共查询到20条相似文献,搜索用时 167 毫秒
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在阵列测向研究领域,无论采用何种算法,都有一些假定的理想前提条件,这将不影响算法的正确性验证.但在实际的系统应用中时,这些假定的条件,有的就不再成立,从而使测向算法产生较大的估计误差,甚至失效.提出了一种通道误差校正方法,可对由于各通道在制造时不可避免产生的幅度与相位误差进行校正.仿真结果证明,这种校正方法是有效的. 相似文献
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瓦特森-瓦特(WATSON-WATT)测向方法是英国物理学家RobertAlexanderWATSON-WATT于1935年发明的一种比幅测向方法。作为一种经典的无线电测向体制.相对于其他测向方法,WA下SON-WATT测向因其测向灵敏度高、测向速度快.抗同道干扰能力强等诸多优点,在军事上得到广泛的应用。近年来.多波道宽带接收机技术和计算机技术的成熟.又给这一测向方法注入了新的生命活力.使得许多工程师越来越多地关注这一测向方法的技术发展和设备应用。本文将简要介绍这一方法的工作原理,讨论单信道和双信道WATSON-WATT的测向处理方法,并给出一个基于宽带接收机和数字中频处理平台的双信道WATSON-WATT测向系统实例。 相似文献
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无线电测向在无线电管理工作中发挥着十分重要的作用。本文对相位响应型测向法、幅度响应型测向法和瓦特斯-瓦特测向法进行了介绍,对测向的原理和误差产生的原因进行了分析,并总结了相关理论知识在日常无线电管理工作中的应用技巧。 相似文献
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研究了在超宽频段一种被动雷达导引头旋转式干涉仪无模糊测向方法。在2个相邻雷达脉冲到达时,干涉仪2次测量相位差变化不超过π的情况下,可用基于数字积分器解决测向模糊问题。而在干涉仪测量相位差变化超过π的情况下,基于相位连续特性,通过对数字积分器的结果作修正可实现无模糊测向。本文设计并实现了一种针对8 mm波段被动雷达导引头旋转式相位干涉仪测向系统,系统仿真和硬件测试结果证明了该算法的正确性和有效性。 相似文献
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Mostafa S. Afifi 《International Journal of Satellite Communications and Networking》1990,8(5):369-377
This work describes the radiation performance of a novel concept for direction and location finding, using stationary satellite beacons. The received signals are processed with a monopulse four-element array. The monopulse mode is generated using the phase excitation of the radiating elements. For accurate processing the radiation phase should correspond with the bearing angle around the boresight direction. Phase deviations, however, occur in this phase pattern owing to the discrete excitation of the elements. Therefore, detailed analyses are presented for this phase pattern, its attainable gain and the depolarization effects, in order to select the kind of array elements, and their spacings, which minimize the phase pattern deviations. The dipoles and the slots, as array elements, yield better phase performance, smaller size and simpler structures than horn radiators, at the expense of worse depolarization. 相似文献
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Sensor location uncertainty of array degrades severely the performance of eigenstruc-ture based direction finding system.A new calibration method of sensor location is presentedwith three far field sources whose directions are not known accurately.A signal subspace basediteration algorithm for sensor location calibration is developed and its convergence to the globaloptimal point has been shown.The guide line for selecting directions of calibrating sources isgiven.Simulation results illustrate that the new method is successful and practicable. 相似文献
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针对短基线时差测向精确度低、长基线相差测向存在模糊和传统的微波技术难以满足电子战设备分布式部署的长距离传输需求的问题,结合微波光子学,提出一种基于微波光子联合时差相差的分布式长距离单基线高精确度测向技术。该技术使用直调模式微波光子传输设备,克服了微波信号经过长距离传输后引起的时差和相差变化影响,满足长距离微波光子的稳定传输;并在此基础上采用改进的时差曲面拟合插值方法解决相差模糊问题。仿真和实验测试验证了该技术实现分布式长距离单基线高精确度测向的可行性。 相似文献
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测向误差的减小一直以来都是无线电测向精度提高的一个难点,对于不同的测向体制所采用的减小测向误差的方法都不尽相同。本文主要介绍的是相关干涉仪测向体制的基本原理以及通过内插法的应用来减小测向误差的方法。 相似文献
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为了解决安装环境有限,不能应用多天线组成的天线阵问题,达到小空间还能采用干涉式测向系统的目的,采用测距与干涉式测向相结合的方法,解决该问题。经过实际应用试验,获得较为理想应用效果,该方法具有工程实践、推广意义。 相似文献
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For the mobile communication satellite each beam communication traffic distribution was not balanced,leading to differences in transmission power of downlink beam.The implementation architectures of dynamic power allocation network was given,which could allocate the transmitting beam power automatically according to the traffic demand,at the same time ensured the high efficiency of power amplifier.Because the performance of dynamic power allocation network was severely impaired by the mutual coupling among signals when amplitude/phase mismatch was existed,which led to a sharp drop in beam performance.A calibration method for the amplitude and phase errors was proposed.The decoupling of calibration signal was realized by using the cross-correlation orthogonal characteristic of the orthogonal zero-correlation zone (ZCZ) sequences in the zero correlation interval,and communication was free from calibration by reducing the transmit power for the excellent self-correlation characteristic of the ZCZ sequences.Performance simulation and far field test show that under the condition that the calibration signal power is less than the normal signal 10 dB,the amplitude error is less than 0.1 dB,the phase error is less than 0.3°,and the gain loss within the main lobe is less than 0.2 dB after calibration. 相似文献