使用麦克风阵列实现GPS高效声源定位

IF 0.6 Q3 Engineering

International Journal of Signal and Imaging Systems Engineering Pub Date : 2017-08-25 DOI:10.1504/IJSISE.2017.10006780

Hunny Pahuja, P. Ranjan, A. Ujlayan

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引用次数: 0

摘要

在这个声源定位领域技术发展迅速的时代，迫切需要集成这些单独的技术，以创建一个准确、更强大的定位器。当将体积转向响应功率（V-SRP）技术与转向响应功率进行比较时，前者实现了显著较低的计算复杂度。这是在位置估计的精度没有太大降低的情况下实现的。通过将精细搜索词干附加到V-SRP，实现了精细版本（RV-SRP），并改进了复杂性和准确性的折衷。使用模拟和真实场景数据进行实验，以证明计算成本的降低。此外，在实验中，全球定位系统（GPS）提供了源的精确位置坐标。它将报告新开发的系统和方法，这些系统和方法将能够通过TDE-ILD-HRTF的集成以及地理定位可视化来找到声源的大致方位角和仰角，以帮助人类实现和平与和谐的目标。

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GPS enabled efficient sound source localisation using microphone array

In this era of rapid technical developments in the field of sound source localisation, there is an urgent need to integrate these individual technologies to create an accurate and more power localiser. When the technique volumetric steered response power (V-SRP) is compared to steered response power (SRP), the former achieves a significant lower computational complexity. This is achieved without much decrease in the accuracy of location estimation. By appending a fine search stem to V-SRP, a refined version (RV-SRP) is achieved with improved compromise of complexity and accuracy. Experiments are performed using both the simulated as well as real scenario data to demonstrate the decrease in the computational cost. Further, in the experiment, the global positioning system (GPS) provides the accurate location coordinates of the source. It is to report newly developed system and methodologies which will be able to find approximate azimuth and elevation angle of sound source with integration of TDE-ILD-HRTF along with geo-positioning visualisations to help humanity to achieve its goal towards peace and harmony.

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来源期刊

International Journal of Signal and Imaging Systems Engineering ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

2.10

自引率

0.00%

发文量