• Title/Summary/Keyword: direction-finding antenna

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The Direction Finding Error of TDOA Method According to the Antenna Arrangement (안테나 배치에 따른 TDOA 방식의 방위탐지 오차)

  • Lim, Joong-Soo
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.11 no.11
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    • pp.4503-4508
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    • 2010
  • A direction finding(DF) technology of a signal is very important for electronic warfare and has studied for a long time. The method of TDOA(time difference of arrival) is one of good DF methods in this time, and that is to receive an emitter signal with two antennas, to measure the time difference of a signal at two antennas, and converse the time difference to direction of the signal. For small DF error, high time resolution receiver and long baseline are needed. In this paper we suggest a good baseline with adaptive antenna arrangement into 10m*10m area.

A Study on Radiation Char acter istics of Electr ically Small Antenna for Low-VHF Band Direction Finding according to Tank Mounting Position (Low-VHF 대역 방향탐지용 소형 안테나의 탱크 장착 위치에 따른 방사특성 연구)

  • Moon, Sang-Man;Woo, Jong-Myung
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.14 no.2
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    • pp.127-134
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    • 2014
  • This paper presents a study on the radiation characteristics of low-VHF band electrically small antenna for direction finding. Firstly, it is simulated the antenna for mounting on flat ground and tank model(in 40MHz), and measured for mounting 1/10 scaled model(in 400 MHz). In case of flat ground feed at ${\phi}=0^{\circ}$, $180^{\circ}$(xz-plane), yz-plane $E_{\phi}$ (H-plane) and xz-plane $E_{\theta}$ (E-plane) radiation patterns are hemispheric omni-direction due to effect of narrow ground side. Then, in case of tank model, it is shown equally in case of the flat ground, yz-plane $E_{\phi}$ (H-plane) and xz-plane $E_{\theta}$ (E-plane) radiation patterns are hemispheric omni-direction nearly without effect of mounting position. Therefore, the suggested electrically small antenna for direction finding, in case of mounting on ground narrow side xz-plane(E-plane), is shown more stable radiation patterns as direction finding antenna.

A Comparative Performance Analysis of High Resolution Direction Finding Algorithms in Wideband Mobile Environments (광대역 이동통신 환경에서 초 분해능 방향 탐지 알고리즘의 성능 비구 분석)

  • Yun Young-Ho;Park Yoon-Ok;Park Hyung-Rae
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.31 no.8A
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    • pp.752-759
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    • 2006
  • In this paper, the performances of representative high resolution direction finding algorithms are evaluated and compared in wideband mobile environments. The angular spread phenomenon in mobile environments is first investigated and then a vector channel model for wideband OFDMA signals is derived. A direction finding system architecture for OFDMA smart antenna systems is proposed and finally the performances of high resolution direction finding algorithms are evaluated in wideband mobile environments by taking the WiBro system as a target system.

Direction Finding and Tracking using Single-Ring Circular Array Antenna and Space Division Table (단원형배열안테나와 공간분할테이블을 이용한 방향탐지 및 추적)

  • Park, Hyeongyu;Woo, Daewoong;Kim, Jaesik;Park, Jinsung
    • Journal of the Korea Institute of Military Science and Technology
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    • v.25 no.2
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    • pp.117-124
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    • 2022
  • Single-ring circular array antennas can be applied to direction finding systems in order to use nose-section in other purposes, and the interferometry is a proper direction finding method to those systems. We usually make the interferometer baseline long enough to achieve good angular accuracy. However, an interferometer with baseline longer than a half-wavelength has the ambiguity problem. In this paper, we present a novel method for solving the ambiguity problem in interferometry systems. This technique is based on the amplitude comparison method and the space division table, and it can place a target within the angular region in which the ambiguity problem does not occur by roughly estimating direction-of-arrival. The Monte Carlo simulation results show that proposed method can effectively remove the ambiguity problem in the system.

In-Flight Calibration Method for Direction Finding of Communication Signals based on Aviation Systems (항공 시스템 기반의 통신신호 방향 탐지를 위한 비행 보정 기법)

  • Chang, Jaewon;Joo, Jeungmin
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.30 no.4
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    • pp.290-299
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    • 2019
  • Direction-finding equipment with multiple antennas are used to estimate the direction of a signal emitted by a source; they can be used to rescue a victim or locate a specified source. During direction finding, reflection waves are present and signal distortion is observed depending on the external shape and material of a system that incorporates the direction-finding equipment and multiple antennas. Therefore, to accurately estimate the azimuth of the signal source and develop the direction-finding equipment, a calibration should be performed to reflect the influence of the antenna arrangement(layout) and system contour. In this paper, we describe an in-flight calibration method to develop direction-finding equipment to locate communication signals using an aviation system, and we analyze the direction-finding performance when applying phase calibration data obtained through the in-flight calibration.

The Geolocation Estimation System for a Stationary Emitter using Rotating Antenna (회전안테나를 이용한 고정 신호원 위치탐지 시스템)

  • Kwak, Hyungyu;Kim, Sangwon;Choi, Daegyu
    • Journal of the Korea Institute of Military Science and Technology
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    • v.19 no.6
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    • pp.681-689
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    • 2016
  • In the direction and location finding field of application, AOA, TDOA and FDOA, etc. are used to improve the performance of geolocation. But, these methods cause some limitations such as the calibrations for phase and amplitude matching and precise time synchronization among receiving channels. In this paper, We suggest a method for generating FDOA using rotating antenna and the geolocation of stationary emitter using two receivers in one platform for minimizing the limitations. We present performance of simulation results and test results of the FDOA geolocation system. The direction finding errors of the system are less than $0.1^{\circ}$ rms and the distance errors are less than 3 % compared with the practical distance.

The Development of an airbone-based direction-finding system for EW application (항공기 외장형.전자전 방향탐지장치 개발)

  • 전병태;박영미;최도원;박문복;임중수
    • Journal of the Korea Institute of Military Science and Technology
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    • v.5 no.3
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    • pp.98-104
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    • 2002
  • An airborne-based Direction-Finding System is developed for the application of ELINT and ES(Electronic Support). The system takes the phase-comparison technology, and has the configuration of multi-based antenna array for the solution of ambiguity due to the increased Direction-Finding resolution. This thesis describes the design of optimized distances among antennas, the electrical characteristics, the method of compensation, the direction-finding accuracy, and et. al. under the condition of the airborne-based environment.

A Study on Optimal Deployment for Improvement of EMI between MOSCOS and ES DF Antenna on a Surface Ship (수상함 MOSCOS와 ES 방향탐지 안테나간의 전자기 간섭 개선을 위한 최적배치 연구)

  • Chang, Hoseong;Son, Yoonjun
    • Journal of the Korea Institute of Military Science and Technology
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    • v.20 no.2
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    • pp.197-205
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    • 2017
  • During the sea trial, we discovered EMI between MOSCOS and ES DF antenna. CW emitted by MOSCOS raised the threshold level of ES DF antenna. As a result, direction finding rate of ES has been decreased. This is a study for the improvement of EMI between the antennas mounted on a surface ship. An analysis is accomplished for MOSCOS, ES DF antenna and Jamming transmitter. This paper presents the method how to solve EMI based on the measurements and calculations about the ES DF antenna receiving level, MOSCOS radiation pattern and Jamming transmitter thermal noise. The test was performed with optimal deployment of MOSCOS on a surface ship. After changing the position of MOSCOS, EMI has been decreased significantly.

Data Convergence of circular Array Correlative Interferometer Direction Finding with 7-Antenna (7-안테나로 구성된 원형배열 상관형 위상비교 방향탐지의 데이터 융합)

  • Lim, Joong-Soo
    • Journal of the Korea Convergence Society
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    • v.8 no.1
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    • pp.1-6
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    • 2017
  • In this paper, we propose a new method for a correlative phase comparison direction finding(DF) which detects the arrival direction of radio waves by data fusing the calculated phase difference and the measured phase difference between the antennas when the radio waves are incident on the circular array antenna composed of 7 antennas respectively. The correlation type phase comparison method uses a uniform circular array(UCA) and a linear array method. The phase difference data calculated formally and the phase difference data measured in the test environment are fused with a correlation function, therefore, it is superior to the currently used phase comparison direction detection method. When the signal-to-noise ratio (SNR) of the received signal is 20dB and the inter-antenna distance to the wavelength of the received signal($L/{\lambda}$) is 0.5, the accuracy of the correlative DF is $1.7^{\circ}$ while measurement phase comparison's is larger than $2.5^{\circ}$, It can be used for electromagnetic signal monitoring and military direction detection.

A Simulator for Analyzing the Accuracy of Correlative Interferometer Direction Finder (상관형 위상비교 방향탐지장치의 정확도 분석 시뮬레이터)

  • Lim, Joong-Soo;Kim, Young-Ho;Kim, Kichul
    • Journal of Convergence for Information Technology
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    • v.7 no.2
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    • pp.53-58
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    • 2017
  • This paper describes the design of a simulator for analyzing the accuracy of a correlative interferometer(CI) direction finder. CI direction finder is robust to noise, so it is often used in aircraft or ships where complex antenna installation is required, and the direction finding accuracy is very high. When the radio wave is incident at a specific azimuth angle, the phase difference calculated in a noiseless environment and the phase difference measured in a real environment with noise are fused to estimate the largest correlation coefficient as the azimuth angle of the radio wave. The simulator receives RF frequency, the number of antennas, the antenna coordinates, the transmission signal intensity, the bandwidth of the receiver, the gain and the payload effect, and calculates the direction finding accuracy of 0-360 degrees azimuth and 0-60 degree elevation with 0.5 degree. accuracy.