Kolar Petr, Waheed Umair Bin, Eisner Leo, Matousek Petr
Institute of Geophysics of the Czech Academy of Sciences, Prague, Czechia.
Department of Geosciences, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia.
Front Big Data. 2023 Aug 4;6:1174478. doi: 10.3389/fdata.2023.1174478. eCollection 2023.
We have developed a Recurrent Neural Network (RNN)-based phase picker for data obtained from a local seismic monitoring array specifically designated for induced seismicity analysis. The proposed algorithm was rigorously tested using real-world data from a network encompassing nine three-component stations. The algorithm is designed for multiple monitoring of repeated injection within the permanent array. For such an array, the RNN is initially trained on a foundational dataset, enabling the trained algorithm to accurately identify other induced events even if they occur in different regions of the array. Our RNN-based phase picker achieved an accuracy exceeding 80% for arrival time picking when compared to precise manual picking techniques. However, the event locations (based on the arrival picking) had to be further constrained to avoid false arrival picks. By utilizing these refined arrival times, we were able to locate seismic events and assess their magnitudes. The magnitudes of events processed automatically exhibited a discrepancy of up to 0.3 when juxtaposed with those derived from manual processing. Importantly, the efficacy of our results remains consistent irrespective of the specific training dataset employed, provided that the dataset originates from within the network.
我们针对从专门用于诱发地震活动分析的本地地震监测阵列获取的数据,开发了一种基于循环神经网络(RNN)的震相拾取器。所提出的算法使用来自包含九个三分量台站的网络的实际数据进行了严格测试。该算法设计用于对永久阵列内的重复注入进行多次监测。对于这样的阵列,RNN首先在一个基础数据集上进行训练,使训练后的算法能够准确识别其他诱发事件,即使它们发生在阵列的不同区域。与精确的人工拾取技术相比,我们基于RNN的震相拾取器在到达时间拾取方面的准确率超过了80%。然而,事件位置(基于到达拾取)必须进一步约束以避免错误的到达拾取。通过利用这些精确的到达时间,我们能够定位地震事件并评估其震级。与人工处理得出的震级相比,自动处理的事件震级相差高达0.3。重要的是,只要数据集源自网络内,无论使用何种特定训练数据集,我们结果的有效性都保持一致。
