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ISSN 2096-7780 CN 10-1665/P

赵希磊, 刘泽民, 周冬瑞, 苏伟. 大别山试验场次声台阵建设[J]. 地震科学进展, 2018, (6): 28-32. DOI: 10.3969/j.issn.0253-4975.2018.06.005
引用本文: 赵希磊, 刘泽民, 周冬瑞, 苏伟. 大别山试验场次声台阵建设[J]. 地震科学进展, 2018, (6): 28-32. DOI: 10.3969/j.issn.0253-4975.2018.06.005
Xilei Zhao, Zemin Liu, Dongrui Zhou, Wei Su. The construction of infrasonic array inDabie Mountain experimental site[J]. Progress in Earthquake Sciences, 2018, (6): 28-32. DOI: 10.3969/j.issn.0253-4975.2018.06.005
Citation: Xilei Zhao, Zemin Liu, Dongrui Zhou, Wei Su. The construction of infrasonic array inDabie Mountain experimental site[J]. Progress in Earthquake Sciences, 2018, (6): 28-32. DOI: 10.3969/j.issn.0253-4975.2018.06.005

大别山试验场次声台阵建设

The construction of infrasonic array inDabie Mountain experimental site

  • 摘要: 为填补大别山区次声观测空白,设计并建设了大别山试验场次声台阵。台阵包含6个观测点,呈五边形分布。台阵供电采用太阳能系统,通信系统基于VPN系统架构,实现了数据的实时自动传输和FTP传输功能。台阵记录到了附近雷电事件及其变化规律,表明该次声台阵数据具有良好的应用前景。

     

    Abstract: In order to fill the gaps in the Dabie Mountains, the infrasonic array was designed and constructed in Dabie Mountain experimental site. The array contained six observation points in pentagonal distribution. Solar energy systems supplied power for the array. The communication system based on VPN architecture achieved real-time data transmission and FTP transmission function. Lightning events nearby and their changing laws were recorded by the array, showing great application prospects on the observation data.

     

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