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891.
A/D量化对GPS接收机自适应天线性能的影响 总被引:3,自引:2,他引:3
A/D量化会带来干扰抑制比和输出卫星信噪比的损耗。通过估算量化噪声和干扰信号互相关矩阵的最大特征值,给出了干扰抑制比的近似表达式,而输出卫星信噪比损耗则是通过计算高斯噪声下量化信号的一阶矩和二阶矩得到的。结果表明,当选择量化间隔△-0.5d(α^2为接收信道的热噪声功率)时,量化噪声近似为独立的均匀分布的白噪声,因A/D量化带来的输出卫星信噪比的损耗不大于0.1dB,干扰抑制能力几乎不受影响。计算机仿真实验也验证了所作分析。 相似文献
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本文以雷达接收到的多卜勒信息为依据,应用现代控制理论知识,推导了一种新的导弹脱靶量的获取方法:参数辨识法。它利用了导弹和目标相对运动产生的多卜勒效应,建立起关于脱靶参量与多卜勒周期数的线性方程。应用参数识别的办法,对脱靶参数进行辨识,它解决了其它方法未能克服的问题:因体目标效应所产生的多卜勒频率的起伏噪声对估值精度的影响。在此基础上,又推导了一种克服噪声相关性的改进算法。仿真结果表明,本文的算法是很有效的。 相似文献
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Large Eddy Simulation(LES) is performed to investigate the airfoil broadband noise reduction with wavy leading edge under anisotropic incoming turbulence. The anisotropic incoming turbulence is generated by a rod with a diameter of 10 mm. The incoming flow velocity is 40 m/s and the corresponding Reynolds numbers based on airfoil chord and rod diameter are about 397000 and 26000, respectively. The far-field acoustic field is predicted using an acoustic analogy method which has been validated by the experiment. A straight leading edge airfoil and a wavy leading edge airfoil are simulated. The results show that wavy leading edge increases the airfoil lift and drag whereas the lift and drag fluctuations are substantially reduced. In addition, wavy leading edge can significantly change the flow pattern around the leading edge and a pair of counter-rotating streamwise vortices stemming from each wavy leading edge peak are observed.An averaged noise reduction of 9.5 dB is observed with the wavy leading edge at the azimuthal angle of 90°. Moreover, the wavy leading edge can mitigate noise radiation at all the azimuthal angles without significantly changing the noise directivity. The underlying noise reduction mechanisms are then analyzed in detail. 相似文献
896.
Konstantinos-Alketas Oungrinis Marianthi Liapi Anna Kelesidi Leonidas Gargalis Marinela Telo Sotiris Ntzoufras Mariana Paschidi 《Acta Astronautica》2014
The paper presents the development of an on-going research project that focuses on a human-centered design approach to habitable spacecraft modules. It focuses on the technical requirements and proposes approaches on how to achieve a spatial arrangement of the interior that addresses sufficiently the functional, physiological and psychosocial needs of the people living and working in such confined spaces that entail long-term environmental threats to human health and performance. Since the research perspective examines the issue from a qualitative point of view, it is based on establishing specific relationships between the built environment and its users, targeting people?s bodily and psychological comfort as a measure toward a successful mission. This research has two basic branches, one examining the context of the system?s operation and behavior and the other in the direction of identifying, experimenting and formulating the environment that successfully performs according to the desired context. The latter aspect is researched upon the construction of a scaled-model on which we run series of tests to identify the materiality, the geometry and the electronic infrastructure required. Guided by the principles of sensponsive architecture, the ISM research project explores the application of the necessary spatial arrangement and behavior for a user-centered, functional interior where the appropriate intelligent systems are based upon the existing mechanical and chemical support ones featured on space today, and especially on the ISS. The problem is set according to the characteristics presented at the Mars500 project, regarding the living quarters of six crew-members, along with their hygiene, leisure and eating areas. Transformable design techniques introduce spatial economy, adjustable zoning and increased efficiency within the interior, securing at the same time precise spatial orientation and character at any given time. The sensponsive configuration is programmed to exhibit behavior in direct relation to human activity. It is based upon two active systems, the Activity Evaluation System (AES) and the Response System (RS), with combined action that is always open to the control of the user. The AES monitors the daily schedule of the astronauts in order to find patterns of activity, understand the context of actions and moreover to assess the psychological condition of the crew-members. If it finds cause for intervention, AES will give way to the RS which employs smart materials, controllers and actuators in order to perform required changes in the environmental factors, both spatial (volume and surface) and ambient (audio, visual, olfactory, and haptic), and induce a desirable spatial and/or psychological condition that is beneficial for the astronauts? comfort and well being. 相似文献
897.
以汽车发电机冷却风扇为对象,针对其修改叶片分布角度前后的旋转噪声预测问题,提出一套较精确且节约计算机时的预测方法.该方法结合了声类比法和矢量合成方法,首先,用大涡模拟(LES)和Ffowcs-Williams和Hawkings(FW-H)方程相结合的声类比方法对原风扇总噪声和主要阶次旋转噪声幅值进行预测;然后,针对只改变叶片分布角度情况下,提出一种矢量合成方法,用于对修改叶片分布前后主要阶次旋转噪声变化量的预测;最后,得到修改后主要阶次旋转噪声的幅值.计算和实验结果表明,原风扇总噪声最大预测误差4.3dB,第12阶和第18阶主要阶次旋转噪声幅值预测误差为1.24dB和4.26dB;修改后风扇第12阶和第18阶主要阶次旋转噪声分别变小了9.3dB和10.5dB,其变化量预测误差分别为0.36dB和0.43dB.结果表明,这一整套对修改前后风扇旋转噪声进行预测的方法是可行的,且大大节省计算时间,为风扇叶片周向分布角度设计提供了很好的依据. 相似文献
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针对磁层稀薄等离子体环境中的电场测量,设计了一种电场仪前端信号处理电路方案.双探针电场仪通过向等离子体输出驱动电流,测量两探针间的电位差,从而测量空间电场的探测仪器.在磁层稀薄等离子体环境下,等离子体阻抗较高,电场仪探针将工作在较高的工作电压上.若探针电压接近或超过电路耐压值,则可能会影响探测结果,甚至损坏电场仪.本文结合低偏置电流的电压跟随方案和反馈悬浮电源控制方案,解决了稀薄等离子体环境中电场测量的弱电流采样和高动态电位处理问题,并采用低噪声元件和特殊电路设计,控制电路噪声.测试结果显示,本方案可使探针适应±100V的悬浮电位,实现150kHz带宽的电场信号测量,且噪声小于14nV·mHz-1/2,满足目前空间电场仪测量精度需求. 相似文献
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