能满足机器人声源定位的要求。
声源定位是听觉系统的主要功能之一。
Sound source localization is one of main functions of auditory system.
高空气象条件是影响远距离被动声源定位效果的主要因素。
The high altitude weather information is the most important factor which influences the result of passive acoustic localization.
最终完成目标探测识别的算法处理,实现声源定位识别功能。
Finally arithmetic processing of detection and orientation are completed, function of sound source orientation is accomplished.
本文研究了互谱分析法在噪声源定位应用上的理论和实验技术。
In this paper, the theory and the experimental technique about the identification of a noise source using a cross-spectrum analysis method have been studied.
基于时延的被动声源定位研究的第二个关键技术是阵列的布设。
The second key technique on time delay estimation based acoustic source localization is the structure of microphone arrays.
声源定位是阵列信号处理的主要任务之一,是实现空间滤波的基础。
The localization of the speech source is the primary task of the array signal processing, and the basis of spatial filter designing.
同时也证实了本声源定位系统的有效性,处理结果证实定位精度较高。
Also confirmed the effectiveness of sound source localization system, and the results confirmed a high positioning accuracy.
本文分别研究了43名及60名正常人的声源定位偏差及声源位置辨别阈。
Deviation in localization of a sound source and differential threshold of sound source position were studied on 43 and 60 subjects, respectively.
基于麦克风阵列的声源定位技术在通信、语音处理等领域得到广泛的应用。
The speech source localization technology based on microphone array has been abroad applied to communication and speech signal processing.
本文提出了一种由多个探测节点组成,基于无线传感器网络的声源定位系统。
This paper presents a sound localization system which constructs of multiple detecting nodes, and based on wireless sensor networks.
下丘作为听觉中脑的重要组成部分,在声源定位的过程中起到非常重要的作用。
The inferior colliculus (IC), as an important nucleus of auditory midbrain, is crucial for sound localization.
声强测量可以剔除其他声音的干扰,准确的确定声源的位置,即进行声源定位。
Sound intensity measurements accurately capture only the sound produced by the source under test, eliminating interference from other sounds and realizing the location of the sound.
一个新的声源定位与跟踪方法,提出了基于麦克风阵列扬声器跟踪问题在嘈杂和混响环境。
A new sound source localization and tracking method based on microphone array is presented for speaker tracking problem in noisy and reverberant environments.
传统声源定位系统主要基于传声器阵列定位技术,其缺点在于阵列体积大,覆盖范围较小,定位精度不高。
Traditional sound localization system is mainly based on microphone array localization technology, the drawback is the large size of array, limitation of coverage and low positioning accuracy.
我利用TI公司性价比很高的数字信号处理芯片TMS320 VC 5402设计了一套声源定位系统。
We designed one system using high capability price ratio DSP chip of TMS320VC5402 of ti Corporation.
本文在借鉴已有成果和相关资料的基础上,研究并设计了一种基于虚拟仪器技术在机器人声源定位系统中的应用技术。
In this paper, results and relevant reference materials have been based on research and design of a robot based on virtual instrument technology in sound localization system technology.
大脑通过我们两只耳朵之间的响度,音调和时间的细微差别来定位声源在三维中的位置(水平,垂直和距离)。
The brain USES subtle differences in loudness, tone and timing between our two ears to localize sound sources in three-dimensional positions (horizontal, vertical, and distance).
任意定位虚拟声源和虚拟听众。
Arbitrary positioning of the virtual sound sources and the virtual listener.
由于海洋环境的复杂性,直到现在仍然没有一种有效的能够实时解决真实环境中远距离声源的定位方法。
Because of the complexity of ocean environment, until now, there is no efficient method that can solve long-range source localization in time under real environmental condition.
基于射线寻迹的原理,提出了一种对被动声源进行非视距定位的方法。
A new method of NLOS acoustic passive location based on ray tracing is presented.
连续扫描声全息声源识别定位技术是对以往声全息实验方法的改进。
The acoustic holography technique for sound source identification and position by the method of continuously scanning improves the previous acoustic holography experiment.
研究利用单个水听器对宽带水下声源进行匹配场定位的可行性问题。
This paper discusses the feasibility of broadband matched field source localization in F-Lake with a single hydrophone.
通过用声强测量系统对水下大型结构体进行了辐射噪声声功率的测定以及噪声源的识别和定位的实验。
The measurement of radiation noises from an underwater structure body and identification and location of noise sources were carried out by using a sound intensity measurement system .
本文针对无源声纳对运动声源的被动定位跟踪中的病态问题,提出一种基于线性估计、可减轻病态的新方法。
To solve the problem of the ill-condition in locating and tracking a moving source using passive measurements, a new method based on linear estimation is presented in this paper, the.
采用基于分布源边界点法的近场声全息技术对运转状态下的罗茨真空泵进行了噪声源识别和定位研究。
The distributed source boundary point method(DSBPM) based nearfield acoustic holography(NAH) is used for identifying and localizing noise sources of the roots vacuum pump.
提出了基于波叠加的噪声源识别和定位方法。
The method of noise source identification and location based on Wave Superposition Method(WSM) is proposed.
提出了基于波叠加的噪声源识别和定位方法。
The method of noise source identification and location based on Wave Superposition Method(WSM) is proposed.
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