distinguish from tree trunks because the radar cross section (RCS) intensities of the vehicles are comparable to the upper end of the RCS exhibited by tree trunks. To resolve the point target/tree trunk ambiguity problem, a detailed study was conducted to evaluate the use of new detection features based on the complex frequency correlation function (FCF). This paper presents an analytical examination of FCF and its physical meaning, the results of a numerical simulation study conducted to evaluate the performance of a detection algorithm that uses FCF, and the corroboration of theory with experimental observations conducted at 35 and 95 GHz. The FCF-based detection algorithm was found to correctly identify tree trunks as such in over 90% of the cases, while exhibiting a false alarm rate of only 3%.     

Multipath and ground clutter analysis for a UWB noise radar

An ultrawideband (UWB) random-noise radar operating in the 1-2 GHz frequency band has been developed and field-tested up to a 200 m range at the Environmental Remote Sensing Laboratory (ERSL) of the University of Nebraska. A unique heterodyne correlation technique based on a delayed transmitted waveform using a photonic delay line has been used to inject coherence within this system. The performance of this radar in the presence of ground reflections is investigated analytically and experimentally, and the mitigating effects of UWB waveform on multipath-induced interference are analyzed. In addition, the ground clutter statistics, in a look-down mode, are theoretically established and experimentally verified. The performance of this radar in detecting clutter embedded targets with small radar cross section (RCS) is also experimentally examined.     

Synthetic Vision-a view in the fog

A program called the Synthetic Vision Technology Demonstration Program, which is aimed at evaluating and demonstrating technologies permitting aircraft to land in very low visibilities over a wide range of airports, is described. The idea is to provide an electronic image of the runway to the pilot on a head-up display with an overlay on the display of symbology providing all the navigation and performance information needed to fly and land the aircraft. Millimeter-wave radar, infrared sensor, head-up display, and airborne computer processing technologies are being tested. The theoretical performance of the system concept at 35 GHz is compared to the actual performance of the 35-GHz experimental demonstration system for typical approach and runway intrusion detection conditions     

A high performance automotive radar for automatic AICC

The paper describes a recent effort to design, build, and test a 77 GHz radar to be used for “intelligent” cruise control of automobiles. An analysis of requirements is given, design trade-offs are accounted for, and main features of prototypes in manufacturing are detailed. The radar has been thoroughly tested and evaluated both under “controlled” conditions and on roads, also in dense traffic. Results so far are very promising     

Flight test evaluation of a 35 GHz forward looking altimeter forterrain avoidance

Honeywell has conducted a series of flight tests of a 35 GHz digital microprocessor controlled forward looking radar altimeter. A Bell 206L Jet Ranger helicopter was used to evaluate the capability of the sensor as a detector of various types of terrain collision hazards. The sensor was composed of a covert, spread spectrum radar altimeter processor driving a 35 GHz converter and antenna assembly mounted on a steerable platform. Excellent correlation between predicted performance and observed performance was obtained     

雷达罩内用泡沫型吸波材料研究

以微波传输线理论为基础 ,研制出一种宽带轻质泡沫型吸波材料。该材料在 8～ 1 8GHz频率范围内 ,反射率均小于 -1 5 d B。材料经过了物理机械性能试验与雷达照射试验。地面模拟与飞行试验结果表明 ,在雷达天线罩内使用该材料 ,可以有效降低罩内金属部件对天线的影响。     

从干扰地对空雷达到干扰空对地雷达效果的等效推算

通过建立干扰条件下地对空雷达上视工作和空对地雷达下视工作的数学模型,结合在发现概率和虚警概率给定情况下检测因子为定值的雷达检测理论,推导出了从干扰机干扰地对空雷达时的干扰效果等效外推到干扰空对地雷达的干扰效果的推理模型。该模型具有外场可操作性。     

Millimeter wave safety warning system for in-vehicle signing

Georgia Tech Research Institute (GTRI) has developed a millimeter wave safety warning system for in-vehicle signing for use in the nation's Intelligent Transportation System (ITS, formerly IVHS). The Safety Warning System TU (SWS) utilizes a homodyne radar that operates at 24.1 GHz as both a radar and a system to transmit highway safety messages. The warning message is received by a police radar detector or stand-alone safety warning receiver without radar detector capability. When the message is received, it is displayed to the driver via an alphanumeric light emitting diode (LED) display. The message can also be announced by a voice synthesizer internal to the receiver or by a flashing LED labeled “SWS.” The system is designed to inform the driver that he or she is being overtaken by a police car or emergency vehicle in motion. When the police car or emergency vehicle stops, the radar transmitter senses that the platform is no longer moving and the system automatically changes its message to warn approaching drivers of a stationary hazard ahead. A second safety warning transmitter deployment concept is to mount the unit near the highway at a fixed location. The fixed location SWS is designed to be programmable and transmit any one of 64 fixed text messages     

小波变换在雷达信号检测中的应用

小波分析已经成为目前雷达信号去噪的主要方法之一。通过对小波去噪问题的描述,揭示了小波去噪的滤波特性;分别阐述了目前雷达信号检测中常用的4类小波去噪方法并进行性能分析;对雷达信号的小波检测方法提出了展望。     

航迹规划中雷达探测空间的生成

从飞机突防习行任务规划出发，综合考虑地球曲率、陆地（或海洋）的反射和杂波干扰、大气折射和吸收损耗等因素的影响，采用临界散射截面法生成了对空警戒雷达在不同地貌、发现概率下，对不同雷达散射截面的目标的探测空间。计算并分析了飞行高度、目标雷达散射截面、发现概率和地貌等因素对雷达探测空间的影响，以便选择低探测概率的飞行走廓，这对制定和实施安全突防飞行策略有实际意义。     

Review of Airport Surface Movement Radar Technology

Runway incursion is defined by the FAA as "any occurrence at an airport involving an aircraft, vehicle, person or object on the ground that creates collision hazard or results in a loss of separation with an aircraft taking off, intending to take off, landing or intending to land." A summary of how severe this problem is can be found in a 2001 hearing before the Subcommittee on Aviation. Surface movement radar (SMR) technology has evolved over the years as part of an effort to mitigate runway incursion risks and enhance airport capacity. Surface movement surveillance systems of various types have been installed in major airports as early as the 1960s, and have kept evolving. The most recent system currently being deployed in the US by the FAA is the airport surface movement detection equipment model X (ASDE-X) system. In this system, unlike previous systems, the surface movement radar is just one of several sensors that are used in addition to transponder multilateration and GPS-based position reports, referred to as automatic dependent surveillance - broadcast or ADS-B; however, the SMR is a key subsystem. This paper contains an overview of the state-of-the-art SMR technology and provides an introduction on the use of radar technology for this commercial application. It focuses on the architecture, characteristics and technology of the radar sensor, the characteristics of the clutter and how it affects the performance, effects of multipath, automatic detection and comparison of several sensor architectures. Sensis Corporation has recently completed the testing of a new, improved SMR, which is now part of ASDE-X system. This paper summarizes the main features of this radar     

A Rader Clutter Model: Average Scattering Coefficients of Land, Snow, and Ice

A model has been developed for average radar backscatter from terrain based on recent carefully controlled wide-bandwidth measurements of vegetation, snow-covered ground, and sea ice and on a comparison with measurements over North America by the Skylab S-193 scatterometer. The models for the thiree cases take the form ?° dB = A + B? + Cf+ Df?, 20° ? angle of incidence ? 70°, where the constants vary depending on polarization and terrain class. They also differ above and below a critical frequency (6 GHz for general terrain, 8 GHz for sea ice, and between 8 and 12 GHz for snow). For angles of incidence of 0° (vertical) and 10°, the model is of the form ?° dB = M(?) + N(?)f over the range 1 to 18 GHz. Hundreds of thousands of measurements contributed to the general (vegetated terrain) model, and smaller numbers contributed to the snow and sea ice models. Since 1974 all measurements have been made with University of Kansas microwave spectrometers. A brief discussion of fading shows that insufficient data are available to describe the ranges adequately.     

电路模拟吸波材料带宽拓展方法探索

电路模拟吸波材料有一定的频率选择特性,电磁波有效损耗的带宽通常比较窄,通过多层电路屏、掺杂电损耗介质、磁损耗介质层组合、磁电损耗组合的方法,对电路模拟结构吸波材料在2~18GHz区间电磁损耗带宽的拓展进行了初步探索。结果证明:四种方法都能够提高电路模拟吸波材料的有效吸波带宽,并能够不同程度地提高材料的吸波效率。多层电路屏、掺杂电损耗介质的多层电路屏、组合磁损耗介质层的多层电路屏、组合磁损耗介质层和电损耗介质的多层电路屏,其反射率≤-5dB的带宽较单层电路屏的1.2GHz分别增加了6.4、10.6、9.6、10.6GHz,最小反射率分别达到-8、-10、-12、-25dB。     

Applications and frustrations in using ground penetrating radar

In this paper the author concentrates on the narrow portion of the electromagnetic spectrum from a few MHz to a few GHz where geophysicists used ground penetrating radar which is sometimes called georadar, ground probing radar, or subsurface radar. Ground penetrating radar is deployed today from the space shuttle, aircraft, on the surface, in and between boreholes and sometimes from within or between mine shafts. The author discusses these applications and some of the problems involved